DMD cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following DMD gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DMD cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

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***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu25896 NM_004019.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp40, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$139.50-$195.30
$279.00
OHu26271 NM_004013.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp140, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$619.50-$867.30
$1239.00
OHu26424 NM_004015.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp71, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$219.50-$307.30
$439.00
OHu26335 NM_004018.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp71ab, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $363.30
$519.00
OHu26765 NM_004017.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp71a, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $356.30
$509.00
OHu26826 NM_004016.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp71b, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $69.30
$99.00
OHu27604 NM_004014.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp116, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $657.30
$939.00
OHu108386 NM_004023.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp140bc, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu108706 NM_004021.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp140b, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu23881 NM_004020.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp140c, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $790.30
$1129.00
OHu26153 NM_004022.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant D140ab, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $874.30
$1249.00
OHu26361 NM_004021.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp140b, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $874.30
$1249.00
OHu26870 NM_004023.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp140bc, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $797.30
$1139.00
OHu99187 XM_017029331.1
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu57295 XM_011545469.1
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu108314 NM_004012.4
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp260-2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1301.30
$1859.00
OHu108717 NM_004011.4
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp260-1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1301.30
$1859.00
OHu99185 XM_017029329.1
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00
OHu99186 XM_017029330.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00
OHu23501 NM_004012.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp260-2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $923.30
$1319.00
OHu27491 NM_004011.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp260-1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $923.30
$1319.00
OHu108338 NM_000109.4
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp427c, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu109363 NM_004006.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp427m, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu23586 NM_004009.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp427p1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu23821 NM_004006.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp427m, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu23889 NM_000109.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp427c, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu24058 NM_004010.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant Dp427p2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu53866 XM_006724468.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu53867 XM_006724469.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu53868 XM_006724470.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu53871 XM_006724473.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu53872 XM_006724474.3
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu53873 XM_006724475.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu57293 XM_011545467.1
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu57294 XM_011545468.2
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu99184 XM_017029328.1
Latest version!
Homo sapiens dystrophin (DMD), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
View Old Accession Versions >>
OHu26424 NM_004015.2 Homo sapiens dystrophin (DMD), transcript variant Dp71, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$219.50-$307.30
$439.00
OHu99186 XM_017029330.1 Homo sapiens dystrophin (DMD), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00
OHu26335 NM_004018.2 Homo sapiens dystrophin (DMD), transcript variant Dp71ab, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $363.30
$519.00
OHu25896 NM_004019.2 Homo sapiens dystrophin (DMD), transcript variant Dp40, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$139.50-$195.30
$279.00
OHu26826 NM_004016.2 Homo sapiens dystrophin (DMD), transcript variant Dp71b, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $69.30
$99.00
OHu26765 NM_004017.2 Homo sapiens dystrophin (DMD), transcript variant Dp71a, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $356.30
$509.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OHu25896
    Clone ID Related Accession (Same CDS sequence) NM_004019.2 , NM_004019.3
    Accession Version NM_004019.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1023bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-17
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp40
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from S42206.1, M18533.1 and AC078958.30. On Jun 29, 2007 this sequence version replaced NM_004019.1. Transcript Variant: transcript Dp40 uses exons 63-70. The 5' UTR and encoded first 7 aa are identical to that in transcript Dp71, but the stop codon lies at the splice junction of the exon/intron 70. The 3' UTR includes nt from intron 70 which includes an alternative polyadenylation site. The Dp40 isoform lacks the normal C-terminal end of full-length dystrophin (aa 3409-3685). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.310007.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004010.1
    CDS79..1101
    Translation

    Target ORF information:

    RefSeq Version NM_004019.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp40, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004019.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu25896
    Clone ID Related Accession (Same CDS sequence) NM_004019.2 , NM_004019.3
    Accession Version NM_004019.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1023bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp40
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC078958.30, S42206.1 and M18533.1. On Jun 2, 2019 this sequence version replaced NM_004019.2. Transcript Variant: transcript Dp40 uses exons 63-70. The 5' UTR and encoded first 7 aa are identical to that in transcript Dp71, but the stop codon lies at the splice junction of the exon/intron 70. The 3' UTR includes nt from intron 70 which includes an alternative polyadenylation site. The Dp40 isoform lacks the normal C-terminal end of full-length dystrophin (aa 3409-3685). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.310007.1, DRR138521.42549.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004010.1
    CDS126..1148
    Translation

    Target ORF information:

    RefSeq Version NM_004019.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp40, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004019.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26271
    Clone ID Related Accession (Same CDS sequence) NM_004013.2
    Accession Version NM_004013.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3678bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp140
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA804849.1, M18533.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004013.1. Transcript Variant: Dp140 transcripts use exons 45-79, starting at a promoter/exon 1 located in intron 44. Dp140 transcripts have a long (1 kb) 5' UTR since translation is initiated in exon 51 (corresponding to aa 2461 of dystrophin). In addition to the alternative promoter and exon 1, differential splicing of exons 71-74 and 78 produces at least five Dp140 isoforms. Of these, this transcript (Dp140) contains all of the exons. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## CDS exon combination :: BC127103.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGAAGAA ATACCCCTGG AAAGCCAATG
    AGAGAGGACA CAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004004.1
    CDS1042..4719
    Translation

    Target ORF information:

    RefSeq Version NM_004013.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp140, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004013.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGAAGAA ATACCCCTGG AAAGCCAATG
    AGAGAGGACA CAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26424
    Clone ID Related Accession (Same CDS sequence) NM_004015.2 , NM_004015.3
    Accession Version NM_004015.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1854bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-21
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp71
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC094758.1, BC070078.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004015.1. Transcript Variant: Dp71 transcripts use exons 63-79 with a novel 80- to 100-nt exon containing an ATG start site for a new coding sequence of 17 nt. The short coding sequence is in-frame with the consecutive dystrophin sequence from exon 63. Differential splicing of exons 71 and 78 produces at least four Dp71 isoforms. Of these, this transcript (Dp71) includes both exons 71 and 78. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.231419.1, SRR1660805.234531.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GAAGAAATAC CCCTGGAAAG CCAATGAGAG AGGACACAAT GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004006.1
    CDS79..1932
    Translation

    Target ORF information:

    RefSeq Version NM_004015.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp71, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004015.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GAAGAAATAC CCCTGGAAAG CCAATGAGAG AGGACACAAT GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26424
    Clone ID Related Accession (Same CDS sequence) NM_004015.2 , NM_004015.3
    Accession Version NM_004015.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1854bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp71
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC078958.30, BC094758.1, BC070078.1, BC028720.1 and AC006061.1. On Jun 2, 2019 this sequence version replaced NM_004015.2. Transcript Variant: Dp71 transcripts use exons 63-79 with a novel 80- to 100-nt exon containing an ATG start site for a new coding sequence of 17 nt. The short coding sequence is in-frame with the consecutive dystrophin sequence from exon 63. Differential splicing of exons 71 and 78 produces at least four Dp71 isoforms. Of these, this transcript (Dp71) includes both exons 71 and 78. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.231419.1, SRR1803613.79768.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GAAGAAATAC CCCTGGAAAG CCAATGAGAG AGGACACAAT GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004006.1
    CDS126..1979
    Translation

    Target ORF information:

    RefSeq Version NM_004015.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp71, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004015.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GAAGAAATAC CCCTGGAAAG CCAATGAGAG AGGACACAAT GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26335
    Clone ID Related Accession (Same CDS sequence) NM_004018.3 , NM_004018.2
    Accession Version NM_004018.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1869bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp71ab
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC078958.30, DB233002.1, M92650.1, BC028720.1 and AC006061.1. On Jun 2, 2019 this sequence version replaced NM_004018.2. Transcript Variant: Dp71 transcripts use exons 63-79 with a novel 80- to 100-nt exon containing an ATG start site for a new coding sequence of 17 nt. The short coding sequence is in-frame with the consecutive dystrophin sequence from exon 63. Differential splicing of exons 71 and 78 produces at least four Dp71 isoforms. Of these, this transcript (Dp71ab) lacks both exons 71 and 78 and encodes a protein with a C-terminus like isoform Dp71b. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.35184.1, SRR1803615.9570.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGACACAATG TAGGAAGTCT TTTCCACATG
    GCAGATGATT TGGGCAGAGC GATGGAGTCC TTAGTATCAG TCATGACAGA TGAAGAAGGA
    GCAGAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004009.1
    CDS126..1994
    Translation

    Target ORF information:

    RefSeq Version NM_004018.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp71ab, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004018.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGACACAATG TAGGAAGTCT TTTCCACATG
    GCAGATGATT TGGGCAGAGC GATGGAGTCC TTAGTATCAG TCATGACAGA TGAAGAAGGA
    GCAGAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26335
    Clone ID Related Accession (Same CDS sequence) NM_004018.3 , NM_004018.2
    Accession Version NM_004018.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1869bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-21
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp71ab
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB233002.1, M92650.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004018.1. Transcript Variant: Dp71 transcripts use exons 63-79 with a novel 80- to 100-nt exon containing an ATG start site for a new coding sequence of 17 nt. The short coding sequence is in-frame with the consecutive dystrophin sequence from exon 63. Differential splicing of exons 71 and 78 produces at least four Dp71 isoforms. Of these, this transcript (Dp71ab) lacks both exons 71 and 78 and encodes a protein with a C-terminus like isoform Dp71b. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.199799.1, SRR1660807.12432.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGACACAATG TAGGAAGTCT TTTCCACATG
    GCAGATGATT TGGGCAGAGC GATGGAGTCC TTAGTATCAG TCATGACAGA TGAAGAAGGA
    GCAGAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004009.1
    CDS79..1947
    Translation

    Target ORF information:

    RefSeq Version NM_004018.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp71ab, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004018.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGACACAATG TAGGAAGTCT TTTCCACATG
    GCAGATGATT TGGGCAGAGC GATGGAGTCC TTAGTATCAG TCATGACAGA TGAAGAAGGA
    GCAGAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26765
    Clone ID Related Accession (Same CDS sequence) NM_004017.2 , NM_004017.3
    Accession Version NM_004017.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1815bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-21
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp71a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC070078.1, M92650.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004017.1. Transcript Variant: Dp71 transcripts use exons 63-79 with a novel 80- to 100-nt exon containing an ATG start site for a new coding sequence of 17 nt. The short coding sequence is in-frame with the consecutive dystrophin sequence from exon 63. Differential splicing of exons 71 and 78 produces at least four Dp71 isoforms. Of these, this transcript (Dp71a) lacks exon 71. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC070078.1, SRR1803612.189502.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGAAGAAATA CCCCTGGAAA GCCAATGAGA
    GAGGACACAA TGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004008.1
    CDS79..1893
    Translation

    Target ORF information:

    RefSeq Version NM_004017.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp71a, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004017.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGAAGAAATA CCCCTGGAAA GCCAATGAGA
    GAGGACACAA TGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26765
    Clone ID Related Accession (Same CDS sequence) NM_004017.2 , NM_004017.3
    Accession Version NM_004017.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1815bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp71a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC078958.30, BC070078.1, M92650.1, BC028720.1 and AC006061.1. On Jun 2, 2019 this sequence version replaced NM_004017.2. Transcript Variant: Dp71 transcripts use exons 63-79 with a novel 80- to 100-nt exon containing an ATG start site for a new coding sequence of 17 nt. The short coding sequence is in-frame with the consecutive dystrophin sequence from exon 63. Differential splicing of exons 71 and 78 produces at least four Dp71 isoforms. Of these, this transcript (Dp71a) lacks exon 71. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803616.225208.1, SRR1660809.249000.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGAAGAAATA CCCCTGGAAA GCCAATGAGA
    GAGGACACAA TGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004008.1
    CDS126..1940
    Translation

    Target ORF information:

    RefSeq Version NM_004017.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp71a, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004017.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGAAGAAATA CCCCTGGAAA GCCAATGAGA
    GAGGACACAA TGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26826
    Clone ID Related Accession (Same CDS sequence) NM_004016.2 , NM_004016.3
    Accession Version NM_004016.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1908bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-21
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp71b
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC094758.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004016.1. Transcript Variant: Dp71 transcripts use exons 63-79 with a novel 80- to 100-nt exon containing an ATG start site for a new coding sequence of 17 nt. The short coding sequence is in-frame with the consecutive dystrophin sequence from exon 63. Differential splicing of exons 71 and 78 produces at least four Dp71 isoforms. Of these, this transcript (Dp71b) lacks exon 78 and encodes a protein with a different C-terminus than Dp71 and Dp71a isoforms. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC028720.1, SRR1660805.213964.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GACACAATGT AGGAAGTCTT TTCCACATGG CAGATGATTT GGGCAGAGCG
    ATGGAGTCCT TAGTATCAGT CATGACAGAT GAAGAAGGAG CAGAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004007.1
    CDS79..1986
    Translation

    Target ORF information:

    RefSeq Version NM_004016.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp71b, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004016.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GACACAATGT AGGAAGTCTT TTCCACATGG CAGATGATTT GGGCAGAGCG
    ATGGAGTCCT TAGTATCAGT CATGACAGAT GAAGAAGGAG CAGAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26826
    Clone ID Related Accession (Same CDS sequence) NM_004016.2 , NM_004016.3
    Accession Version NM_004016.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1908bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp71b
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC078958.30, BC094758.1, BC028720.1 and AC006061.1. On Jun 2, 2019 this sequence version replaced NM_004016.2. Transcript Variant: Dp71 transcripts use exons 63-79 with a novel 80- to 100-nt exon containing an ATG start site for a new coding sequence of 17 nt. The short coding sequence is in-frame with the consecutive dystrophin sequence from exon 63. Differential splicing of exons 71 and 78 produces at least four Dp71 isoforms. Of these, this transcript (Dp71b) lacks exon 78 and encodes a protein with a different C-terminus than Dp71 and Dp71a isoforms. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC094758.1, SRR1660805.213964.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GACACAATGT AGGAAGTCTT TTCCACATGG CAGATGATTT GGGCAGAGCG
    ATGGAGTCCT TAGTATCAGT CATGACAGAT GAAGAAGGAG CAGAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004007.1
    CDS126..2033
    Translation

    Target ORF information:

    RefSeq Version NM_004016.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp71b, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004016.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGAGGGAAC AGCTCAAAGG CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG 
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GACACAATGT AGGAAGTCTT TTCCACATGG CAGATGATTT GGGCAGAGCG
    ATGGAGTCCT TAGTATCAGT CATGACAGAT GAAGAAGGAG CAGAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu27604
    Clone ID Related Accession (Same CDS sequence) NM_004014.2
    Accession Version NM_004014.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2871bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp116
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC079175.24, M18533.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004014.1. Transcript Variant: transcript Dp116 uses exons 56-79, starting from a promoter/exon 1 within intron 55. As a result, the Dp116 isoform contains a unique N-terminal MLHRKTYHVK aa sequence, instead of aa 1-2739 of dystrophin. Differential splicing produces several Dp116-subtypes. The Dp116 isoform is also known as S-dystrophin or apo-dystrophin-2. This variant was curated in collaboration with Johann den Dunnen. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## CDS uses downstream in-frame AUG :: community standard (PMID:3282674) ##RefSeq-Attributes-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    ATGTTACACA GGAAGACATA CCATGTAAAG GACCTCCAAG GTGAAATTGA AGCTCACACA 
    GATGTTTATC ACAACCTGGA TGAAAACAGC CAAAAAATCC TGAGATCCCT GGAAGGTTCC
    GATGATGCAG TCCTGTTACA AAGACGTTTG GATAACATGA ACTTCAAGTG GAGTGAACTT
    CGGAAAAAGT CTCTCAACAT TAGGTCCCAT TTGGAAGCCA GTTCTGACCA GTGGAAGCGT
    CTGCACCTTT CTCTGCAGGA ACTTCTGGTG TGGCTACAGC TGAAAGATGA TGAATTAAGC
    CGGCAGGCAC CTATTGGAGG CGACTTTCCA GCAGTTCAGA AGCAGAACGA TGTACATAGG
    GCCTTCAAGA GGGAATTGAA AACTAAAGAA CCTGTAATCA TGAGTACTCT TGAGACTGTA
    CGAATATTTC TGACAGAGCA GCCTTTGGAA GGACTAGAGA AACTCTACCA GGAGCCCAGA
    GAGCTGCCTC CTGAGGAGAG AGCCCAGAAT GTCACTCGGC TTCTACGAAA GCAGGCTGAG
    GAGGTCAATA CTGAGTGGGA AAAATTGAAC CTGCACTCCG CTGACTGGCA GAGAAAAATA
    GATGAGACCC TTGAAAGACT CCAGGAACTT CAAGAGGCCA CGGATGAGCT GGACCTCAAG
    CTGCGCCAAG CTGAGGTGAT CAAGGGATCC TGGCAGCCCG TGGGCGATCT CCTCATTGAC
    TCTCTCCAAG ATCACCTCGA GAAAGTCAAG GCACTTCGAG GAGAAATTGC GCCTCTGAAA
    GAGAACGTGA GCCACGTCAA TGACCTTGCT CGCCAGCTTA CCACTTTGGG CATTCAGCTC
    TCACCGTATA ACCTCAGCAC TCTGGAAGAC CTGAACACCA GATGGAAGCT TCTGCAGGTG
    GCCGTCGAGG ACCGAGTCAG GCAGCTGCAT GAAGCCCACA GGGACTTTGG TCCAGCATCT
    CAGCACTTTC TTTCCACGTC TGTCCAGGGT CCCTGGGAGA GAGCCATCTC GCCAAACAAA
    GTGCCCTACT ATATCAACCA CGAGACTCAA ACAACTTGCT GGGACCATCC CAAAATGACA
    GAGCTCTACC AGTCTTTAGC TGACCTGAAT AATGTCAGAT TCTCAGCTTA TAGGACTGCC
    ATGAAACTCC GAAGACTGCA GAAGGCCCTT TGCTTGGATC TCTTGAGCCT GTCAGCTGCA
    TGTGATGCCT TGGACCAGCA CAACCTCAAG CAAAATGACC AGCCCATGGA TATCCTGCAG
    ATTATTAATT GTTTGACCAC TATTTATGAC CGCCTGGAGC AAGAGCACAA CAATTTGGTC
    AACGTCCCTC TCTGCGTGGA TATGTGTCTG AACTGGCTGC TGAATGTTTA TGATACGGGA
    CGAACAGGGA GGATCCGTGT CCTGTCTTTT AAAACTGGCA TCATTTCCCT GTGTAAAGCA
    CATTTGGAAG ACAAGTACAG ATACCTTTTC AAGCAAGTGG CAAGTTCAAC AGGATTTTGT
    GACCAGCGCA GGCTGGGCCT CCTTCTGCAT GATTCTATCC AAATTCCAAG ACAGTTGGGT
    GAAGTTGCAT CCTTTGGGGG CAGTAACATT GAGCCAAGTG TCCGGAGCTG CTTCCAATTT
    GCTAATAATA AGCCAGAGAT CGAAGCGGCC CTCTTCCTAG ACTGGATGAG ACTGGAACCC
    CAGTCCATGG TGTGGCTGCC CGTCCTGCAC AGAGTGGCTG CTGCAGAAAC TGCCAAGCAT
    CAGGCCAAAT GTAACATCTG CAAAGAGTGT CCAATCATTG GATTCAGGTA CAGGAGTCTA
    AAGCACTTTA ATTATGACAT CTGCCAAAGC TGCTTTTTTT CTGGTCGAGT TGCAAAAGGC
    CATAAAATGC ACTATCCCAT GGTGGAATAT TGCACTCCGA CTACATCAGG AGAAGATGTT
    CGAGACTTTG CCAAGGTACT AAAAAACAAA TTTCGAACCA AAAGGTATTT TGCGAAGCAT
    CCCCGAATGG GCTACCTGCC AGTGCAGACT GTCTTAGAGG GGGACAACAT GGAAACTCCC
    GTTACTCTGA TCAACTTCTG GCCAGTAGAT TCTGCGCCTG CCTCGTCCCC TCAGCTTTCA
    CACGATGATA CTCATTCACG CATTGAACAT TATGCTAGCA GGCTAGCAGA AATGGAAAAC
    AGCAATGGAT CTTATCTAAA TGATAGCATC TCTCCTAATG AGAGCATAGA TGATGAACAT
    TTGTTAATCC AGCATTACTG CCAAAGTTTG AACCAGGACT CCCCCCTGAG CCAGCCTCGT
    AGTCCTGCCC AGATCTTGAT TTCCTTAGAG AGTGAGGAAA GAGGGGAGCT AGAGAGAATC
    CTAGCAGATC TTGAGGAAGA AAACAGGAAT CTGCAAGCAG AATATGACCG TCTAAAGCAG
    CAGCACGAAC ATAAAGGCCT GTCCCCACTG CCGTCCCCTC CTGAAATGAT GCCCACCTCT
    CCCCAGAGTC CCCGGGATGC TGAGCTCATT GCTGAGGCCA AGCTACTGCG TCAACACAAA
    GGCCGCCTGG AAGCCAGGAT GCAAATCCTG GAAGACCACA ATAAACAGCT GGAGTCACAG
    TTACACAGGC TAAGGCAGCT GCTGGAGCAA CCCCAGGCAG AGGCCAAAGT GAATGGCACA
    ACGGTGTCCT CTCCTTCTAC CTCTCTACAG AGGTCCGACA GCAGTCAGCC TATGCTGCTC
    CGAGTGGTTG GCAGTCAAAC TTCGGACTCC ATGGGTGAGG AAGATCTTCT CAGTCCTCCC
    CAGGACACAA GCACAGGGTT AGAGGAGGTG ATGGAGCAAC TCAACAACTC CTTCCCTAGT
    TCAAGAGGAA GAAATACCCC TGGAAAGCCA ATGAGAGAGG ACACAATGTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004005.1
    CDS62..2932
    Translation

    Target ORF information:

    RefSeq Version NM_004014.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp116, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004014.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    ATGTTACACA GGAAGACATA CCATGTAAAG GACCTCCAAG GTGAAATTGA AGCTCACACA 
    GATGTTTATC ACAACCTGGA TGAAAACAGC CAAAAAATCC TGAGATCCCT GGAAGGTTCC
    GATGATGCAG TCCTGTTACA AAGACGTTTG GATAACATGA ACTTCAAGTG GAGTGAACTT
    CGGAAAAAGT CTCTCAACAT TAGGTCCCAT TTGGAAGCCA GTTCTGACCA GTGGAAGCGT
    CTGCACCTTT CTCTGCAGGA ACTTCTGGTG TGGCTACAGC TGAAAGATGA TGAATTAAGC
    CGGCAGGCAC CTATTGGAGG CGACTTTCCA GCAGTTCAGA AGCAGAACGA TGTACATAGG
    GCCTTCAAGA GGGAATTGAA AACTAAAGAA CCTGTAATCA TGAGTACTCT TGAGACTGTA
    CGAATATTTC TGACAGAGCA GCCTTTGGAA GGACTAGAGA AACTCTACCA GGAGCCCAGA
    GAGCTGCCTC CTGAGGAGAG AGCCCAGAAT GTCACTCGGC TTCTACGAAA GCAGGCTGAG
    GAGGTCAATA CTGAGTGGGA AAAATTGAAC CTGCACTCCG CTGACTGGCA GAGAAAAATA
    GATGAGACCC TTGAAAGACT CCAGGAACTT CAAGAGGCCA CGGATGAGCT GGACCTCAAG
    CTGCGCCAAG CTGAGGTGAT CAAGGGATCC TGGCAGCCCG TGGGCGATCT CCTCATTGAC
    TCTCTCCAAG ATCACCTCGA GAAAGTCAAG GCACTTCGAG GAGAAATTGC GCCTCTGAAA
    GAGAACGTGA GCCACGTCAA TGACCTTGCT CGCCAGCTTA CCACTTTGGG CATTCAGCTC
    TCACCGTATA ACCTCAGCAC TCTGGAAGAC CTGAACACCA GATGGAAGCT TCTGCAGGTG
    GCCGTCGAGG ACCGAGTCAG GCAGCTGCAT GAAGCCCACA GGGACTTTGG TCCAGCATCT
    CAGCACTTTC TTTCCACGTC TGTCCAGGGT CCCTGGGAGA GAGCCATCTC GCCAAACAAA
    GTGCCCTACT ATATCAACCA CGAGACTCAA ACAACTTGCT GGGACCATCC CAAAATGACA
    GAGCTCTACC AGTCTTTAGC TGACCTGAAT AATGTCAGAT TCTCAGCTTA TAGGACTGCC
    ATGAAACTCC GAAGACTGCA GAAGGCCCTT TGCTTGGATC TCTTGAGCCT GTCAGCTGCA
    TGTGATGCCT TGGACCAGCA CAACCTCAAG CAAAATGACC AGCCCATGGA TATCCTGCAG
    ATTATTAATT GTTTGACCAC TATTTATGAC CGCCTGGAGC AAGAGCACAA CAATTTGGTC
    AACGTCCCTC TCTGCGTGGA TATGTGTCTG AACTGGCTGC TGAATGTTTA TGATACGGGA
    CGAACAGGGA GGATCCGTGT CCTGTCTTTT AAAACTGGCA TCATTTCCCT GTGTAAAGCA
    CATTTGGAAG ACAAGTACAG ATACCTTTTC AAGCAAGTGG CAAGTTCAAC AGGATTTTGT
    GACCAGCGCA GGCTGGGCCT CCTTCTGCAT GATTCTATCC AAATTCCAAG ACAGTTGGGT
    GAAGTTGCAT CCTTTGGGGG CAGTAACATT GAGCCAAGTG TCCGGAGCTG CTTCCAATTT
    GCTAATAATA AGCCAGAGAT CGAAGCGGCC CTCTTCCTAG ACTGGATGAG ACTGGAACCC
    CAGTCCATGG TGTGGCTGCC CGTCCTGCAC AGAGTGGCTG CTGCAGAAAC TGCCAAGCAT
    CAGGCCAAAT GTAACATCTG CAAAGAGTGT CCAATCATTG GATTCAGGTA CAGGAGTCTA
    AAGCACTTTA ATTATGACAT CTGCCAAAGC TGCTTTTTTT CTGGTCGAGT TGCAAAAGGC
    CATAAAATGC ACTATCCCAT GGTGGAATAT TGCACTCCGA CTACATCAGG AGAAGATGTT
    CGAGACTTTG CCAAGGTACT AAAAAACAAA TTTCGAACCA AAAGGTATTT TGCGAAGCAT
    CCCCGAATGG GCTACCTGCC AGTGCAGACT GTCTTAGAGG GGGACAACAT GGAAACTCCC
    GTTACTCTGA TCAACTTCTG GCCAGTAGAT TCTGCGCCTG CCTCGTCCCC TCAGCTTTCA
    CACGATGATA CTCATTCACG CATTGAACAT TATGCTAGCA GGCTAGCAGA AATGGAAAAC
    AGCAATGGAT CTTATCTAAA TGATAGCATC TCTCCTAATG AGAGCATAGA TGATGAACAT
    TTGTTAATCC AGCATTACTG CCAAAGTTTG AACCAGGACT CCCCCCTGAG CCAGCCTCGT
    AGTCCTGCCC AGATCTTGAT TTCCTTAGAG AGTGAGGAAA GAGGGGAGCT AGAGAGAATC
    CTAGCAGATC TTGAGGAAGA AAACAGGAAT CTGCAAGCAG AATATGACCG TCTAAAGCAG
    CAGCACGAAC ATAAAGGCCT GTCCCCACTG CCGTCCCCTC CTGAAATGAT GCCCACCTCT
    CCCCAGAGTC CCCGGGATGC TGAGCTCATT GCTGAGGCCA AGCTACTGCG TCAACACAAA
    GGCCGCCTGG AAGCCAGGAT GCAAATCCTG GAAGACCACA ATAAACAGCT GGAGTCACAG
    TTACACAGGC TAAGGCAGCT GCTGGAGCAA CCCCAGGCAG AGGCCAAAGT GAATGGCACA
    ACGGTGTCCT CTCCTTCTAC CTCTCTACAG AGGTCCGACA GCAGTCAGCC TATGCTGCTC
    CGAGTGGTTG GCAGTCAAAC TTCGGACTCC ATGGGTGAGG AAGATCTTCT CAGTCCTCCC
    CAGGACACAA GCACAGGGTT AGAGGAGGTG ATGGAGCAAC TCAACAACTC CTTCCCTAGT
    TCAAGAGGAA GAAATACCCC TGGAAAGCCA ATGAGAGAGG ACACAATGTA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu108386
    Clone ID Related Accession (Same CDS sequence) NM_004023.3
    Accession Version NM_004023.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3402bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp140bc
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC078957.16, AC093193.11, AC079864.22, AC093167.11, AC079175.24, AC079177.21, AC090632.13, AC078958.30 and AC006061.1. On Jun 2, 2019 this sequence version replaced NM_004023.2. Transcript Variant: Dp140 transcripts use exons 45-79, starting at a promoter/exon 1 located in intron 44. Dp140 transcripts have a long (1 kb) 5' UTR since translation is initiated in exon 51 (corresponding to aa 2461 of dystrophin). In addition to the alternative promoter and exon 1, differential splicing of exons 71-74 and 78 produces at least five Dp140 isoforms. Of these, this transcript (Dp140bc) lacks exons 71-74 and 78 and encodes a protein with a unique C-terminus. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.94147.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCG GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACGAATCTG CAAGCAGAAT ATGACCGTCT AAAGCAGCAG
    CACGAACATA AAGGCCTGTC CCCACTGCCG TCCCCTCCTG AAATGATGCC CACCTCTCCC
    CAGAGTCCCC GGGATGCTGA GCTCATTGCT GAGGCCAAGC TACTGCGTCA ACACAAAGGC
    CGCCTGGAAG CCAGGATGCA AATCCTGGAA GACCACAATA AACAGCTGGA GTCACAGTTA
    CACAGGCTAA GGCAGCTGCT GGAGCAACCC CAGGCAGAGG CCAAAGTGAA TGGCACAACG
    GTGTCCTCTC CTTCTACCTC TCTACAGAGG TCCGACAGCA GTCAGCCTAT GCTGCTCCGA
    GTGGTTGGCA GTCAAACTTC GGACTCCATG GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG
    GACACAAGCA CAGGGTTAGA GGAGGTGATG GAGCAACTCA ACAACTCCTT CCCTAGTTCA
    AGAGGACACA ATGTAGGAAG TCTTTTCCAC ATGGCAGATG ATTTGGGCAG AGCGATGGAG
    TCCTTAGTAT CAGTCATGAC AGATGAAGAA GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004014.2
    CDS1042..4443
    Translation

    Target ORF information:

    RefSeq Version NM_004023.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp140bc, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004023.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCG GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACGAATCTG CAAGCAGAAT ATGACCGTCT AAAGCAGCAG
    CACGAACATA AAGGCCTGTC CCCACTGCCG TCCCCTCCTG AAATGATGCC CACCTCTCCC
    CAGAGTCCCC GGGATGCTGA GCTCATTGCT GAGGCCAAGC TACTGCGTCA ACACAAAGGC
    CGCCTGGAAG CCAGGATGCA AATCCTGGAA GACCACAATA AACAGCTGGA GTCACAGTTA
    CACAGGCTAA GGCAGCTGCT GGAGCAACCC CAGGCAGAGG CCAAAGTGAA TGGCACAACG
    GTGTCCTCTC CTTCTACCTC TCTACAGAGG TCCGACAGCA GTCAGCCTAT GCTGCTCCGA
    GTGGTTGGCA GTCAAACTTC GGACTCCATG GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG
    GACACAAGCA CAGGGTTAGA GGAGGTGATG GAGCAACTCA ACAACTCCTT CCCTAGTTCA
    AGAGGACACA ATGTAGGAAG TCTTTTCCAC ATGGCAGATG ATTTGGGCAG AGCGATGGAG
    TCCTTAGTAT CAGTCATGAC AGATGAAGAA GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu108706
    Clone ID Related Accession (Same CDS sequence) NM_004021.3
    Accession Version NM_004021.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3732bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp140b
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC078957.16, AC093193.11, AC079864.22, AC093167.11, AC079175.24, AC079177.21, AC090632.13, AC078958.30 and AC006061.1. On Jun 2, 2019 this sequence version replaced NM_004021.2. Transcript Variant: Dp140 transcripts use exons 45-79, starting at a promoter/exon 1 located in intron 44. Dp140 transcripts have a long (1 kb) 5' UTR since translation is initiated in exon 51 (corresponding to aa 2461 of dystrophin). In addition to the alternative promoter and exon 1, differential splicing of exons 71-74 and 78 produces at least five Dp140 isoforms. Of these, this transcript (Dp140b) lacks exon 78 and encodes a protein with a unique C-terminus. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## CDS exon combination :: BC150141.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCG GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGACACA ATGTAGGAAG TCTTTTCCAC
    ATGGCAGATG ATTTGGGCAG AGCGATGGAG TCCTTAGTAT CAGTCATGAC AGATGAAGAA
    GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004012.2
    CDS1042..4773
    Translation

    Target ORF information:

    RefSeq Version NM_004021.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp140b, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004021.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCG GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGACACA ATGTAGGAAG TCTTTTCCAC
    ATGGCAGATG ATTTGGGCAG AGCGATGGAG TCCTTAGTAT CAGTCATGAC AGATGAAGAA
    GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu23881
    Clone ID Related Accession (Same CDS sequence) NM_004020.3
    Accession Version NM_004020.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3348bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp140c
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA804849.1, M18533.1, AC078958.30 and BC028720.1. On Mar 25, 2010 this sequence version replaced NM_004020.2. Transcript Variant: Dp140 transcripts use exons 45-79, starting at a promoter/exon 1 located in intron 44. Dp140 transcripts have a long (1 kb) 5' UTR since translation is initiated in exon 51 (corresponding to aa 2461 of dystrophin). In addition to the alternative promoter and exon 1, differential splicing of exons 71-74 and 78 produces at least five Dp140 isoforms. Of these, this transcript (Dp140c) lacks exons 71-74. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.194609.1, SRR1803612.148053.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACGAATCTG CAAGCAGAAT ATGACCGTCT AAAGCAGCAG
    CACGAACATA AAGGCCTGTC CCCACTGCCG TCCCCTCCTG AAATGATGCC CACCTCTCCC
    CAGAGTCCCC GGGATGCTGA GCTCATTGCT GAGGCCAAGC TACTGCGTCA ACACAAAGGC
    CGCCTGGAAG CCAGGATGCA AATCCTGGAA GACCACAATA AACAGCTGGA GTCACAGTTA
    CACAGGCTAA GGCAGCTGCT GGAGCAACCC CAGGCAGAGG CCAAAGTGAA TGGCACAACG
    GTGTCCTCTC CTTCTACCTC TCTACAGAGG TCCGACAGCA GTCAGCCTAT GCTGCTCCGA
    GTGGTTGGCA GTCAAACTTC GGACTCCATG GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG
    GACACAAGCA CAGGGTTAGA GGAGGTGATG GAGCAACTCA ACAACTCCTT CCCTAGTTCA
    AGAGGAAGAA ATACCCCTGG AAAGCCAATG AGAGAGGACA CAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004011.2
    CDS1042..4389
    Translation

    Target ORF information:

    RefSeq Version NM_004020.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp140c, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004020.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACGAATCTG CAAGCAGAAT ATGACCGTCT AAAGCAGCAG
    CACGAACATA AAGGCCTGTC CCCACTGCCG TCCCCTCCTG AAATGATGCC CACCTCTCCC
    CAGAGTCCCC GGGATGCTGA GCTCATTGCT GAGGCCAAGC TACTGCGTCA ACACAAAGGC
    CGCCTGGAAG CCAGGATGCA AATCCTGGAA GACCACAATA AACAGCTGGA GTCACAGTTA
    CACAGGCTAA GGCAGCTGCT GGAGCAACCC CAGGCAGAGG CCAAAGTGAA TGGCACAACG
    GTGTCCTCTC CTTCTACCTC TCTACAGAGG TCCGACAGCA GTCAGCCTAT GCTGCTCCGA
    GTGGTTGGCA GTCAAACTTC GGACTCCATG GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG
    GACACAAGCA CAGGGTTAGA GGAGGTGATG GAGCAACTCA ACAACTCCTT CCCTAGTTCA
    AGAGGAAGAA ATACCCCTGG AAAGCCAATG AGAGAGGACA CAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26153
    Clone ID Related Accession (Same CDS sequence) NM_004022.2
    Accession Version NM_004022.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3693bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform D140ab
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA804849.1, M18533.1, M92650.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004022.1. Transcript Variant: Dp140 transcripts use exons 45-79, starting at a promoter/exon 1 located in intron 44. Dp140 transcripts have a long (1 kb) 5' UTR since translation is initiated in exon 51 (corresponding to aa 2461 of dystrophin). In addition to the alternative promoter and exon 1, differential splicing of exons 71-74 and 78 produces at least five Dp140 isoforms. Of these, this transcript (Dp140ab) lacks exons 71 and 78 and encodes a protein with a unique C-terminus. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660807.220492.1, SRR1660803.125482.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACGCCTGCC TCGTCCCCTC AGCTTTCACA CGATGATACT
    CATTCACGCA TTGAACATTA TGCTAGCAGG CTAGCAGAAA TGGAAAACAG CAATGGATCT
    TATCTAAATG ATAGCATCTC TCCTAATGAG AGCATAGATG ATGAACATTT GTTAATCCAG
    CATTACTGCC AAAGTTTGAA CCAGGACTCC CCCCTGAGCC AGCCTCGTAG TCCTGCCCAG
    ATCTTGATTT CCTTAGAGAG TGAGGAAAGA GGGGAGCTAG AGAGAATCCT AGCAGATCTT
    GAGGAAGAAA ACAGGAATCT GCAAGCAGAA TATGACCGTC TAAAGCAGCA GCACGAACAT
    AAAGGCCTGT CCCCACTGCC GTCCCCTCCT GAAATGATGC CCACCTCTCC CCAGAGTCCC
    CGGGATGCTG AGCTCATTGC TGAGGCCAAG CTACTGCGTC AACACAAAGG CCGCCTGGAA
    GCCAGGATGC AAATCCTGGA AGACCACAAT AAACAGCTGG AGTCACAGTT ACACAGGCTA
    AGGCAGCTGC TGGAGCAACC CCAGGCAGAG GCCAAAGTGA ATGGCACAAC GGTGTCCTCT
    CCTTCTACCT CTCTACAGAG GTCCGACAGC AGTCAGCCTA TGCTGCTCCG AGTGGTTGGC
    AGTCAAACTT CGGACTCCAT GGGTGAGGAA GATCTTCTCA GTCCTCCCCA GGACACAAGC
    ACAGGGTTAG AGGAGGTGAT GGAGCAACTC AACAACTCCT TCCCTAGTTC AAGAGGACAC
    AATGTAGGAA GTCTTTTCCA CATGGCAGAT GATTTGGGCA GAGCGATGGA GTCCTTAGTA
    TCAGTCATGA CAGATGAAGA AGGAGCAGAA TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004013.1
    CDS1042..4734
    Translation

    Target ORF information:

    RefSeq Version NM_004022.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant D140ab, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004022.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACGCCTGCC TCGTCCCCTC AGCTTTCACA CGATGATACT
    CATTCACGCA TTGAACATTA TGCTAGCAGG CTAGCAGAAA TGGAAAACAG CAATGGATCT
    TATCTAAATG ATAGCATCTC TCCTAATGAG AGCATAGATG ATGAACATTT GTTAATCCAG
    CATTACTGCC AAAGTTTGAA CCAGGACTCC CCCCTGAGCC AGCCTCGTAG TCCTGCCCAG
    ATCTTGATTT CCTTAGAGAG TGAGGAAAGA GGGGAGCTAG AGAGAATCCT AGCAGATCTT
    GAGGAAGAAA ACAGGAATCT GCAAGCAGAA TATGACCGTC TAAAGCAGCA GCACGAACAT
    AAAGGCCTGT CCCCACTGCC GTCCCCTCCT GAAATGATGC CCACCTCTCC CCAGAGTCCC
    CGGGATGCTG AGCTCATTGC TGAGGCCAAG CTACTGCGTC AACACAAAGG CCGCCTGGAA
    GCCAGGATGC AAATCCTGGA AGACCACAAT AAACAGCTGG AGTCACAGTT ACACAGGCTA
    AGGCAGCTGC TGGAGCAACC CCAGGCAGAG GCCAAAGTGA ATGGCACAAC GGTGTCCTCT
    CCTTCTACCT CTCTACAGAG GTCCGACAGC AGTCAGCCTA TGCTGCTCCG AGTGGTTGGC
    AGTCAAACTT CGGACTCCAT GGGTGAGGAA GATCTTCTCA GTCCTCCCCA GGACACAAGC
    ACAGGGTTAG AGGAGGTGAT GGAGCAACTC AACAACTCCT TCCCTAGTTC AAGAGGACAC
    AATGTAGGAA GTCTTTTCCA CATGGCAGAT GATTTGGGCA GAGCGATGGA GTCCTTAGTA
    TCAGTCATGA CAGATGAAGA AGGAGCAGAA TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26361
    Clone ID Related Accession (Same CDS sequence) NM_004021.2
    Accession Version NM_004021.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3732bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-21
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp140b
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA804849.1, M18533.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004021.1. Transcript Variant: Dp140 transcripts use exons 45-79, starting at a promoter/exon 1 located in intron 44. Dp140 transcripts have a long (1 kb) 5' UTR since translation is initiated in exon 51 (corresponding to aa 2461 of dystrophin). In addition to the alternative promoter and exon 1, differential splicing of exons 71-74 and 78 produces at least five Dp140 isoforms. Of these, this transcript (Dp140b) lacks exon 78 and encodes a protein with a unique C-terminus. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## CDS exon combination :: BC150141.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGACACA ATGTAGGAAG TCTTTTCCAC
    ATGGCAGATG ATTTGGGCAG AGCGATGGAG TCCTTAGTAT CAGTCATGAC AGATGAAGAA
    GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004012.1
    CDS1042..4773
    Translation

    Target ORF information:

    RefSeq Version NM_004021.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp140b, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004021.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGACACA ATGTAGGAAG TCTTTTCCAC
    ATGGCAGATG ATTTGGGCAG AGCGATGGAG TCCTTAGTAT CAGTCATGAC AGATGAAGAA
    GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu26870
    Clone ID Related Accession (Same CDS sequence) NM_004023.2
    Accession Version NM_004023.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3402bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-22
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp140bc
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA804849.1, M18533.1, M92650.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004023.1. Transcript Variant: Dp140 transcripts use exons 45-79, starting at a promoter/exon 1 located in intron 44. Dp140 transcripts have a long (1 kb) 5' UTR since translation is initiated in exon 51 (corresponding to aa 2461 of dystrophin). In addition to the alternative promoter and exon 1, differential splicing of exons 71-74 and 78 produces at least five Dp140 isoforms. Of these, this transcript (Dp140bc) lacks exons 71-74 and 78 and encodes a protein with a unique C-terminus. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.94147.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACGAATCTG CAAGCAGAAT ATGACCGTCT AAAGCAGCAG
    CACGAACATA AAGGCCTGTC CCCACTGCCG TCCCCTCCTG AAATGATGCC CACCTCTCCC
    CAGAGTCCCC GGGATGCTGA GCTCATTGCT GAGGCCAAGC TACTGCGTCA ACACAAAGGC
    CGCCTGGAAG CCAGGATGCA AATCCTGGAA GACCACAATA AACAGCTGGA GTCACAGTTA
    CACAGGCTAA GGCAGCTGCT GGAGCAACCC CAGGCAGAGG CCAAAGTGAA TGGCACAACG
    GTGTCCTCTC CTTCTACCTC TCTACAGAGG TCCGACAGCA GTCAGCCTAT GCTGCTCCGA
    GTGGTTGGCA GTCAAACTTC GGACTCCATG GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG
    GACACAAGCA CAGGGTTAGA GGAGGTGATG GAGCAACTCA ACAACTCCTT CCCTAGTTCA
    AGAGGACACA ATGTAGGAAG TCTTTTCCAC ATGGCAGATG ATTTGGGCAG AGCGATGGAG
    TCCTTAGTAT CAGTCATGAC AGATGAAGAA GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004014.1
    CDS1042..4443
    Translation

    Target ORF information:

    RefSeq Version NM_004023.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp140bc, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004023.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA 
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACGAATCTG CAAGCAGAAT ATGACCGTCT AAAGCAGCAG
    CACGAACATA AAGGCCTGTC CCCACTGCCG TCCCCTCCTG AAATGATGCC CACCTCTCCC
    CAGAGTCCCC GGGATGCTGA GCTCATTGCT GAGGCCAAGC TACTGCGTCA ACACAAAGGC
    CGCCTGGAAG CCAGGATGCA AATCCTGGAA GACCACAATA AACAGCTGGA GTCACAGTTA
    CACAGGCTAA GGCAGCTGCT GGAGCAACCC CAGGCAGAGG CCAAAGTGAA TGGCACAACG
    GTGTCCTCTC CTTCTACCTC TCTACAGAGG TCCGACAGCA GTCAGCCTAT GCTGCTCCGA
    GTGGTTGGCA GTCAAACTTC GGACTCCATG GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG
    GACACAAGCA CAGGGTTAGA GGAGGTGATG GAGCAACTCA ACAACTCCTT CCCTAGTTCA
    AGAGGACACA ATGTAGGAAG TCTTTTCCAC ATGGCAGATG ATTTGGGCAG AGCGATGGAG
    TCCTTAGTAT CAGTCATGAC AGATGAAGAA GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu99187
    Clone ID Related Accession (Same CDS sequence) XM_017029331.1
    Accession Version XM_017029331.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5286bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product dystrophin isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000023.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCAGTGG AGCCAACTCA GATCCAGCTC AGCAAGCGCT GGCGGGAAAT TGAGAGCAAA 
    TTTGCTCAGT TTCGAAGACT CAACTTTGCA CAAATTCACA CTGTCCGTGA AGAAACGATG
    ATGGTGATGA CTGAAGACAT GCCTTTGGAA ATTTCTTATG TGCCTTCTAC TTATTTGACT
    GAAATCACTC ATGTCTCACA AGCCCTATTA GAAGTGGAAC AACTTCTCAA TGCTCCTGAC
    CTCTGTGCTA AGGACTTTGA AGATCTCTTT AAGCAAGAGG AGTCTCTGAA GAATATAAAA
    GATAGTCTAC AACAAAGCTC AGGTCGGATT GACATTATTC ATAGCAAGAA GACAGCAGCA
    TTGCAAAGTG CAACGCCTGT GGAAAGGGTG AAGCTACAGG AAGCTCTCTC CCAGCTTGAT
    TTCCAATGGG AAAAAGTTAA CAAAATGTAC AAGGACCGAC AAGGGCGATT TGACAGATCT
    GTTGAGAAAT GGCGGCGTTT TCATTATGAT ATAAAGATAT TTAATCAGTG GCTAACAGAA
    GCTGAACAGT TTCTCAGAAA GACACAAATT CCTGAGAATT GGGAACATGC TAAATACAAA
    TGGTATCTTA AGGAACTCCA GGATGGCATT GGGCAGCGGC AAACTGTTGT CAGAACATTG
    AATGCAACTG GGGAAGAAAT AATTCAGCAA TCCTCAAAAA CAGATGCCAG TATTCTACAG
    GAAAAATTGG GAAGCCTGAA TCTGCGGTGG CAGGAGGTCT GCAAACAGCT GTCAGACAGA
    AAAAAGAGGC TAGAAGAACA AAAGAATATC TTGTCAGAAT TTCAAAGAGA TTTAAATGAA
    TTTGTTTTAT GGTTGGAGGA AGCAGATAAC ATTGCTAGTA TCCCACTTGA ACCTGGAAAA
    GAGCAGCAAC TAAAAGAAAA GCTTGAGCAA GTCAAGTTAC TGGTGGAAGA GTTGCCCCTG
    CGCCAGGGAA TTCTCAAACA ATTAAATGAA ACTGGAGGAC CCGTGCTTGT AAGTGCTCCC
    ATAAGCCCAG AAGAGCAAGA TAAACTTGAA AATAAGCTCA AGCAGACAAA TCTCCAGTGG
    ATAAAGGTTT CCAGAGCTTT ACCTGAGAAA CAAGGAGAAA TTGAAGCTCA AATAAAAGAC
    CTTGGGCAGC TTGAAAAAAA GCTTGAAGAC CTTGAAGAGC AGTTAAATCA TCTGCTGCTG
    TGGTTATCTC CTATTAGGAA TCAGTTGGAA ATTTATAACC AACCAAACCA AGAAGGACCA
    TTTGACGTTA AGGAAACTGA AATAGCAGTT CAAGCTAAAC AACCGGATGT GGAAGAGATT
    TTGTCTAAAG GGCAGCATTT GTACAAGGAA AAACCAGCCA CTCAGCCAGT GAAGAGGAAG
    TTAGAAGATC TGAGCTCTGA GTGGAAGGCG GTAAACCGTT TACTTCAAGA GCTGAGGGCA
    AAGCAGCCTG ACCTAGCTCC TGGACTGACC ACTATTGGAG CCTCTCCTAC TCAGACTGTT
    ACTCTGGTGA CACAACCTGT GGTTACTAAG GAAACTGCCA TCTCCAAACT AGAAATGCCA
    TCTTCCTTGA TGTTGGAGGT ACCTGCTCTG GCAGATTTCA ACCGGGCTTG GACAGAACTT
    ACCGACTGGC TTTCTCTGCT TGATCAAGTT ATAAAATCAC AGAGGGTGAT GGTGGGTGAC
    CTTGAGGATA TCAACGAGAT GATCATCAAG CAGAAGGCAA CAATGCAGGA TTTGGAACAG
    AGGCGTCCCC AGTTGGAAGA ACTCATTACC GCTGCCCAAA ATTTGAAAAA CAAGACCAGC
    AATCAAGAGG CTAGAACAAT CATTACGGAT CGAATTGAAA GAATTCAGAA TCAGTGGGAT
    GAAGTACAAG AACACCTTCA GAACCGGAGG CAACAGTTGA ATGAAATGTT AAAGGATTCA
    ACACAATGGC TGGAAGCTAA GGAAGAAGCT GAGCAGGTCT TAGGACAGGC CAGAGCCAAG
    CTTGAGTCAT GGAAGGAGGG TCCCTATACA GTAGATGCAA TCCAAAAGAA AATCACAGAA
    ACCAAGCAGT TGGCCAAAGA CCTCCGCCAG TGGCAGACAA ATGTAGATGT GGCAAATGAC
    TTGGCCCTGA AACTTCTCCG GGATTATTCT GCAGATGATA CCAGAAAAGT CCACATGATA
    ACAGAGAATA TCAATGCCTC TTGGAGAAGC ATTCATAAAA GGGTGAGTGA GCGAGAGGCT
    GCTTTGGAAG AAACTCATAG ATTACTGCAA CAGTTCCCCC TGGACCTGGA AAAGTTTCTT
    GCCTGGCTTA CAGAAGCTGA AACAACTGCC AATGTCCTAC AGGATGCTAC CCGTAAGGAA
    AGGCTCCTAG AAGACTCCAA GGGAGTAAAA GAGCTGATGA AACAATGGCA AGACCTCCAA
    GGTGAAATTG AAGCTCACAC AGATGTTTAT CACAACCTGG ATGAAAACAG CCAAAAAATC
    CTGAGATCCC TGGAAGGTTC CGATGATGCA GTCCTGTTAC AAAGACGTTT GGATAACATG
    AACTTCAAGT GGAGTGAACT TCGGAAAAAG TCTCTCAACA TTAGGTCCCA TTTGGAAGCC
    AGTTCTGACC AGTGGAAGCG TCTGCACCTT TCTCTGCAGG AACTTCTGGT GTGGCTACAG
    CTGAAAGATG ATGAATTAAG CCGGCAGGCA CCTATTGGAG GCGACTTTCC AGCAGTTCAG
    AAGCAGAACG ATGTACATAG GGCCTTCAAG AGGGAATTGA AAACTAAAGA ACCTGTAATC
    ATGAGTACTC TTGAGACTGT ACGAATATTT CTGACAGAGC AGCCTTTGGA AGGACTAGAG
    AAACTCTACC AGGAGCCCAG AGAGCTGCCT CCTGAGGAGA GAGCCCAGAA TGTCACTCGG
    CTTCTACGAA AGCAGGCTGA GGAGGTCAAT ACTGAGTGGG AAAAATTGAA CCTGCACTCC
    GCTGACTGGC AGAGAAAAAT AGATGAGACC CTTGAAAGAC TCCGGGAACT TCAAGAGGCC
    ACGGATGAGC TGGACCTCAA GCTGCGCCAA GCTGAGGTGA TCAAGGGATC CTGGCAGCCC
    GTGGGCGATC TCCTCATTGA CTCTCTCCAA GATCACCTCG AGAAAGTCAA GGCACTTCGA
    GGAGAAATTG CGCCTCTGAA AGAGAACGTG AGCCACGTCA ATGACCTTGC TCGCCAGCTT
    ACCACTTTGG GCATTCAGCT CTCACCGTAT AACCTCAGCA CTCTGGAAGA CCTGAACACC
    AGATGGAAGC TTCTGCAGGT GGCCGTCGAG GACCGAGTCA GGCAGCTGCA TGAAGCCCAC
    AGGGACTTTG GTCCAGCATC TCAGCACTTT CTTTCCACGT CTGTCCAGGG TCCCTGGGAG
    AGAGCCATCT CGCCAAACAA AGTGCCCTAC TATATCAACC ACGAGACTCA AACAACTTGC
    TGGGACCATC CCAAAATGAC AGAGCTCTAC CAGTCTTTAG CTGACCTGAA TAATGTCAGA
    TTCTCAGCTT ATAGGACTGC CATGAAACTC CGAAGACTGC AGAAGGCCCT TTGCTTGGAT
    CTCTTGAGCC TGTCAGCTGC ATGTGATGCC TTGGACCAGC ACAACCTCAA GCAAAATGAC
    CAGCCCATGG ATATCCTGCA GATTATTAAT TGTTTGACCA CTATTTATGA CCGCCTGGAG
    CAAGAGCACA ACAATTTGGT CAACGTCCCT CTCTGCGTGG ATATGTGTCT GAACTGGCTG
    CTGAATGTTT ATGATACGGG ACGAACAGGG AGGATCCGTG TCCTGTCTTT TAAAACTGGC
    ATCATTTCCC TGTGTAAAGC ACATTTGGAA GACAAGTACA GATACCTTTT CAAGCAAGTG
    GCAAGTTCAA CAGGATTTTG TGACCAGCGC AGGCTGGGCC TCCTTCTGCA TGATTCTATC
    CAAATTCCAA GACAGTTGGG TGAAGTTGCA TCCTTTGGGG GCAGTAACAT TGAGCCAAGT
    GTCCGGAGCT GCTTCCAATT TGCTAATAAT AAGCCAGAGA TCGAAGCGGC CCTCTTCCTA
    GACTGGATGA GACTGGAACC CCAGTCCATG GTGTGGCTGC CCGTCCTGCA CAGAGTGGCT
    GCTGCAGAAA CTGCCAAGCA TCAGGCCAAA TGTAACATCT GCAAAGAGTG TCCAATCATT
    GGATTCAGGT ACAGGAGTCT AAAGCACTTT AATTATGACA TCTGCCAAAG CTGCTTTTTT
    TCTGGTCGAG TTGCAAAAGG CCATAAAATG CACTATCCCA TGGTGGAATA TTGCACTCCG
    ACTACATCAG GAGAAGATGT TCGAGACTTT GCCAAGGTAC TAAAAAACAA ATTTCGAACC
    AAAAGGTATT TTGCGAAGCA TCCCCGAATG GGCTACCTGC CAGTGCAGAC TGTCTTAGAG
    GGGGACAACA TGGAAACTCC CGTTACTCTG ATCAACTTCT GGCCAGTAGA TTCTGCGCCT
    GCCTCGTCCC CTCAGCTTTC ACACGATGAT ACTCATTCAC GCATTGAACA TTATGCTAGC
    AGGCTAGCAG AAATGGAAAA CAGCAATGGA TCTTATCTAA ATGATAGCAT CTCTCCTAAT
    GAGAGCATAG ATGATGAACA TTTGTTAATC CAGCATTACT GCCAAAGTTT GAACCAGGAC
    TCCCCCCTGA GCCAGCCTCG TAGTCCTGCC CAGATCTTGA TTTCCTTAGA GAGTGAGGAA
    AGAGGGGAGC TAGAGAGAAT CCTAGCAGAT CTTGAGGAAG AAAACAGGAA TCTGCAAGCA
    GAATATGACC GTCTAAAGCA GCAGCACGAA CATAAAGGCC TGTCCCCACT GCCGTCCCCT
    CCTGAAATGA TGCCCACCTC TCCCCAGAGT CCCCGGGATG CTGAGCTCAT TGCTGAGGCC
    AAGCTACTGC GTCAACACAA AGGCCGCCTG GAAGCCAGGA TGCAAATCCT GGAAGACCAC
    AATAAACAGC TGGAGTCACA GTTACACAGG CTAAGGCAGC TGCTGGAGCA ACCCCAGGCA
    GAGGCCAAAG TGAATGGCAC AACGGTGTCC TCTCCTTCTA CCTCTCTACA GAGGTCCGAC
    AGCAGTCAGC CTATGCTGCT CCGAGTGGTT GGCAGTCAAA CTTCGGACTC CATGGGTGAG
    GAAGATCTTC TCAGTCCTCC CCAGGACACA AGCACAGGGT TAGAGGAGGT GATGGAGCAA
    CTCAACAACT CCTTCCCTAG TTCAAGAGGA CACAATGTAG GAAGTCTTTT CCACATGGCA
    GATGATTTGG GCAGAGCGAT GGAGTCCTTA GTATCAGTCA TGACAGATGA AGAAGGAGCA
    GAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016884820.1
    CDS600..5885
    Translation

    Target ORF information:

    RefSeq Version XM_017029331.1
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017029331.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCAGTGG AGCCAACTCA GATCCAGCTC AGCAAGCGCT GGCGGGAAAT TGAGAGCAAA 
    TTTGCTCAGT TTCGAAGACT CAACTTTGCA CAAATTCACA CTGTCCGTGA AGAAACGATG
    ATGGTGATGA CTGAAGACAT GCCTTTGGAA ATTTCTTATG TGCCTTCTAC TTATTTGACT
    GAAATCACTC ATGTCTCACA AGCCCTATTA GAAGTGGAAC AACTTCTCAA TGCTCCTGAC
    CTCTGTGCTA AGGACTTTGA AGATCTCTTT AAGCAAGAGG AGTCTCTGAA GAATATAAAA
    GATAGTCTAC AACAAAGCTC AGGTCGGATT GACATTATTC ATAGCAAGAA GACAGCAGCA
    TTGCAAAGTG CAACGCCTGT GGAAAGGGTG AAGCTACAGG AAGCTCTCTC CCAGCTTGAT
    TTCCAATGGG AAAAAGTTAA CAAAATGTAC AAGGACCGAC AAGGGCGATT TGACAGATCT
    GTTGAGAAAT GGCGGCGTTT TCATTATGAT ATAAAGATAT TTAATCAGTG GCTAACAGAA
    GCTGAACAGT TTCTCAGAAA GACACAAATT CCTGAGAATT GGGAACATGC TAAATACAAA
    TGGTATCTTA AGGAACTCCA GGATGGCATT GGGCAGCGGC AAACTGTTGT CAGAACATTG
    AATGCAACTG GGGAAGAAAT AATTCAGCAA TCCTCAAAAA CAGATGCCAG TATTCTACAG
    GAAAAATTGG GAAGCCTGAA TCTGCGGTGG CAGGAGGTCT GCAAACAGCT GTCAGACAGA
    AAAAAGAGGC TAGAAGAACA AAAGAATATC TTGTCAGAAT TTCAAAGAGA TTTAAATGAA
    TTTGTTTTAT GGTTGGAGGA AGCAGATAAC ATTGCTAGTA TCCCACTTGA ACCTGGAAAA
    GAGCAGCAAC TAAAAGAAAA GCTTGAGCAA GTCAAGTTAC TGGTGGAAGA GTTGCCCCTG
    CGCCAGGGAA TTCTCAAACA ATTAAATGAA ACTGGAGGAC CCGTGCTTGT AAGTGCTCCC
    ATAAGCCCAG AAGAGCAAGA TAAACTTGAA AATAAGCTCA AGCAGACAAA TCTCCAGTGG
    ATAAAGGTTT CCAGAGCTTT ACCTGAGAAA CAAGGAGAAA TTGAAGCTCA AATAAAAGAC
    CTTGGGCAGC TTGAAAAAAA GCTTGAAGAC CTTGAAGAGC AGTTAAATCA TCTGCTGCTG
    TGGTTATCTC CTATTAGGAA TCAGTTGGAA ATTTATAACC AACCAAACCA AGAAGGACCA
    TTTGACGTTA AGGAAACTGA AATAGCAGTT CAAGCTAAAC AACCGGATGT GGAAGAGATT
    TTGTCTAAAG GGCAGCATTT GTACAAGGAA AAACCAGCCA CTCAGCCAGT GAAGAGGAAG
    TTAGAAGATC TGAGCTCTGA GTGGAAGGCG GTAAACCGTT TACTTCAAGA GCTGAGGGCA
    AAGCAGCCTG ACCTAGCTCC TGGACTGACC ACTATTGGAG CCTCTCCTAC TCAGACTGTT
    ACTCTGGTGA CACAACCTGT GGTTACTAAG GAAACTGCCA TCTCCAAACT AGAAATGCCA
    TCTTCCTTGA TGTTGGAGGT ACCTGCTCTG GCAGATTTCA ACCGGGCTTG GACAGAACTT
    ACCGACTGGC TTTCTCTGCT TGATCAAGTT ATAAAATCAC AGAGGGTGAT GGTGGGTGAC
    CTTGAGGATA TCAACGAGAT GATCATCAAG CAGAAGGCAA CAATGCAGGA TTTGGAACAG
    AGGCGTCCCC AGTTGGAAGA ACTCATTACC GCTGCCCAAA ATTTGAAAAA CAAGACCAGC
    AATCAAGAGG CTAGAACAAT CATTACGGAT CGAATTGAAA GAATTCAGAA TCAGTGGGAT
    GAAGTACAAG AACACCTTCA GAACCGGAGG CAACAGTTGA ATGAAATGTT AAAGGATTCA
    ACACAATGGC TGGAAGCTAA GGAAGAAGCT GAGCAGGTCT TAGGACAGGC CAGAGCCAAG
    CTTGAGTCAT GGAAGGAGGG TCCCTATACA GTAGATGCAA TCCAAAAGAA AATCACAGAA
    ACCAAGCAGT TGGCCAAAGA CCTCCGCCAG TGGCAGACAA ATGTAGATGT GGCAAATGAC
    TTGGCCCTGA AACTTCTCCG GGATTATTCT GCAGATGATA CCAGAAAAGT CCACATGATA
    ACAGAGAATA TCAATGCCTC TTGGAGAAGC ATTCATAAAA GGGTGAGTGA GCGAGAGGCT
    GCTTTGGAAG AAACTCATAG ATTACTGCAA CAGTTCCCCC TGGACCTGGA AAAGTTTCTT
    GCCTGGCTTA CAGAAGCTGA AACAACTGCC AATGTCCTAC AGGATGCTAC CCGTAAGGAA
    AGGCTCCTAG AAGACTCCAA GGGAGTAAAA GAGCTGATGA AACAATGGCA AGACCTCCAA
    GGTGAAATTG AAGCTCACAC AGATGTTTAT CACAACCTGG ATGAAAACAG CCAAAAAATC
    CTGAGATCCC TGGAAGGTTC CGATGATGCA GTCCTGTTAC AAAGACGTTT GGATAACATG
    AACTTCAAGT GGAGTGAACT TCGGAAAAAG TCTCTCAACA TTAGGTCCCA TTTGGAAGCC
    AGTTCTGACC AGTGGAAGCG TCTGCACCTT TCTCTGCAGG AACTTCTGGT GTGGCTACAG
    CTGAAAGATG ATGAATTAAG CCGGCAGGCA CCTATTGGAG GCGACTTTCC AGCAGTTCAG
    AAGCAGAACG ATGTACATAG GGCCTTCAAG AGGGAATTGA AAACTAAAGA ACCTGTAATC
    ATGAGTACTC TTGAGACTGT ACGAATATTT CTGACAGAGC AGCCTTTGGA AGGACTAGAG
    AAACTCTACC AGGAGCCCAG AGAGCTGCCT CCTGAGGAGA GAGCCCAGAA TGTCACTCGG
    CTTCTACGAA AGCAGGCTGA GGAGGTCAAT ACTGAGTGGG AAAAATTGAA CCTGCACTCC
    GCTGACTGGC AGAGAAAAAT AGATGAGACC CTTGAAAGAC TCCGGGAACT TCAAGAGGCC
    ACGGATGAGC TGGACCTCAA GCTGCGCCAA GCTGAGGTGA TCAAGGGATC CTGGCAGCCC
    GTGGGCGATC TCCTCATTGA CTCTCTCCAA GATCACCTCG AGAAAGTCAA GGCACTTCGA
    GGAGAAATTG CGCCTCTGAA AGAGAACGTG AGCCACGTCA ATGACCTTGC TCGCCAGCTT
    ACCACTTTGG GCATTCAGCT CTCACCGTAT AACCTCAGCA CTCTGGAAGA CCTGAACACC
    AGATGGAAGC TTCTGCAGGT GGCCGTCGAG GACCGAGTCA GGCAGCTGCA TGAAGCCCAC
    AGGGACTTTG GTCCAGCATC TCAGCACTTT CTTTCCACGT CTGTCCAGGG TCCCTGGGAG
    AGAGCCATCT CGCCAAACAA AGTGCCCTAC TATATCAACC ACGAGACTCA AACAACTTGC
    TGGGACCATC CCAAAATGAC AGAGCTCTAC CAGTCTTTAG CTGACCTGAA TAATGTCAGA
    TTCTCAGCTT ATAGGACTGC CATGAAACTC CGAAGACTGC AGAAGGCCCT TTGCTTGGAT
    CTCTTGAGCC TGTCAGCTGC ATGTGATGCC TTGGACCAGC ACAACCTCAA GCAAAATGAC
    CAGCCCATGG ATATCCTGCA GATTATTAAT TGTTTGACCA CTATTTATGA CCGCCTGGAG
    CAAGAGCACA ACAATTTGGT CAACGTCCCT CTCTGCGTGG ATATGTGTCT GAACTGGCTG
    CTGAATGTTT ATGATACGGG ACGAACAGGG AGGATCCGTG TCCTGTCTTT TAAAACTGGC
    ATCATTTCCC TGTGTAAAGC ACATTTGGAA GACAAGTACA GATACCTTTT CAAGCAAGTG
    GCAAGTTCAA CAGGATTTTG TGACCAGCGC AGGCTGGGCC TCCTTCTGCA TGATTCTATC
    CAAATTCCAA GACAGTTGGG TGAAGTTGCA TCCTTTGGGG GCAGTAACAT TGAGCCAAGT
    GTCCGGAGCT GCTTCCAATT TGCTAATAAT AAGCCAGAGA TCGAAGCGGC CCTCTTCCTA
    GACTGGATGA GACTGGAACC CCAGTCCATG GTGTGGCTGC CCGTCCTGCA CAGAGTGGCT
    GCTGCAGAAA CTGCCAAGCA TCAGGCCAAA TGTAACATCT GCAAAGAGTG TCCAATCATT
    GGATTCAGGT ACAGGAGTCT AAAGCACTTT AATTATGACA TCTGCCAAAG CTGCTTTTTT
    TCTGGTCGAG TTGCAAAAGG CCATAAAATG CACTATCCCA TGGTGGAATA TTGCACTCCG
    ACTACATCAG GAGAAGATGT TCGAGACTTT GCCAAGGTAC TAAAAAACAA ATTTCGAACC
    AAAAGGTATT TTGCGAAGCA TCCCCGAATG GGCTACCTGC CAGTGCAGAC TGTCTTAGAG
    GGGGACAACA TGGAAACTCC CGTTACTCTG ATCAACTTCT GGCCAGTAGA TTCTGCGCCT
    GCCTCGTCCC CTCAGCTTTC ACACGATGAT ACTCATTCAC GCATTGAACA TTATGCTAGC
    AGGCTAGCAG AAATGGAAAA CAGCAATGGA TCTTATCTAA ATGATAGCAT CTCTCCTAAT
    GAGAGCATAG ATGATGAACA TTTGTTAATC CAGCATTACT GCCAAAGTTT GAACCAGGAC
    TCCCCCCTGA GCCAGCCTCG TAGTCCTGCC CAGATCTTGA TTTCCTTAGA GAGTGAGGAA
    AGAGGGGAGC TAGAGAGAAT CCTAGCAGAT CTTGAGGAAG AAAACAGGAA TCTGCAAGCA
    GAATATGACC GTCTAAAGCA GCAGCACGAA CATAAAGGCC TGTCCCCACT GCCGTCCCCT
    CCTGAAATGA TGCCCACCTC TCCCCAGAGT CCCCGGGATG CTGAGCTCAT TGCTGAGGCC
    AAGCTACTGC GTCAACACAA AGGCCGCCTG GAAGCCAGGA TGCAAATCCT GGAAGACCAC
    AATAAACAGC TGGAGTCACA GTTACACAGG CTAAGGCAGC TGCTGGAGCA ACCCCAGGCA
    GAGGCCAAAG TGAATGGCAC AACGGTGTCC TCTCCTTCTA CCTCTCTACA GAGGTCCGAC
    AGCAGTCAGC CTATGCTGCT CCGAGTGGTT GGCAGTCAAA CTTCGGACTC CATGGGTGAG
    GAAGATCTTC TCAGTCCTCC CCAGGACACA AGCACAGGGT TAGAGGAGGT GATGGAGCAA
    CTCAACAACT CCTTCCCTAG TTCAAGAGGA CACAATGTAG GAAGTCTTTT CCACATGGCA
    GATGATTTGG GCAGAGCGAT GGAGTCCTTA GTATCAGTCA TGACAGATGA AGAAGGAGCA
    GAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu57295
    Clone ID Related Accession (Same CDS sequence) XM_011545469.1
    Accession Version XM_011545469.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5748bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product dystrophin isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000023.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGA TGAACTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011543771.1
    CDS198..5945
    Translation

    Target ORF information:

    RefSeq Version XM_011545469.1
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011545469.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGA TGAACTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu108314
    Clone ID Related Accession (Same CDS sequence) NM_004012.4
    Accession Version NM_004012.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 7026bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp260-2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL109609.5, AL139278.12, AC096506.5, AC093193.11, AC079864.22, AC093167.11, AC079175.24, AC079177.21, AC090632.13, AC078958.30, AC079143.17 and AC006061.1. On Jun 2, 2019 this sequence version replaced NM_004012.3. Transcript Variant: transcript Dp260-2 uses exons 30-79, starting from a promoter/exon 1 sequence located in intron 29 of the dystrophin gene that is alternatively spliced and lacks N-terminal amino acids 1-1357 of the full length dystrophin (Dp427m isoform). The Dp260-2 transcript encodes a unique N-terminal MSARKLRNLSYKK sequence. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    ATGAGTGCCA GGAAGCTGCG AAATCTGTCT TACAAAAAGG CTGTAAGGAG GCAAAAGTTG 
    CTTGAACAGA GCATCCAGTC TGCCCAGGAG ACTGAAAAAT CCTTACACTT AATCCAGGAG
    TCCCTCACAT TCATTGACAA GCAGTTGGCA GCTTATATTG CAGACAAGGT GGACGCAGCT
    CAAATGCCTC AGGAAGCCCA GAAAATCCAA TCTGATTTGA CAAGTCATGA GATCAGTTTA
    GAAGAAATGA AGAAACATAA TCAGGGGAAG GAGGCTGCCC AAAGAGTCCT GTCTCAGATT
    GATGTTGCAC AGAAAAAATT ACAAGATGTC TCCATGAAGT TTCGATTATT CCAGAAACCA
    GCCAATTTTG AGCAGCGTCT ACAAGAAAGT AAGATGATTT TAGATGAAGT GAAGATGCAC
    TTGCCTGCAT TGGAAACAAA GAGTGTGGAA CAGGAAGTAG TACAGTCACA GCTAAATCAT
    TGTGTGAACT TGTATAAAAG TCTGAGTGAA GTGAAGTCTG AAGTGGAAAT GGTGATAAAG
    ACTGGACGTC AGATTGTACA GAAAAAGCAG ACGGAAAATC CCAAAGAACT TGATGAAAGA
    GTAACAGCTT TGAAATTGCA TTATAATGAG CTGGGAGCAA AGGTAACAGA AAGAAAGCAA
    CAGTTGGAGA AATGCTTGAA ATTGTCCCGT AAGATGCGAA AGGAAATGAA TGTCTTGACA
    GAATGGCTGG CAGCTACAGA TATGGAATTG ACAAAGAGAT CAGCAGTTGA AGGAATGCCT
    AGTAATTTGG ATTCTGAAGT TGCCTGGGGA AAGGCTACTC AAAAAGAGAT TGAGAAACAG
    AAGGTGCACC TGAAGAGTAT CACAGAGGTA GGAGAGGCCT TGAAAACAGT TTTGGGCAAG
    AAGGAGACGT TGGTGGAAGA TAAACTCAGT CTTCTGAATA GTAACTGGAT AGCTGTCACC
    TCCCGAGCAG AAGAGTGGTT AAATCTTTTG TTGGAATACC AGAAACACAT GGAAACTTTT
    GACCAGAATG TGGACCACAT CACAAAGTGG ATCATTCAGG CTGACACACT TTTGGATGAA
    TCAGAGAAAA AGAAACCCCA GCAAAAAGAA GACGTGCTTA AGCGTTTAAA GGCAGAACTG
    AATGACATAC GCCCAAAGGT GGACTCTACA CGTGACCAAG CAGCAAACTT GATGGCAAAC
    CGCGGTGACC ACTGCAGGAA ATTAGTAGAG CCCCAAATCT CAGAGCTCAA CCATCGATTT
    GCAGCCATTT CACACAGAAT TAAGACTGGA AAGGCCTCCA TTCCTTTGAA GGAATTGGAG
    CAGTTTAACT CAGATATACA AAAATTGCTT GAACCACTGG AGGCTGAAAT TCAGCAGGGG
    GTGAATCTGA AAGAGGAAGA CTTCAATAAA GATATGAATG AAGACAATGA GGGTACTGTA
    AAAGAATTGT TGCAAAGAGG AGACAACTTA CAACAAAGAA TCACAGATGA GAGAAAGCGA
    GAGGAAATAA AGATAAAACA GCAGCTGTTA CAGACAAAAC ATAATGCTCT CAAGGATTTG
    AGGTCTCAAA GAAGAAAAAA GGCTCTAGAA ATTTCTCATC AGTGGTATCA GTACAAGAGG
    CAGGCTGATG ATCTCCTGAA ATGCTTGGAT GACATTGAAA AAAAATTAGC CAGCCTACCT
    GAGCCCAGAG ATGAAAGGAA AATAAAGGAA ATTGATCGGG AATTGCAGAA GAAGAAAGAG
    GAGCTGAATG CAGTGCGTAG GCAAGCTGAG GGCTTGTCTG AGGATGGGGC CGCAATGGCA
    GTGGAGCCAA CTCAGATCCA GCTCAGCAAG CGCTGGCGGG AAATTGAGAG CAAATTTGCT
    CAGTTTCGAA GACTCAACTT TGCACAAATT CACACTGTCC GTGAAGAAAC GATGATGGTG
    ATGACTGAAG ACATGCCTTT GGAAATTTCT TATGTGCCTT CTACTTATTT GACTGAAATC
    ACTCATGTCT CACAAGCCCT ATTAGAAGTG GAACAACTTC TCAATGCTCC TGACCTCTGT
    GCTAAGGACT TTGAAGATCT CTTTAAGCAA GAGGAGTCTC TGAAGAATAT AAAAGATAGT
    CTACAACAAA GCTCAGGTCG GATTGACATT ATTCATAGCA AGAAGACAGC AGCATTGCAA
    AGTGCAACGC CTGTGGAAAG GGTGAAGCTA CAGGAAGCTC TCTCCCAGCT TGATTTCCAA
    TGGGAAAAAG TTAACAAAAT GTACAAGGAC CGACAAGGGC GATTTGACAG ATCTGTTGAG
    AAATGGCGGC GTTTTCATTA TGATATAAAG ATATTTAATC AGTGGCTAAC AGAAGCTGAA
    CAGTTTCTCA GAAAGACACA AATTCCTGAG AATTGGGAAC ATGCTAAATA CAAATGGTAT
    CTTAAGGAAC TCCAGGATGG CATTGGGCAG CGGCAAACTG TTGTCAGAAC ATTGAATGCA
    ACTGGGGAAG AAATAATTCA GCAATCCTCA AAAACAGATG CCAGTATTCT ACAGGAAAAA
    TTGGGAAGCC TGAATCTGCG GTGGCAGGAG GTCTGCAAAC AGCTGTCAGA CAGAAAAAAG
    AGGCTAGAAG AACAAAAGAA TATCTTGTCA GAATTTCAAA GAGATTTAAA TGAATTTGTT
    TTATGGTTGG AGGAAGCAGA TAACATTGCT AGTATCCCAC TTGAACCTGG AAAAGAGCAG
    CAACTAAAAG AAAAGCTTGA GCAAGTCAAG TTACTGGTGG AAGAGTTGCC CCTGCGCCAG
    GGAATTCTCA AACAATTAAA TGAAACTGGA GGACCCGTGC TTGTAAGTGC TCCCATAAGC
    CCAGAAGAGC AAGATAAACT TGAAAATAAG CTCAAGCAGA CAAATCTCCA GTGGATAAAG
    GTTTCCAGAG CTTTACCTGA GAAACAAGGA GAAATTGAAG CTCAAATAAA AGACCTTGGG
    CAGCTTGAAA AAAAGCTTGA AGACCTTGAA GAGCAGTTAA ATCATCTGCT GCTGTGGTTA
    TCTCCTATTA GGAATCAGTT GGAAATTTAT AACCAACCAA ACCAAGAAGG ACCATTTGAC
    GTTAAGGAAA CTGAAATAGC AGTTCAAGCT AAACAACCGG ATGTGGAAGA GATTTTGTCT
    AAAGGGCAGC ATTTGTACAA GGAAAAACCA GCCACTCAGC CAGTGAAGAG GAAGTTAGAA
    GATCTGAGCT CTGAGTGGAA GGCGGTAAAC CGTTTACTTC AAGAGCTGAG GGCAAAGCAG
    CCTGACCTAG CTCCTGGACT GACCACTATT GGAGCCTCTC CTACTCAGAC TGTTACTCTG
    GTGACACAAC CTGTGGTTAC TAAGGAAACT GCCATCTCCA AACTAGAAAT GCCATCTTCC
    TTGATGTTGG AGGTACCTGC TCTGGCAGAT TTCAACCGGG CTTGGACAGA ACTTACCGAC
    TGGCTTTCTC TGCTTGATCA AGTTATAAAA TCACAGAGGG TGATGGTGGG TGACCTTGAG
    GATATCAACG AGATGATCAT CAAGCAGAAG GCAACAATGC AGGATTTGGA ACAGAGGCGT
    CCCCAGTTGG AAGAACTCAT TACCGCTGCC CAAAATTTGA AAAACAAGAC CAGCAATCAA
    GAGGCTAGAA CAATCATTAC GGATCGAATT GAAAGAATTC AGAATCAGTG GGATGAAGTA
    CAAGAACACC TTCAGAACCG GAGGCAACAG TTGAATGAAA TGTTAAAGGA TTCAACACAA
    TGGCTGGAAG CTAAGGAAGA AGCTGAGCAG GTCTTAGGAC AGGCCAGAGC CAAGCTTGAG
    TCATGGAAGG AGGGTCCCTA TACAGTAGAT GCAATCCAAA AGAAAATCAC AGAAACCAAG
    CAGTTGGCCA AAGACCTCCG CCAGTGGCAG ACAAATGTAG ATGTGGCAAA TGACTTGGCC
    CTGAAACTTC TCCGGGATTA TTCTGCAGAT GATACCAGAA AAGTCCACAT GATAACAGAG
    AATATCAATG CCTCTTGGAG AAGCATTCAT AAAAGGGTGA GTGAGCGAGA GGCTGCTTTG
    GAAGAAACTC ATAGATTACT GCAACAGTTC CCCCTGGACC TGGAAAAGTT TCTTGCCTGG
    CTTACAGAAG CTGAAACAAC TGCCAATGTC CTACAGGATG CTACCCGTAA GGAAAGGCTC
    CTAGAAGACT CCAAGGGAGT AAAAGAGCTG ATGAAACAAT GGCAAGACCT CCAAGGTGAA
    ATTGAAGCTC ACACAGATGT TTATCACAAC CTGGATGAAA ACAGCCAAAA AATCCTGAGA
    TCCCTGGAAG GTTCCGATGA TGCAGTCCTG TTACAAAGAC GTTTGGATAA CATGAACTTC
    AAGTGGAGTG AACTTCGGAA AAAGTCTCTC AACATTAGGT CCCATTTGGA AGCCAGTTCT
    GACCAGTGGA AGCGTCTGCA CCTTTCTCTG CAGGAACTTC TGGTGTGGCT ACAGCTGAAA
    GATGATGAAT TAAGCCGGCA GGCACCTATT GGAGGCGACT TTCCAGCAGT TCAGAAGCAG
    AACGATGTAC ATAGGGCCTT CAAGAGGGAA TTGAAAACTA AAGAACCTGT AATCATGAGT
    ACTCTTGAGA CTGTACGAAT ATTTCTGACA GAGCAGCCTT TGGAAGGACT AGAGAAACTC
    TACCAGGAGC CCAGAGAGCT GCCTCCTGAG GAGAGAGCCC AGAATGTCAC TCGGCTTCTA
    CGAAAGCAGG CTGAGGAGGT CAATACTGAG TGGGAAAAAT TGAACCTGCA CTCCGCTGAC
    TGGCAGAGAA AAATAGATGA GACCCTTGAA AGACTCCGGG AACTTCAAGA GGCCACGGAT
    GAGCTGGACC TCAAGCTGCG CCAAGCTGAG GTGATCAAGG GATCCTGGCA GCCCGTGGGC
    GATCTCCTCA TTGACTCTCT CCAAGATCAC CTCGAGAAAG TCAAGGCACT TCGAGGAGAA
    ATTGCGCCTC TGAAAGAGAA CGTGAGCCAC GTCAATGACC TTGCTCGCCA GCTTACCACT
    TTGGGCATTC AGCTCTCACC GTATAACCTC AGCACTCTGG AAGACCTGAA CACCAGATGG
    AAGCTTCTGC AGGTGGCCGT CGAGGACCGA GTCAGGCAGC TGCATGAAGC CCACAGGGAC
    TTTGGTCCAG CATCTCAGCA CTTTCTTTCC ACGTCTGTCC AGGGTCCCTG GGAGAGAGCC
    ATCTCGCCAA ACAAAGTGCC CTACTATATC AACCACGAGA CTCAAACAAC TTGCTGGGAC
    CATCCCAAAA TGACAGAGCT CTACCAGTCT TTAGCTGACC TGAATAATGT CAGATTCTCA
    GCTTATAGGA CTGCCATGAA ACTCCGAAGA CTGCAGAAGG CCCTTTGCTT GGATCTCTTG
    AGCCTGTCAG CTGCATGTGA TGCCTTGGAC CAGCACAACC TCAAGCAAAA TGACCAGCCC
    ATGGATATCC TGCAGATTAT TAATTGTTTG ACCACTATTT ATGACCGCCT GGAGCAAGAG
    CACAACAATT TGGTCAACGT CCCTCTCTGC GTGGATATGT GTCTGAACTG GCTGCTGAAT
    GTTTATGATA CGGGACGAAC AGGGAGGATC CGTGTCCTGT CTTTTAAAAC TGGCATCATT
    TCCCTGTGTA AAGCACATTT GGAAGACAAG TACAGATACC TTTTCAAGCA AGTGGCAAGT
    TCAACAGGAT TTTGTGACCA GCGCAGGCTG GGCCTCCTTC TGCATGATTC TATCCAAATT
    CCAAGACAGT TGGGTGAAGT TGCATCCTTT GGGGGCAGTA ACATTGAGCC AAGTGTCCGG
    AGCTGCTTCC AATTTGCTAA TAATAAGCCA GAGATCGAAG CGGCCCTCTT CCTAGACTGG
    ATGAGACTGG AACCCCAGTC CATGGTGTGG CTGCCCGTCC TGCACAGAGT GGCTGCTGCA
    GAAACTGCCA AGCATCAGGC CAAATGTAAC ATCTGCAAAG AGTGTCCAAT CATTGGATTC
    AGGTACAGGA GTCTAAAGCA CTTTAATTAT GACATCTGCC AAAGCTGCTT TTTTTCTGGT
    CGAGTTGCAA AAGGCCATAA AATGCACTAT CCCATGGTGG AATATTGCAC TCCGACTACA
    TCAGGAGAAG ATGTTCGAGA CTTTGCCAAG GTACTAAAAA ACAAATTTCG AACCAAAAGG
    TATTTTGCGA AGCATCCCCG AATGGGCTAC CTGCCAGTGC AGACTGTCTT AGAGGGGGAC
    AACATGGAAA CTCCCGTTAC TCTGATCAAC TTCTGGCCAG TAGATTCTGC GCCTGCCTCG
    TCCCCTCAGC TTTCACACGA TGATACTCAT TCACGCATTG AACATTATGC TAGCAGGCTA
    GCAGAAATGG AAAACAGCAA TGGATCTTAT CTAAATGATA GCATCTCTCC TAATGAGAGC
    ATAGATGATG AACATTTGTT AATCCAGCAT TACTGCCAAA GTTTGAACCA GGACTCCCCC
    CTGAGCCAGC CTCGTAGTCC TGCCCAGATC TTGATTTCCT TAGAGAGTGA GGAAAGAGGG
    GAGCTAGAGA GAATCCTAGC AGATCTTGAG GAAGAAAACA GGAATCTGCA AGCAGAATAT
    GACCGTCTAA AGCAGCAGCA CGAACATAAA GGCCTGTCCC CACTGCCGTC CCCTCCTGAA
    ATGATGCCCA CCTCTCCCCA GAGTCCCCGG GATGCTGAGC TCATTGCTGA GGCCAAGCTA
    CTGCGTCAAC ACAAAGGCCG CCTGGAAGCC AGGATGCAAA TCCTGGAAGA CCACAATAAA
    CAGCTGGAGT CACAGTTACA CAGGCTAAGG CAGCTGCTGG AGCAACCCCA GGCAGAGGCC
    AAAGTGAATG GCACAACGGT GTCCTCTCCT TCTACCTCTC TACAGAGGTC CGACAGCAGT
    CAGCCTATGC TGCTCCGAGT GGTTGGCAGT CAAACTTCGG ACTCCATGGG TGAGGAAGAT
    CTTCTCAGTC CTCCCCAGGA CACAAGCACA GGGTTAGAGG AGGTGATGGA GCAACTCAAC
    AACTCCTTCC CTAGTTCAAG AGGAAGAAAT ACCCCTGGAA AGCCAATGAG AGAGGACACA
    ATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004003.2
    CDS172..7197
    Translation

    Target ORF information:

    RefSeq Version NM_004012.4
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp260-2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004012.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    ATGAGTGCCA GGAAGCTGCG AAATCTGTCT TACAAAAAGG CTGTAAGGAG GCAAAAGTTG 
    CTTGAACAGA GCATCCAGTC TGCCCAGGAG ACTGAAAAAT CCTTACACTT AATCCAGGAG
    TCCCTCACAT TCATTGACAA GCAGTTGGCA GCTTATATTG CAGACAAGGT GGACGCAGCT
    CAAATGCCTC AGGAAGCCCA GAAAATCCAA TCTGATTTGA CAAGTCATGA GATCAGTTTA
    GAAGAAATGA AGAAACATAA TCAGGGGAAG GAGGCTGCCC AAAGAGTCCT GTCTCAGATT
    GATGTTGCAC AGAAAAAATT ACAAGATGTC TCCATGAAGT TTCGATTATT CCAGAAACCA
    GCCAATTTTG AGCAGCGTCT ACAAGAAAGT AAGATGATTT TAGATGAAGT GAAGATGCAC
    TTGCCTGCAT TGGAAACAAA GAGTGTGGAA CAGGAAGTAG TACAGTCACA GCTAAATCAT
    TGTGTGAACT TGTATAAAAG TCTGAGTGAA GTGAAGTCTG AAGTGGAAAT GGTGATAAAG
    ACTGGACGTC AGATTGTACA GAAAAAGCAG ACGGAAAATC CCAAAGAACT TGATGAAAGA
    GTAACAGCTT TGAAATTGCA TTATAATGAG CTGGGAGCAA AGGTAACAGA AAGAAAGCAA
    CAGTTGGAGA AATGCTTGAA ATTGTCCCGT AAGATGCGAA AGGAAATGAA TGTCTTGACA
    GAATGGCTGG CAGCTACAGA TATGGAATTG ACAAAGAGAT CAGCAGTTGA AGGAATGCCT
    AGTAATTTGG ATTCTGAAGT TGCCTGGGGA AAGGCTACTC AAAAAGAGAT TGAGAAACAG
    AAGGTGCACC TGAAGAGTAT CACAGAGGTA GGAGAGGCCT TGAAAACAGT TTTGGGCAAG
    AAGGAGACGT TGGTGGAAGA TAAACTCAGT CTTCTGAATA GTAACTGGAT AGCTGTCACC
    TCCCGAGCAG AAGAGTGGTT AAATCTTTTG TTGGAATACC AGAAACACAT GGAAACTTTT
    GACCAGAATG TGGACCACAT CACAAAGTGG ATCATTCAGG CTGACACACT TTTGGATGAA
    TCAGAGAAAA AGAAACCCCA GCAAAAAGAA GACGTGCTTA AGCGTTTAAA GGCAGAACTG
    AATGACATAC GCCCAAAGGT GGACTCTACA CGTGACCAAG CAGCAAACTT GATGGCAAAC
    CGCGGTGACC ACTGCAGGAA ATTAGTAGAG CCCCAAATCT CAGAGCTCAA CCATCGATTT
    GCAGCCATTT CACACAGAAT TAAGACTGGA AAGGCCTCCA TTCCTTTGAA GGAATTGGAG
    CAGTTTAACT CAGATATACA AAAATTGCTT GAACCACTGG AGGCTGAAAT TCAGCAGGGG
    GTGAATCTGA AAGAGGAAGA CTTCAATAAA GATATGAATG AAGACAATGA GGGTACTGTA
    AAAGAATTGT TGCAAAGAGG AGACAACTTA CAACAAAGAA TCACAGATGA GAGAAAGCGA
    GAGGAAATAA AGATAAAACA GCAGCTGTTA CAGACAAAAC ATAATGCTCT CAAGGATTTG
    AGGTCTCAAA GAAGAAAAAA GGCTCTAGAA ATTTCTCATC AGTGGTATCA GTACAAGAGG
    CAGGCTGATG ATCTCCTGAA ATGCTTGGAT GACATTGAAA AAAAATTAGC CAGCCTACCT
    GAGCCCAGAG ATGAAAGGAA AATAAAGGAA ATTGATCGGG AATTGCAGAA GAAGAAAGAG
    GAGCTGAATG CAGTGCGTAG GCAAGCTGAG GGCTTGTCTG AGGATGGGGC CGCAATGGCA
    GTGGAGCCAA CTCAGATCCA GCTCAGCAAG CGCTGGCGGG AAATTGAGAG CAAATTTGCT
    CAGTTTCGAA GACTCAACTT TGCACAAATT CACACTGTCC GTGAAGAAAC GATGATGGTG
    ATGACTGAAG ACATGCCTTT GGAAATTTCT TATGTGCCTT CTACTTATTT GACTGAAATC
    ACTCATGTCT CACAAGCCCT ATTAGAAGTG GAACAACTTC TCAATGCTCC TGACCTCTGT
    GCTAAGGACT TTGAAGATCT CTTTAAGCAA GAGGAGTCTC TGAAGAATAT AAAAGATAGT
    CTACAACAAA GCTCAGGTCG GATTGACATT ATTCATAGCA AGAAGACAGC AGCATTGCAA
    AGTGCAACGC CTGTGGAAAG GGTGAAGCTA CAGGAAGCTC TCTCCCAGCT TGATTTCCAA
    TGGGAAAAAG TTAACAAAAT GTACAAGGAC CGACAAGGGC GATTTGACAG ATCTGTTGAG
    AAATGGCGGC GTTTTCATTA TGATATAAAG ATATTTAATC AGTGGCTAAC AGAAGCTGAA
    CAGTTTCTCA GAAAGACACA AATTCCTGAG AATTGGGAAC ATGCTAAATA CAAATGGTAT
    CTTAAGGAAC TCCAGGATGG CATTGGGCAG CGGCAAACTG TTGTCAGAAC ATTGAATGCA
    ACTGGGGAAG AAATAATTCA GCAATCCTCA AAAACAGATG CCAGTATTCT ACAGGAAAAA
    TTGGGAAGCC TGAATCTGCG GTGGCAGGAG GTCTGCAAAC AGCTGTCAGA CAGAAAAAAG
    AGGCTAGAAG AACAAAAGAA TATCTTGTCA GAATTTCAAA GAGATTTAAA TGAATTTGTT
    TTATGGTTGG AGGAAGCAGA TAACATTGCT AGTATCCCAC TTGAACCTGG AAAAGAGCAG
    CAACTAAAAG AAAAGCTTGA GCAAGTCAAG TTACTGGTGG AAGAGTTGCC CCTGCGCCAG
    GGAATTCTCA AACAATTAAA TGAAACTGGA GGACCCGTGC TTGTAAGTGC TCCCATAAGC
    CCAGAAGAGC AAGATAAACT TGAAAATAAG CTCAAGCAGA CAAATCTCCA GTGGATAAAG
    GTTTCCAGAG CTTTACCTGA GAAACAAGGA GAAATTGAAG CTCAAATAAA AGACCTTGGG
    CAGCTTGAAA AAAAGCTTGA AGACCTTGAA GAGCAGTTAA ATCATCTGCT GCTGTGGTTA
    TCTCCTATTA GGAATCAGTT GGAAATTTAT AACCAACCAA ACCAAGAAGG ACCATTTGAC
    GTTAAGGAAA CTGAAATAGC AGTTCAAGCT AAACAACCGG ATGTGGAAGA GATTTTGTCT
    AAAGGGCAGC ATTTGTACAA GGAAAAACCA GCCACTCAGC CAGTGAAGAG GAAGTTAGAA
    GATCTGAGCT CTGAGTGGAA GGCGGTAAAC CGTTTACTTC AAGAGCTGAG GGCAAAGCAG
    CCTGACCTAG CTCCTGGACT GACCACTATT GGAGCCTCTC CTACTCAGAC TGTTACTCTG
    GTGACACAAC CTGTGGTTAC TAAGGAAACT GCCATCTCCA AACTAGAAAT GCCATCTTCC
    TTGATGTTGG AGGTACCTGC TCTGGCAGAT TTCAACCGGG CTTGGACAGA ACTTACCGAC
    TGGCTTTCTC TGCTTGATCA AGTTATAAAA TCACAGAGGG TGATGGTGGG TGACCTTGAG
    GATATCAACG AGATGATCAT CAAGCAGAAG GCAACAATGC AGGATTTGGA ACAGAGGCGT
    CCCCAGTTGG AAGAACTCAT TACCGCTGCC CAAAATTTGA AAAACAAGAC CAGCAATCAA
    GAGGCTAGAA CAATCATTAC GGATCGAATT GAAAGAATTC AGAATCAGTG GGATGAAGTA
    CAAGAACACC TTCAGAACCG GAGGCAACAG TTGAATGAAA TGTTAAAGGA TTCAACACAA
    TGGCTGGAAG CTAAGGAAGA AGCTGAGCAG GTCTTAGGAC AGGCCAGAGC CAAGCTTGAG
    TCATGGAAGG AGGGTCCCTA TACAGTAGAT GCAATCCAAA AGAAAATCAC AGAAACCAAG
    CAGTTGGCCA AAGACCTCCG CCAGTGGCAG ACAAATGTAG ATGTGGCAAA TGACTTGGCC
    CTGAAACTTC TCCGGGATTA TTCTGCAGAT GATACCAGAA AAGTCCACAT GATAACAGAG
    AATATCAATG CCTCTTGGAG AAGCATTCAT AAAAGGGTGA GTGAGCGAGA GGCTGCTTTG
    GAAGAAACTC ATAGATTACT GCAACAGTTC CCCCTGGACC TGGAAAAGTT TCTTGCCTGG
    CTTACAGAAG CTGAAACAAC TGCCAATGTC CTACAGGATG CTACCCGTAA GGAAAGGCTC
    CTAGAAGACT CCAAGGGAGT AAAAGAGCTG ATGAAACAAT GGCAAGACCT CCAAGGTGAA
    ATTGAAGCTC ACACAGATGT TTATCACAAC CTGGATGAAA ACAGCCAAAA AATCCTGAGA
    TCCCTGGAAG GTTCCGATGA TGCAGTCCTG TTACAAAGAC GTTTGGATAA CATGAACTTC
    AAGTGGAGTG AACTTCGGAA AAAGTCTCTC AACATTAGGT CCCATTTGGA AGCCAGTTCT
    GACCAGTGGA AGCGTCTGCA CCTTTCTCTG CAGGAACTTC TGGTGTGGCT ACAGCTGAAA
    GATGATGAAT TAAGCCGGCA GGCACCTATT GGAGGCGACT TTCCAGCAGT TCAGAAGCAG
    AACGATGTAC ATAGGGCCTT CAAGAGGGAA TTGAAAACTA AAGAACCTGT AATCATGAGT
    ACTCTTGAGA CTGTACGAAT ATTTCTGACA GAGCAGCCTT TGGAAGGACT AGAGAAACTC
    TACCAGGAGC CCAGAGAGCT GCCTCCTGAG GAGAGAGCCC AGAATGTCAC TCGGCTTCTA
    CGAAAGCAGG CTGAGGAGGT CAATACTGAG TGGGAAAAAT TGAACCTGCA CTCCGCTGAC
    TGGCAGAGAA AAATAGATGA GACCCTTGAA AGACTCCGGG AACTTCAAGA GGCCACGGAT
    GAGCTGGACC TCAAGCTGCG CCAAGCTGAG GTGATCAAGG GATCCTGGCA GCCCGTGGGC
    GATCTCCTCA TTGACTCTCT CCAAGATCAC CTCGAGAAAG TCAAGGCACT TCGAGGAGAA
    ATTGCGCCTC TGAAAGAGAA CGTGAGCCAC GTCAATGACC TTGCTCGCCA GCTTACCACT
    TTGGGCATTC AGCTCTCACC GTATAACCTC AGCACTCTGG AAGACCTGAA CACCAGATGG
    AAGCTTCTGC AGGTGGCCGT CGAGGACCGA GTCAGGCAGC TGCATGAAGC CCACAGGGAC
    TTTGGTCCAG CATCTCAGCA CTTTCTTTCC ACGTCTGTCC AGGGTCCCTG GGAGAGAGCC
    ATCTCGCCAA ACAAAGTGCC CTACTATATC AACCACGAGA CTCAAACAAC TTGCTGGGAC
    CATCCCAAAA TGACAGAGCT CTACCAGTCT TTAGCTGACC TGAATAATGT CAGATTCTCA
    GCTTATAGGA CTGCCATGAA ACTCCGAAGA CTGCAGAAGG CCCTTTGCTT GGATCTCTTG
    AGCCTGTCAG CTGCATGTGA TGCCTTGGAC CAGCACAACC TCAAGCAAAA TGACCAGCCC
    ATGGATATCC TGCAGATTAT TAATTGTTTG ACCACTATTT ATGACCGCCT GGAGCAAGAG
    CACAACAATT TGGTCAACGT CCCTCTCTGC GTGGATATGT GTCTGAACTG GCTGCTGAAT
    GTTTATGATA CGGGACGAAC AGGGAGGATC CGTGTCCTGT CTTTTAAAAC TGGCATCATT
    TCCCTGTGTA AAGCACATTT GGAAGACAAG TACAGATACC TTTTCAAGCA AGTGGCAAGT
    TCAACAGGAT TTTGTGACCA GCGCAGGCTG GGCCTCCTTC TGCATGATTC TATCCAAATT
    CCAAGACAGT TGGGTGAAGT TGCATCCTTT GGGGGCAGTA ACATTGAGCC AAGTGTCCGG
    AGCTGCTTCC AATTTGCTAA TAATAAGCCA GAGATCGAAG CGGCCCTCTT CCTAGACTGG
    ATGAGACTGG AACCCCAGTC CATGGTGTGG CTGCCCGTCC TGCACAGAGT GGCTGCTGCA
    GAAACTGCCA AGCATCAGGC CAAATGTAAC ATCTGCAAAG AGTGTCCAAT CATTGGATTC
    AGGTACAGGA GTCTAAAGCA CTTTAATTAT GACATCTGCC AAAGCTGCTT TTTTTCTGGT
    CGAGTTGCAA AAGGCCATAA AATGCACTAT CCCATGGTGG AATATTGCAC TCCGACTACA
    TCAGGAGAAG ATGTTCGAGA CTTTGCCAAG GTACTAAAAA ACAAATTTCG AACCAAAAGG
    TATTTTGCGA AGCATCCCCG AATGGGCTAC CTGCCAGTGC AGACTGTCTT AGAGGGGGAC
    AACATGGAAA CTCCCGTTAC TCTGATCAAC TTCTGGCCAG TAGATTCTGC GCCTGCCTCG
    TCCCCTCAGC TTTCACACGA TGATACTCAT TCACGCATTG AACATTATGC TAGCAGGCTA
    GCAGAAATGG AAAACAGCAA TGGATCTTAT CTAAATGATA GCATCTCTCC TAATGAGAGC
    ATAGATGATG AACATTTGTT AATCCAGCAT TACTGCCAAA GTTTGAACCA GGACTCCCCC
    CTGAGCCAGC CTCGTAGTCC TGCCCAGATC TTGATTTCCT TAGAGAGTGA GGAAAGAGGG
    GAGCTAGAGA GAATCCTAGC AGATCTTGAG GAAGAAAACA GGAATCTGCA AGCAGAATAT
    GACCGTCTAA AGCAGCAGCA CGAACATAAA GGCCTGTCCC CACTGCCGTC CCCTCCTGAA
    ATGATGCCCA CCTCTCCCCA GAGTCCCCGG GATGCTGAGC TCATTGCTGA GGCCAAGCTA
    CTGCGTCAAC ACAAAGGCCG CCTGGAAGCC AGGATGCAAA TCCTGGAAGA CCACAATAAA
    CAGCTGGAGT CACAGTTACA CAGGCTAAGG CAGCTGCTGG AGCAACCCCA GGCAGAGGCC
    AAAGTGAATG GCACAACGGT GTCCTCTCCT TCTACCTCTC TACAGAGGTC CGACAGCAGT
    CAGCCTATGC TGCTCCGAGT GGTTGGCAGT CAAACTTCGG ACTCCATGGG TGAGGAAGAT
    CTTCTCAGTC CTCCCCAGGA CACAAGCACA GGGTTAGAGG AGGTGATGGA GCAACTCAAC
    AACTCCTTCC CTAGTTCAAG AGGAAGAAAT ACCCCTGGAA AGCCAATGAG AGAGGACACA
    ATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu108717
    Clone ID Related Accession (Same CDS sequence) NM_004011.4
    Accession Version NM_004011.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 7035bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp260-1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL109609.5, AL139278.12, AC096506.5, AC093193.11, AC079864.22, AC093167.11, AC079175.24, AC079177.21, AC090632.13, AC078958.30, AC079143.17 and AC006061.1. On Jun 2, 2019 this sequence version replaced NM_004011.3. Transcript Variant: transcript Dp260-1 uses exons 30-79, and originates from a promoter/exon 1 sequence located in intron 29 of the dystrophin gene. As a result, Dp260-1 contains a 95 bp exon 1 encoding a unique N-terminal 16 aa MTEIILLIFFPAYFLN-sequence that replaces amino acids 1-1357 of the full-length dystrophin product (Dp427m isoform). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    ATGACTGAGA TGATTTTGCT AATTTTTTTT CCAGCCTATT TCCTTAATGC TGTAAGGAGG 
    CAAAAGTTGC TTGAACAGAG CATCCAGTCT GCCCAGGAGA CTGAAAAATC CTTACACTTA
    ATCCAGGAGT CCCTCACATT CATTGACAAG CAGTTGGCAG CTTATATTGC AGACAAGGTG
    GACGCAGCTC AAATGCCTCA GGAAGCCCAG AAAATCCAAT CTGATTTGAC AAGTCATGAG
    ATCAGTTTAG AAGAAATGAA GAAACATAAT CAGGGGAAGG AGGCTGCCCA AAGAGTCCTG
    TCTCAGATTG ATGTTGCACA GAAAAAATTA CAAGATGTCT CCATGAAGTT TCGATTATTC
    CAGAAACCAG CCAATTTTGA GCAGCGTCTA CAAGAAAGTA AGATGATTTT AGATGAAGTG
    AAGATGCACT TGCCTGCATT GGAAACAAAG AGTGTGGAAC AGGAAGTAGT ACAGTCACAG
    CTAAATCATT GTGTGAACTT GTATAAAAGT CTGAGTGAAG TGAAGTCTGA AGTGGAAATG
    GTGATAAAGA CTGGACGTCA GATTGTACAG AAAAAGCAGA CGGAAAATCC CAAAGAACTT
    GATGAAAGAG TAACAGCTTT GAAATTGCAT TATAATGAGC TGGGAGCAAA GGTAACAGAA
    AGAAAGCAAC AGTTGGAGAA ATGCTTGAAA TTGTCCCGTA AGATGCGAAA GGAAATGAAT
    GTCTTGACAG AATGGCTGGC AGCTACAGAT ATGGAATTGA CAAAGAGATC AGCAGTTGAA
    GGAATGCCTA GTAATTTGGA TTCTGAAGTT GCCTGGGGAA AGGCTACTCA AAAAGAGATT
    GAGAAACAGA AGGTGCACCT GAAGAGTATC ACAGAGGTAG GAGAGGCCTT GAAAACAGTT
    TTGGGCAAGA AGGAGACGTT GGTGGAAGAT AAACTCAGTC TTCTGAATAG TAACTGGATA
    GCTGTCACCT CCCGAGCAGA AGAGTGGTTA AATCTTTTGT TGGAATACCA GAAACACATG
    GAAACTTTTG ACCAGAATGT GGACCACATC ACAAAGTGGA TCATTCAGGC TGACACACTT
    TTGGATGAAT CAGAGAAAAA GAAACCCCAG CAAAAAGAAG ACGTGCTTAA GCGTTTAAAG
    GCAGAACTGA ATGACATACG CCCAAAGGTG GACTCTACAC GTGACCAAGC AGCAAACTTG
    ATGGCAAACC GCGGTGACCA CTGCAGGAAA TTAGTAGAGC CCCAAATCTC AGAGCTCAAC
    CATCGATTTG CAGCCATTTC ACACAGAATT AAGACTGGAA AGGCCTCCAT TCCTTTGAAG
    GAATTGGAGC AGTTTAACTC AGATATACAA AAATTGCTTG AACCACTGGA GGCTGAAATT
    CAGCAGGGGG TGAATCTGAA AGAGGAAGAC TTCAATAAAG ATATGAATGA AGACAATGAG
    GGTACTGTAA AAGAATTGTT GCAAAGAGGA GACAACTTAC AACAAAGAAT CACAGATGAG
    AGAAAGCGAG AGGAAATAAA GATAAAACAG CAGCTGTTAC AGACAAAACA TAATGCTCTC
    AAGGATTTGA GGTCTCAAAG AAGAAAAAAG GCTCTAGAAA TTTCTCATCA GTGGTATCAG
    TACAAGAGGC AGGCTGATGA TCTCCTGAAA TGCTTGGATG ACATTGAAAA AAAATTAGCC
    AGCCTACCTG AGCCCAGAGA TGAAAGGAAA ATAAAGGAAA TTGATCGGGA ATTGCAGAAG
    AAGAAAGAGG AGCTGAATGC AGTGCGTAGG CAAGCTGAGG GCTTGTCTGA GGATGGGGCC
    GCAATGGCAG TGGAGCCAAC TCAGATCCAG CTCAGCAAGC GCTGGCGGGA AATTGAGAGC
    AAATTTGCTC AGTTTCGAAG ACTCAACTTT GCACAAATTC ACACTGTCCG TGAAGAAACG
    ATGATGGTGA TGACTGAAGA CATGCCTTTG GAAATTTCTT ATGTGCCTTC TACTTATTTG
    ACTGAAATCA CTCATGTCTC ACAAGCCCTA TTAGAAGTGG AACAACTTCT CAATGCTCCT
    GACCTCTGTG CTAAGGACTT TGAAGATCTC TTTAAGCAAG AGGAGTCTCT GAAGAATATA
    AAAGATAGTC TACAACAAAG CTCAGGTCGG ATTGACATTA TTCATAGCAA GAAGACAGCA
    GCATTGCAAA GTGCAACGCC TGTGGAAAGG GTGAAGCTAC AGGAAGCTCT CTCCCAGCTT
    GATTTCCAAT GGGAAAAAGT TAACAAAATG TACAAGGACC GACAAGGGCG ATTTGACAGA
    TCTGTTGAGA AATGGCGGCG TTTTCATTAT GATATAAAGA TATTTAATCA GTGGCTAACA
    GAAGCTGAAC AGTTTCTCAG AAAGACACAA ATTCCTGAGA ATTGGGAACA TGCTAAATAC
    AAATGGTATC TTAAGGAACT CCAGGATGGC ATTGGGCAGC GGCAAACTGT TGTCAGAACA
    TTGAATGCAA CTGGGGAAGA AATAATTCAG CAATCCTCAA AAACAGATGC CAGTATTCTA
    CAGGAAAAAT TGGGAAGCCT GAATCTGCGG TGGCAGGAGG TCTGCAAACA GCTGTCAGAC
    AGAAAAAAGA GGCTAGAAGA ACAAAAGAAT ATCTTGTCAG AATTTCAAAG AGATTTAAAT
    GAATTTGTTT TATGGTTGGA GGAAGCAGAT AACATTGCTA GTATCCCACT TGAACCTGGA
    AAAGAGCAGC AACTAAAAGA AAAGCTTGAG CAAGTCAAGT TACTGGTGGA AGAGTTGCCC
    CTGCGCCAGG GAATTCTCAA ACAATTAAAT GAAACTGGAG GACCCGTGCT TGTAAGTGCT
    CCCATAAGCC CAGAAGAGCA AGATAAACTT GAAAATAAGC TCAAGCAGAC AAATCTCCAG
    TGGATAAAGG TTTCCAGAGC TTTACCTGAG AAACAAGGAG AAATTGAAGC TCAAATAAAA
    GACCTTGGGC AGCTTGAAAA AAAGCTTGAA GACCTTGAAG AGCAGTTAAA TCATCTGCTG
    CTGTGGTTAT CTCCTATTAG GAATCAGTTG GAAATTTATA ACCAACCAAA CCAAGAAGGA
    CCATTTGACG TTAAGGAAAC TGAAATAGCA GTTCAAGCTA AACAACCGGA TGTGGAAGAG
    ATTTTGTCTA AAGGGCAGCA TTTGTACAAG GAAAAACCAG CCACTCAGCC AGTGAAGAGG
    AAGTTAGAAG ATCTGAGCTC TGAGTGGAAG GCGGTAAACC GTTTACTTCA AGAGCTGAGG
    GCAAAGCAGC CTGACCTAGC TCCTGGACTG ACCACTATTG GAGCCTCTCC TACTCAGACT
    GTTACTCTGG TGACACAACC TGTGGTTACT AAGGAAACTG CCATCTCCAA ACTAGAAATG
    CCATCTTCCT TGATGTTGGA GGTACCTGCT CTGGCAGATT TCAACCGGGC TTGGACAGAA
    CTTACCGACT GGCTTTCTCT GCTTGATCAA GTTATAAAAT CACAGAGGGT GATGGTGGGT
    GACCTTGAGG ATATCAACGA GATGATCATC AAGCAGAAGG CAACAATGCA GGATTTGGAA
    CAGAGGCGTC CCCAGTTGGA AGAACTCATT ACCGCTGCCC AAAATTTGAA AAACAAGACC
    AGCAATCAAG AGGCTAGAAC AATCATTACG GATCGAATTG AAAGAATTCA GAATCAGTGG
    GATGAAGTAC AAGAACACCT TCAGAACCGG AGGCAACAGT TGAATGAAAT GTTAAAGGAT
    TCAACACAAT GGCTGGAAGC TAAGGAAGAA GCTGAGCAGG TCTTAGGACA GGCCAGAGCC
    AAGCTTGAGT CATGGAAGGA GGGTCCCTAT ACAGTAGATG CAATCCAAAA GAAAATCACA
    GAAACCAAGC AGTTGGCCAA AGACCTCCGC CAGTGGCAGA CAAATGTAGA TGTGGCAAAT
    GACTTGGCCC TGAAACTTCT CCGGGATTAT TCTGCAGATG ATACCAGAAA AGTCCACATG
    ATAACAGAGA ATATCAATGC CTCTTGGAGA AGCATTCATA AAAGGGTGAG TGAGCGAGAG
    GCTGCTTTGG AAGAAACTCA TAGATTACTG CAACAGTTCC CCCTGGACCT GGAAAAGTTT
    CTTGCCTGGC TTACAGAAGC TGAAACAACT GCCAATGTCC TACAGGATGC TACCCGTAAG
    GAAAGGCTCC TAGAAGACTC CAAGGGAGTA AAAGAGCTGA TGAAACAATG GCAAGACCTC
    CAAGGTGAAA TTGAAGCTCA CACAGATGTT TATCACAACC TGGATGAAAA CAGCCAAAAA
    ATCCTGAGAT CCCTGGAAGG TTCCGATGAT GCAGTCCTGT TACAAAGACG TTTGGATAAC
    ATGAACTTCA AGTGGAGTGA ACTTCGGAAA AAGTCTCTCA ACATTAGGTC CCATTTGGAA
    GCCAGTTCTG ACCAGTGGAA GCGTCTGCAC CTTTCTCTGC AGGAACTTCT GGTGTGGCTA
    CAGCTGAAAG ATGATGAATT AAGCCGGCAG GCACCTATTG GAGGCGACTT TCCAGCAGTT
    CAGAAGCAGA ACGATGTACA TAGGGCCTTC AAGAGGGAAT TGAAAACTAA AGAACCTGTA
    ATCATGAGTA CTCTTGAGAC TGTACGAATA TTTCTGACAG AGCAGCCTTT GGAAGGACTA
    GAGAAACTCT ACCAGGAGCC CAGAGAGCTG CCTCCTGAGG AGAGAGCCCA GAATGTCACT
    CGGCTTCTAC GAAAGCAGGC TGAGGAGGTC AATACTGAGT GGGAAAAATT GAACCTGCAC
    TCCGCTGACT GGCAGAGAAA AATAGATGAG ACCCTTGAAA GACTCCGGGA ACTTCAAGAG
    GCCACGGATG AGCTGGACCT CAAGCTGCGC CAAGCTGAGG TGATCAAGGG ATCCTGGCAG
    CCCGTGGGCG ATCTCCTCAT TGACTCTCTC CAAGATCACC TCGAGAAAGT CAAGGCACTT
    CGAGGAGAAA TTGCGCCTCT GAAAGAGAAC GTGAGCCACG TCAATGACCT TGCTCGCCAG
    CTTACCACTT TGGGCATTCA GCTCTCACCG TATAACCTCA GCACTCTGGA AGACCTGAAC
    ACCAGATGGA AGCTTCTGCA GGTGGCCGTC GAGGACCGAG TCAGGCAGCT GCATGAAGCC
    CACAGGGACT TTGGTCCAGC ATCTCAGCAC TTTCTTTCCA CGTCTGTCCA GGGTCCCTGG
    GAGAGAGCCA TCTCGCCAAA CAAAGTGCCC TACTATATCA ACCACGAGAC TCAAACAACT
    TGCTGGGACC ATCCCAAAAT GACAGAGCTC TACCAGTCTT TAGCTGACCT GAATAATGTC
    AGATTCTCAG CTTATAGGAC TGCCATGAAA CTCCGAAGAC TGCAGAAGGC CCTTTGCTTG
    GATCTCTTGA GCCTGTCAGC TGCATGTGAT GCCTTGGACC AGCACAACCT CAAGCAAAAT
    GACCAGCCCA TGGATATCCT GCAGATTATT AATTGTTTGA CCACTATTTA TGACCGCCTG
    GAGCAAGAGC ACAACAATTT GGTCAACGTC CCTCTCTGCG TGGATATGTG TCTGAACTGG
    CTGCTGAATG TTTATGATAC GGGACGAACA GGGAGGATCC GTGTCCTGTC TTTTAAAACT
    GGCATCATTT CCCTGTGTAA AGCACATTTG GAAGACAAGT ACAGATACCT TTTCAAGCAA
    GTGGCAAGTT CAACAGGATT TTGTGACCAG CGCAGGCTGG GCCTCCTTCT GCATGATTCT
    ATCCAAATTC CAAGACAGTT GGGTGAAGTT GCATCCTTTG GGGGCAGTAA CATTGAGCCA
    AGTGTCCGGA GCTGCTTCCA ATTTGCTAAT AATAAGCCAG AGATCGAAGC GGCCCTCTTC
    CTAGACTGGA TGAGACTGGA ACCCCAGTCC ATGGTGTGGC TGCCCGTCCT GCACAGAGTG
    GCTGCTGCAG AAACTGCCAA GCATCAGGCC AAATGTAACA TCTGCAAAGA GTGTCCAATC
    ATTGGATTCA GGTACAGGAG TCTAAAGCAC TTTAATTATG ACATCTGCCA AAGCTGCTTT
    TTTTCTGGTC GAGTTGCAAA AGGCCATAAA ATGCACTATC CCATGGTGGA ATATTGCACT
    CCGACTACAT CAGGAGAAGA TGTTCGAGAC TTTGCCAAGG TACTAAAAAA CAAATTTCGA
    ACCAAAAGGT ATTTTGCGAA GCATCCCCGA ATGGGCTACC TGCCAGTGCA GACTGTCTTA
    GAGGGGGACA ACATGGAAAC TCCCGTTACT CTGATCAACT TCTGGCCAGT AGATTCTGCG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGAAGAAATA CCCCTGGAAA GCCAATGAGA
    GAGGACACAA TGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004002.3
    CDS20..7054
    Translation

    Target ORF information:

    RefSeq Version NM_004011.4
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp260-1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004011.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    ATGACTGAGA TGATTTTGCT AATTTTTTTT CCAGCCTATT TCCTTAATGC TGTAAGGAGG 
    CAAAAGTTGC TTGAACAGAG CATCCAGTCT GCCCAGGAGA CTGAAAAATC CTTACACTTA
    ATCCAGGAGT CCCTCACATT CATTGACAAG CAGTTGGCAG CTTATATTGC AGACAAGGTG
    GACGCAGCTC AAATGCCTCA GGAAGCCCAG AAAATCCAAT CTGATTTGAC AAGTCATGAG
    ATCAGTTTAG AAGAAATGAA GAAACATAAT CAGGGGAAGG AGGCTGCCCA AAGAGTCCTG
    TCTCAGATTG ATGTTGCACA GAAAAAATTA CAAGATGTCT CCATGAAGTT TCGATTATTC
    CAGAAACCAG CCAATTTTGA GCAGCGTCTA CAAGAAAGTA AGATGATTTT AGATGAAGTG
    AAGATGCACT TGCCTGCATT GGAAACAAAG AGTGTGGAAC AGGAAGTAGT ACAGTCACAG
    CTAAATCATT GTGTGAACTT GTATAAAAGT CTGAGTGAAG TGAAGTCTGA AGTGGAAATG
    GTGATAAAGA CTGGACGTCA GATTGTACAG AAAAAGCAGA CGGAAAATCC CAAAGAACTT
    GATGAAAGAG TAACAGCTTT GAAATTGCAT TATAATGAGC TGGGAGCAAA GGTAACAGAA
    AGAAAGCAAC AGTTGGAGAA ATGCTTGAAA TTGTCCCGTA AGATGCGAAA GGAAATGAAT
    GTCTTGACAG AATGGCTGGC AGCTACAGAT ATGGAATTGA CAAAGAGATC AGCAGTTGAA
    GGAATGCCTA GTAATTTGGA TTCTGAAGTT GCCTGGGGAA AGGCTACTCA AAAAGAGATT
    GAGAAACAGA AGGTGCACCT GAAGAGTATC ACAGAGGTAG GAGAGGCCTT GAAAACAGTT
    TTGGGCAAGA AGGAGACGTT GGTGGAAGAT AAACTCAGTC TTCTGAATAG TAACTGGATA
    GCTGTCACCT CCCGAGCAGA AGAGTGGTTA AATCTTTTGT TGGAATACCA GAAACACATG
    GAAACTTTTG ACCAGAATGT GGACCACATC ACAAAGTGGA TCATTCAGGC TGACACACTT
    TTGGATGAAT CAGAGAAAAA GAAACCCCAG CAAAAAGAAG ACGTGCTTAA GCGTTTAAAG
    GCAGAACTGA ATGACATACG CCCAAAGGTG GACTCTACAC GTGACCAAGC AGCAAACTTG
    ATGGCAAACC GCGGTGACCA CTGCAGGAAA TTAGTAGAGC CCCAAATCTC AGAGCTCAAC
    CATCGATTTG CAGCCATTTC ACACAGAATT AAGACTGGAA AGGCCTCCAT TCCTTTGAAG
    GAATTGGAGC AGTTTAACTC AGATATACAA AAATTGCTTG AACCACTGGA GGCTGAAATT
    CAGCAGGGGG TGAATCTGAA AGAGGAAGAC TTCAATAAAG ATATGAATGA AGACAATGAG
    GGTACTGTAA AAGAATTGTT GCAAAGAGGA GACAACTTAC AACAAAGAAT CACAGATGAG
    AGAAAGCGAG AGGAAATAAA GATAAAACAG CAGCTGTTAC AGACAAAACA TAATGCTCTC
    AAGGATTTGA GGTCTCAAAG AAGAAAAAAG GCTCTAGAAA TTTCTCATCA GTGGTATCAG
    TACAAGAGGC AGGCTGATGA TCTCCTGAAA TGCTTGGATG ACATTGAAAA AAAATTAGCC
    AGCCTACCTG AGCCCAGAGA TGAAAGGAAA ATAAAGGAAA TTGATCGGGA ATTGCAGAAG
    AAGAAAGAGG AGCTGAATGC AGTGCGTAGG CAAGCTGAGG GCTTGTCTGA GGATGGGGCC
    GCAATGGCAG TGGAGCCAAC TCAGATCCAG CTCAGCAAGC GCTGGCGGGA AATTGAGAGC
    AAATTTGCTC AGTTTCGAAG ACTCAACTTT GCACAAATTC ACACTGTCCG TGAAGAAACG
    ATGATGGTGA TGACTGAAGA CATGCCTTTG GAAATTTCTT ATGTGCCTTC TACTTATTTG
    ACTGAAATCA CTCATGTCTC ACAAGCCCTA TTAGAAGTGG AACAACTTCT CAATGCTCCT
    GACCTCTGTG CTAAGGACTT TGAAGATCTC TTTAAGCAAG AGGAGTCTCT GAAGAATATA
    AAAGATAGTC TACAACAAAG CTCAGGTCGG ATTGACATTA TTCATAGCAA GAAGACAGCA
    GCATTGCAAA GTGCAACGCC TGTGGAAAGG GTGAAGCTAC AGGAAGCTCT CTCCCAGCTT
    GATTTCCAAT GGGAAAAAGT TAACAAAATG TACAAGGACC GACAAGGGCG ATTTGACAGA
    TCTGTTGAGA AATGGCGGCG TTTTCATTAT GATATAAAGA TATTTAATCA GTGGCTAACA
    GAAGCTGAAC AGTTTCTCAG AAAGACACAA ATTCCTGAGA ATTGGGAACA TGCTAAATAC
    AAATGGTATC TTAAGGAACT CCAGGATGGC ATTGGGCAGC GGCAAACTGT TGTCAGAACA
    TTGAATGCAA CTGGGGAAGA AATAATTCAG CAATCCTCAA AAACAGATGC CAGTATTCTA
    CAGGAAAAAT TGGGAAGCCT GAATCTGCGG TGGCAGGAGG TCTGCAAACA GCTGTCAGAC
    AGAAAAAAGA GGCTAGAAGA ACAAAAGAAT ATCTTGTCAG AATTTCAAAG AGATTTAAAT
    GAATTTGTTT TATGGTTGGA GGAAGCAGAT AACATTGCTA GTATCCCACT TGAACCTGGA
    AAAGAGCAGC AACTAAAAGA AAAGCTTGAG CAAGTCAAGT TACTGGTGGA AGAGTTGCCC
    CTGCGCCAGG GAATTCTCAA ACAATTAAAT GAAACTGGAG GACCCGTGCT TGTAAGTGCT
    CCCATAAGCC CAGAAGAGCA AGATAAACTT GAAAATAAGC TCAAGCAGAC AAATCTCCAG
    TGGATAAAGG TTTCCAGAGC TTTACCTGAG AAACAAGGAG AAATTGAAGC TCAAATAAAA
    GACCTTGGGC AGCTTGAAAA AAAGCTTGAA GACCTTGAAG AGCAGTTAAA TCATCTGCTG
    CTGTGGTTAT CTCCTATTAG GAATCAGTTG GAAATTTATA ACCAACCAAA CCAAGAAGGA
    CCATTTGACG TTAAGGAAAC TGAAATAGCA GTTCAAGCTA AACAACCGGA TGTGGAAGAG
    ATTTTGTCTA AAGGGCAGCA TTTGTACAAG GAAAAACCAG CCACTCAGCC AGTGAAGAGG
    AAGTTAGAAG ATCTGAGCTC TGAGTGGAAG GCGGTAAACC GTTTACTTCA AGAGCTGAGG
    GCAAAGCAGC CTGACCTAGC TCCTGGACTG ACCACTATTG GAGCCTCTCC TACTCAGACT
    GTTACTCTGG TGACACAACC TGTGGTTACT AAGGAAACTG CCATCTCCAA ACTAGAAATG
    CCATCTTCCT TGATGTTGGA GGTACCTGCT CTGGCAGATT TCAACCGGGC TTGGACAGAA
    CTTACCGACT GGCTTTCTCT GCTTGATCAA GTTATAAAAT CACAGAGGGT GATGGTGGGT
    GACCTTGAGG ATATCAACGA GATGATCATC AAGCAGAAGG CAACAATGCA GGATTTGGAA
    CAGAGGCGTC CCCAGTTGGA AGAACTCATT ACCGCTGCCC AAAATTTGAA AAACAAGACC
    AGCAATCAAG AGGCTAGAAC AATCATTACG GATCGAATTG AAAGAATTCA GAATCAGTGG
    GATGAAGTAC AAGAACACCT TCAGAACCGG AGGCAACAGT TGAATGAAAT GTTAAAGGAT
    TCAACACAAT GGCTGGAAGC TAAGGAAGAA GCTGAGCAGG TCTTAGGACA GGCCAGAGCC
    AAGCTTGAGT CATGGAAGGA GGGTCCCTAT ACAGTAGATG CAATCCAAAA GAAAATCACA
    GAAACCAAGC AGTTGGCCAA AGACCTCCGC CAGTGGCAGA CAAATGTAGA TGTGGCAAAT
    GACTTGGCCC TGAAACTTCT CCGGGATTAT TCTGCAGATG ATACCAGAAA AGTCCACATG
    ATAACAGAGA ATATCAATGC CTCTTGGAGA AGCATTCATA AAAGGGTGAG TGAGCGAGAG
    GCTGCTTTGG AAGAAACTCA TAGATTACTG CAACAGTTCC CCCTGGACCT GGAAAAGTTT
    CTTGCCTGGC TTACAGAAGC TGAAACAACT GCCAATGTCC TACAGGATGC TACCCGTAAG
    GAAAGGCTCC TAGAAGACTC CAAGGGAGTA AAAGAGCTGA TGAAACAATG GCAAGACCTC
    CAAGGTGAAA TTGAAGCTCA CACAGATGTT TATCACAACC TGGATGAAAA CAGCCAAAAA
    ATCCTGAGAT CCCTGGAAGG TTCCGATGAT GCAGTCCTGT TACAAAGACG TTTGGATAAC
    ATGAACTTCA AGTGGAGTGA ACTTCGGAAA AAGTCTCTCA ACATTAGGTC CCATTTGGAA
    GCCAGTTCTG ACCAGTGGAA GCGTCTGCAC CTTTCTCTGC AGGAACTTCT GGTGTGGCTA
    CAGCTGAAAG ATGATGAATT AAGCCGGCAG GCACCTATTG GAGGCGACTT TCCAGCAGTT
    CAGAAGCAGA ACGATGTACA TAGGGCCTTC AAGAGGGAAT TGAAAACTAA AGAACCTGTA
    ATCATGAGTA CTCTTGAGAC TGTACGAATA TTTCTGACAG AGCAGCCTTT GGAAGGACTA
    GAGAAACTCT ACCAGGAGCC CAGAGAGCTG CCTCCTGAGG AGAGAGCCCA GAATGTCACT
    CGGCTTCTAC GAAAGCAGGC TGAGGAGGTC AATACTGAGT GGGAAAAATT GAACCTGCAC
    TCCGCTGACT GGCAGAGAAA AATAGATGAG ACCCTTGAAA GACTCCGGGA ACTTCAAGAG
    GCCACGGATG AGCTGGACCT CAAGCTGCGC CAAGCTGAGG TGATCAAGGG ATCCTGGCAG
    CCCGTGGGCG ATCTCCTCAT TGACTCTCTC CAAGATCACC TCGAGAAAGT CAAGGCACTT
    CGAGGAGAAA TTGCGCCTCT GAAAGAGAAC GTGAGCCACG TCAATGACCT TGCTCGCCAG
    CTTACCACTT TGGGCATTCA GCTCTCACCG TATAACCTCA GCACTCTGGA AGACCTGAAC
    ACCAGATGGA AGCTTCTGCA GGTGGCCGTC GAGGACCGAG TCAGGCAGCT GCATGAAGCC
    CACAGGGACT TTGGTCCAGC ATCTCAGCAC TTTCTTTCCA CGTCTGTCCA GGGTCCCTGG
    GAGAGAGCCA TCTCGCCAAA CAAAGTGCCC TACTATATCA ACCACGAGAC TCAAACAACT
    TGCTGGGACC ATCCCAAAAT GACAGAGCTC TACCAGTCTT TAGCTGACCT GAATAATGTC
    AGATTCTCAG CTTATAGGAC TGCCATGAAA CTCCGAAGAC TGCAGAAGGC CCTTTGCTTG
    GATCTCTTGA GCCTGTCAGC TGCATGTGAT GCCTTGGACC AGCACAACCT CAAGCAAAAT
    GACCAGCCCA TGGATATCCT GCAGATTATT AATTGTTTGA CCACTATTTA TGACCGCCTG
    GAGCAAGAGC ACAACAATTT GGTCAACGTC CCTCTCTGCG TGGATATGTG TCTGAACTGG
    CTGCTGAATG TTTATGATAC GGGACGAACA GGGAGGATCC GTGTCCTGTC TTTTAAAACT
    GGCATCATTT CCCTGTGTAA AGCACATTTG GAAGACAAGT ACAGATACCT TTTCAAGCAA
    GTGGCAAGTT CAACAGGATT TTGTGACCAG CGCAGGCTGG GCCTCCTTCT GCATGATTCT
    ATCCAAATTC CAAGACAGTT GGGTGAAGTT GCATCCTTTG GGGGCAGTAA CATTGAGCCA
    AGTGTCCGGA GCTGCTTCCA ATTTGCTAAT AATAAGCCAG AGATCGAAGC GGCCCTCTTC
    CTAGACTGGA TGAGACTGGA ACCCCAGTCC ATGGTGTGGC TGCCCGTCCT GCACAGAGTG
    GCTGCTGCAG AAACTGCCAA GCATCAGGCC AAATGTAACA TCTGCAAAGA GTGTCCAATC
    ATTGGATTCA GGTACAGGAG TCTAAAGCAC TTTAATTATG ACATCTGCCA AAGCTGCTTT
    TTTTCTGGTC GAGTTGCAAA AGGCCATAAA ATGCACTATC CCATGGTGGA ATATTGCACT
    CCGACTACAT CAGGAGAAGA TGTTCGAGAC TTTGCCAAGG TACTAAAAAA CAAATTTCGA
    ACCAAAAGGT ATTTTGCGAA GCATCCCCGA ATGGGCTACC TGCCAGTGCA GACTGTCTTA
    GAGGGGGACA ACATGGAAAC TCCCGTTACT CTGATCAACT TCTGGCCAGT AGATTCTGCG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGAAGAAATA CCCCTGGAAA GCCAATGAGA
    GAGGACACAA TGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu99185
    Clone ID Related Accession (Same CDS sequence) XM_017029329.1
    Accession Version XM_017029329.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6501bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product dystrophin isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000023.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGAT CTCCGAGAGG CAGAAAAAGG GGAACTGTGC AACCCTTTTG
    TCCTTCTGGA TCTCAAAATG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016884818.1
    CDS198..6698
    Translation

    Target ORF information:

    RefSeq Version XM_017029329.1
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017029329.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGAT CTCCGAGAGG CAGAAAAAGG GGAACTGTGC AACCCTTTTG
    TCCTTCTGGA TCTCAAAATG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu99186
    Clone ID Related Accession (Same CDS sequence) XM_017029330.1 , XM_017029330.2
    Accession Version XM_017029330.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6483bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product dystrophin isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000023.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGAG AACAGGAGAC AGAGGACTTA TCCTTCTTGA TGATGTCATT
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016884819.1
    CDS198..6680
    Translation

    Target ORF information:

    RefSeq Version XM_017029330.1
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017029330.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGAG AACAGGAGAC AGAGGACTTA TCCTTCTTGA TGATGTCATT
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu99186
    Clone ID Related Accession (Same CDS sequence) XM_017029330.1 , XM_017029330.2
    Accession Version XM_017029330.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6483bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product dystrophin isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000023.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017029330.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGAG AACAGGAGAC AGAGGACTTA TCCTTCTTGA TGATGTCATT
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016884819.1
    CDS198..6680
    Translation

    Target ORF information:

    RefSeq Version XM_017029330.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017029330.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGAG AACAGGAGAC AGAGGACTTA TCCTTCTTGA TGATGTCATT
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu23501
    Clone ID Related Accession (Same CDS sequence) NM_004012.3
    Accession Version NM_004012.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 7026bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-22
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp260-2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL109609.5, M18533.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004012.2. Transcript Variant: transcript Dp260-2 uses exons 30-79, starting from a promoter/exon 1 sequence located in intron 29 of the dystrophin gene that is alternatively spliced and lacks N-terminal amino acids 1-1357 of the full length dystrophin (Dp427m isoform). The Dp260-2 transcript encodes a unique N-terminal MSARKLRNLSYKK sequence. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    ATGAGTGCCA GGAAGCTGCG AAATCTGTCT TACAAAAAGG CTGTAAGGAG GCAAAAGTTG 
    CTTGAACAGA GCATCCAGTC TGCCCAGGAG ACTGAAAAAT CCTTACACTT AATCCAGGAG
    TCCCTCACAT TCATTGACAA GCAGTTGGCA GCTTATATTG CAGACAAGGT GGACGCAGCT
    CAAATGCCTC AGGAAGCCCA GAAAATCCAA TCTGATTTGA CAAGTCATGA GATCAGTTTA
    GAAGAAATGA AGAAACATAA TCAGGGGAAG GAGGCTGCCC AAAGAGTCCT GTCTCAGATT
    GATGTTGCAC AGAAAAAATT ACAAGATGTC TCCATGAAGT TTCGATTATT CCAGAAACCA
    GCCAATTTTG AGCAGCGTCT ACAAGAAAGT AAGATGATTT TAGATGAAGT GAAGATGCAC
    TTGCCTGCAT TGGAAACAAA GAGTGTGGAA CAGGAAGTAG TACAGTCACA GCTAAATCAT
    TGTGTGAACT TGTATAAAAG TCTGAGTGAA GTGAAGTCTG AAGTGGAAAT GGTGATAAAG
    ACTGGACGTC AGATTGTACA GAAAAAGCAG ACGGAAAATC CCAAAGAACT TGATGAAAGA
    GTAACAGCTT TGAAATTGCA TTATAATGAG CTGGGAGCAA AGGTAACAGA AAGAAAGCAA
    CAGTTGGAGA AATGCTTGAA ATTGTCCCGT AAGATGCGAA AGGAAATGAA TGTCTTGACA
    GAATGGCTGG CAGCTACAGA TATGGAATTG ACAAAGAGAT CAGCAGTTGA AGGAATGCCT
    AGTAATTTGG ATTCTGAAGT TGCCTGGGGA AAGGCTACTC AAAAAGAGAT TGAGAAACAG
    AAGGTGCACC TGAAGAGTAT CACAGAGGTA GGAGAGGCCT TGAAAACAGT TTTGGGCAAG
    AAGGAGACGT TGGTGGAAGA TAAACTCAGT CTTCTGAATA GTAACTGGAT AGCTGTCACC
    TCCCGAGCAG AAGAGTGGTT AAATCTTTTG TTGGAATACC AGAAACACAT GGAAACTTTT
    GACCAGAATG TGGACCACAT CACAAAGTGG ATCATTCAGG CTGACACACT TTTGGATGAA
    TCAGAGAAAA AGAAACCCCA GCAAAAAGAA GACGTGCTTA AGCGTTTAAA GGCAGAACTG
    AATGACATAC GCCCAAAGGT GGACTCTACA CGTGACCAAG CAGCAAACTT GATGGCAAAC
    CGCGGTGACC ACTGCAGGAA ATTAGTAGAG CCCCAAATCT CAGAGCTCAA CCATCGATTT
    GCAGCCATTT CACACAGAAT TAAGACTGGA AAGGCCTCCA TTCCTTTGAA GGAATTGGAG
    CAGTTTAACT CAGATATACA AAAATTGCTT GAACCACTGG AGGCTGAAAT TCAGCAGGGG
    GTGAATCTGA AAGAGGAAGA CTTCAATAAA GATATGAATG AAGACAATGA GGGTACTGTA
    AAAGAATTGT TGCAAAGAGG AGACAACTTA CAACAAAGAA TCACAGATGA GAGAAAGCGA
    GAGGAAATAA AGATAAAACA GCAGCTGTTA CAGACAAAAC ATAATGCTCT CAAGGATTTG
    AGGTCTCAAA GAAGAAAAAA GGCTCTAGAA ATTTCTCATC AGTGGTATCA GTACAAGAGG
    CAGGCTGATG ATCTCCTGAA ATGCTTGGAT GACATTGAAA AAAAATTAGC CAGCCTACCT
    GAGCCCAGAG ATGAAAGGAA AATAAAGGAA ATTGATCGGG AATTGCAGAA GAAGAAAGAG
    GAGCTGAATG CAGTGCGTAG GCAAGCTGAG GGCTTGTCTG AGGATGGGGC CGCAATGGCA
    GTGGAGCCAA CTCAGATCCA GCTCAGCAAG CGCTGGCGGG AAATTGAGAG CAAATTTGCT
    CAGTTTCGAA GACTCAACTT TGCACAAATT CACACTGTCC GTGAAGAAAC GATGATGGTG
    ATGACTGAAG ACATGCCTTT GGAAATTTCT TATGTGCCTT CTACTTATTT GACTGAAATC
    ACTCATGTCT CACAAGCCCT ATTAGAAGTG GAACAACTTC TCAATGCTCC TGACCTCTGT
    GCTAAGGACT TTGAAGATCT CTTTAAGCAA GAGGAGTCTC TGAAGAATAT AAAAGATAGT
    CTACAACAAA GCTCAGGTCG GATTGACATT ATTCATAGCA AGAAGACAGC AGCATTGCAA
    AGTGCAACGC CTGTGGAAAG GGTGAAGCTA CAGGAAGCTC TCTCCCAGCT TGATTTCCAA
    TGGGAAAAAG TTAACAAAAT GTACAAGGAC CGACAAGGGC GATTTGACAG ATCTGTTGAG
    AAATGGCGGC GTTTTCATTA TGATATAAAG ATATTTAATC AGTGGCTAAC AGAAGCTGAA
    CAGTTTCTCA GAAAGACACA AATTCCTGAG AATTGGGAAC ATGCTAAATA CAAATGGTAT
    CTTAAGGAAC TCCAGGATGG CATTGGGCAG CGGCAAACTG TTGTCAGAAC ATTGAATGCA
    ACTGGGGAAG AAATAATTCA GCAATCCTCA AAAACAGATG CCAGTATTCT ACAGGAAAAA
    TTGGGAAGCC TGAATCTGCG GTGGCAGGAG GTCTGCAAAC AGCTGTCAGA CAGAAAAAAG
    AGGCTAGAAG AACAAAAGAA TATCTTGTCA GAATTTCAAA GAGATTTAAA TGAATTTGTT
    TTATGGTTGG AGGAAGCAGA TAACATTGCT AGTATCCCAC TTGAACCTGG AAAAGAGCAG
    CAACTAAAAG AAAAGCTTGA GCAAGTCAAG TTACTGGTGG AAGAGTTGCC CCTGCGCCAG
    GGAATTCTCA AACAATTAAA TGAAACTGGA GGACCCGTGC TTGTAAGTGC TCCCATAAGC
    CCAGAAGAGC AAGATAAACT TGAAAATAAG CTCAAGCAGA CAAATCTCCA GTGGATAAAG
    GTTTCCAGAG CTTTACCTGA GAAACAAGGA GAAATTGAAG CTCAAATAAA AGACCTTGGG
    CAGCTTGAAA AAAAGCTTGA AGACCTTGAA GAGCAGTTAA ATCATCTGCT GCTGTGGTTA
    TCTCCTATTA GGAATCAGTT GGAAATTTAT AACCAACCAA ACCAAGAAGG ACCATTTGAC
    GTTCAGGAAA CTGAAATAGC AGTTCAAGCT AAACAACCGG ATGTGGAAGA GATTTTGTCT
    AAAGGGCAGC ATTTGTACAA GGAAAAACCA GCCACTCAGC CAGTGAAGAG GAAGTTAGAA
    GATCTGAGCT CTGAGTGGAA GGCGGTAAAC CGTTTACTTC AAGAGCTGAG GGCAAAGCAG
    CCTGACCTAG CTCCTGGACT GACCACTATT GGAGCCTCTC CTACTCAGAC TGTTACTCTG
    GTGACACAAC CTGTGGTTAC TAAGGAAACT GCCATCTCCA AACTAGAAAT GCCATCTTCC
    TTGATGTTGG AGGTACCTGC TCTGGCAGAT TTCAACCGGG CTTGGACAGA ACTTACCGAC
    TGGCTTTCTC TGCTTGATCA AGTTATAAAA TCACAGAGGG TGATGGTGGG TGACCTTGAG
    GATATCAACG AGATGATCAT CAAGCAGAAG GCAACAATGC AGGATTTGGA ACAGAGGCGT
    CCCCAGTTGG AAGAACTCAT TACCGCTGCC CAAAATTTGA AAAACAAGAC CAGCAATCAA
    GAGGCTAGAA CAATCATTAC GGATCGAATT GAAAGAATTC AGAATCAGTG GGATGAAGTA
    CAAGAACACC TTCAGAACCG GAGGCAACAG TTGAATGAAA TGTTAAAGGA TTCAACACAA
    TGGCTGGAAG CTAAGGAAGA AGCTGAGCAG GTCTTAGGAC AGGCCAGAGC CAAGCTTGAG
    TCATGGAAGG AGGGTCCCTA TACAGTAGAT GCAATCCAAA AGAAAATCAC AGAAACCAAG
    CAGTTGGCCA AAGACCTCCG CCAGTGGCAG ACAAATGTAG ATGTGGCAAA TGACTTGGCC
    CTGAAACTTC TCCGGGATTA TTCTGCAGAT GATACCAGAA AAGTCCACAT GATAACAGAG
    AATATCAATG CCTCTTGGAG AAGCATTCAT AAAAGGGTGA GTGAGCGAGA GGCTGCTTTG
    GAAGAAACTC ATAGATTACT GCAACAGTTC CCCCTGGACC TGGAAAAGTT TCTTGCCTGG
    CTTACAGAAG CTGAAACAAC TGCCAATGTC CTACAGGATG CTACCCGTAA GGAAAGGCTC
    CTAGAAGACT CCAAGGGAGT AAAAGAGCTG ATGAAACAAT GGCAAGACCT CCAAGGTGAA
    ATTGAAGCTC ACACAGATGT TTATCACAAC CTGGATGAAA ACAGCCAAAA AATCCTGAGA
    TCCCTGGAAG GTTCCGATGA TGCAGTCCTG TTACAAAGAC GTTTGGATAA CATGAACTTC
    AAGTGGAGTG AACTTCGGAA AAAGTCTCTC AACATTAGGT CCCATTTGGA AGCCAGTTCT
    GACCAGTGGA AGCGTCTGCA CCTTTCTCTG CAGGAACTTC TGGTGTGGCT ACAGCTGAAA
    GATGATGAAT TAAGCCGGCA GGCACCTATT GGAGGCGACT TTCCAGCAGT TCAGAAGCAG
    AACGATGTAC ATAGGGCCTT CAAGAGGGAA TTGAAAACTA AAGAACCTGT AATCATGAGT
    ACTCTTGAGA CTGTACGAAT ATTTCTGACA GAGCAGCCTT TGGAAGGACT AGAGAAACTC
    TACCAGGAGC CCAGAGAGCT GCCTCCTGAG GAGAGAGCCC AGAATGTCAC TCGGCTTCTA
    CGAAAGCAGG CTGAGGAGGT CAATACTGAG TGGGAAAAAT TGAACCTGCA CTCCGCTGAC
    TGGCAGAGAA AAATAGATGA GACCCTTGAA AGACTCCAGG AACTTCAAGA GGCCACGGAT
    GAGCTGGACC TCAAGCTGCG CCAAGCTGAG GTGATCAAGG GATCCTGGCA GCCCGTGGGC
    GATCTCCTCA TTGACTCTCT CCAAGATCAC CTCGAGAAAG TCAAGGCACT TCGAGGAGAA
    ATTGCGCCTC TGAAAGAGAA CGTGAGCCAC GTCAATGACC TTGCTCGCCA GCTTACCACT
    TTGGGCATTC AGCTCTCACC GTATAACCTC AGCACTCTGG AAGACCTGAA CACCAGATGG
    AAGCTTCTGC AGGTGGCCGT CGAGGACCGA GTCAGGCAGC TGCATGAAGC CCACAGGGAC
    TTTGGTCCAG CATCTCAGCA CTTTCTTTCC ACGTCTGTCC AGGGTCCCTG GGAGAGAGCC
    ATCTCGCCAA ACAAAGTGCC CTACTATATC AACCACGAGA CTCAAACAAC TTGCTGGGAC
    CATCCCAAAA TGACAGAGCT CTACCAGTCT TTAGCTGACC TGAATAATGT CAGATTCTCA
    GCTTATAGGA CTGCCATGAA ACTCCGAAGA CTGCAGAAGG CCCTTTGCTT GGATCTCTTG
    AGCCTGTCAG CTGCATGTGA TGCCTTGGAC CAGCACAACC TCAAGCAAAA TGACCAGCCC
    ATGGATATCC TGCAGATTAT TAATTGTTTG ACCACTATTT ATGACCGCCT GGAGCAAGAG
    CACAACAATT TGGTCAACGT CCCTCTCTGC GTGGATATGT GTCTGAACTG GCTGCTGAAT
    GTTTATGATA CGGGACGAAC AGGGAGGATC CGTGTCCTGT CTTTTAAAAC TGGCATCATT
    TCCCTGTGTA AAGCACATTT GGAAGACAAG TACAGATACC TTTTCAAGCA AGTGGCAAGT
    TCAACAGGAT TTTGTGACCA GCGCAGGCTG GGCCTCCTTC TGCATGATTC TATCCAAATT
    CCAAGACAGT TGGGTGAAGT TGCATCCTTT GGGGGCAGTA ACATTGAGCC AAGTGTCCGG
    AGCTGCTTCC AATTTGCTAA TAATAAGCCA GAGATCGAAG CGGCCCTCTT CCTAGACTGG
    ATGAGACTGG AACCCCAGTC CATGGTGTGG CTGCCCGTCC TGCACAGAGT GGCTGCTGCA
    GAAACTGCCA AGCATCAGGC CAAATGTAAC ATCTGCAAAG AGTGTCCAAT CATTGGATTC
    AGGTACAGGA GTCTAAAGCA CTTTAATTAT GACATCTGCC AAAGCTGCTT TTTTTCTGGT
    CGAGTTGCAA AAGGCCATAA AATGCACTAT CCCATGGTGG AATATTGCAC TCCGACTACA
    TCAGGAGAAG ATGTTCGAGA CTTTGCCAAG GTACTAAAAA ACAAATTTCG AACCAAAAGG
    TATTTTGCGA AGCATCCCCG AATGGGCTAC CTGCCAGTGC AGACTGTCTT AGAGGGGGAC
    AACATGGAAA CTCCCGTTAC TCTGATCAAC TTCTGGCCAG TAGATTCTGC GCCTGCCTCG
    TCCCCTCAGC TTTCACACGA TGATACTCAT TCACGCATTG AACATTATGC TAGCAGGCTA
    GCAGAAATGG AAAACAGCAA TGGATCTTAT CTAAATGATA GCATCTCTCC TAATGAGAGC
    ATAGATGATG AACATTTGTT AATCCAGCAT TACTGCCAAA GTTTGAACCA GGACTCCCCC
    CTGAGCCAGC CTCGTAGTCC TGCCCAGATC TTGATTTCCT TAGAGAGTGA GGAAAGAGGG
    GAGCTAGAGA GAATCCTAGC AGATCTTGAG GAAGAAAACA GGAATCTGCA AGCAGAATAT
    GACCGTCTAA AGCAGCAGCA CGAACATAAA GGCCTGTCCC CACTGCCGTC CCCTCCTGAA
    ATGATGCCCA CCTCTCCCCA GAGTCCCCGG GATGCTGAGC TCATTGCTGA GGCCAAGCTA
    CTGCGTCAAC ACAAAGGCCG CCTGGAAGCC AGGATGCAAA TCCTGGAAGA CCACAATAAA
    CAGCTGGAGT CACAGTTACA CAGGCTAAGG CAGCTGCTGG AGCAACCCCA GGCAGAGGCC
    AAAGTGAATG GCACAACGGT GTCCTCTCCT TCTACCTCTC TACAGAGGTC CGACAGCAGT
    CAGCCTATGC TGCTCCGAGT GGTTGGCAGT CAAACTTCGG ACTCCATGGG TGAGGAAGAT
    CTTCTCAGTC CTCCCCAGGA CACAAGCACA GGGTTAGAGG AGGTGATGGA GCAACTCAAC
    AACTCCTTCC CTAGTTCAAG AGGAAGAAAT ACCCCTGGAA AGCCAATGAG AGAGGACACA
    ATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004003.1
    CDS198..7223
    Translation

    Target ORF information:

    RefSeq Version NM_004012.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp260-2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004012.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    ATGAGTGCCA GGAAGCTGCG AAATCTGTCT TACAAAAAGG CTGTAAGGAG GCAAAAGTTG 
    CTTGAACAGA GCATCCAGTC TGCCCAGGAG ACTGAAAAAT CCTTACACTT AATCCAGGAG
    TCCCTCACAT TCATTGACAA GCAGTTGGCA GCTTATATTG CAGACAAGGT GGACGCAGCT
    CAAATGCCTC AGGAAGCCCA GAAAATCCAA TCTGATTTGA CAAGTCATGA GATCAGTTTA
    GAAGAAATGA AGAAACATAA TCAGGGGAAG GAGGCTGCCC AAAGAGTCCT GTCTCAGATT
    GATGTTGCAC AGAAAAAATT ACAAGATGTC TCCATGAAGT TTCGATTATT CCAGAAACCA
    GCCAATTTTG AGCAGCGTCT ACAAGAAAGT AAGATGATTT TAGATGAAGT GAAGATGCAC
    TTGCCTGCAT TGGAAACAAA GAGTGTGGAA CAGGAAGTAG TACAGTCACA GCTAAATCAT
    TGTGTGAACT TGTATAAAAG TCTGAGTGAA GTGAAGTCTG AAGTGGAAAT GGTGATAAAG
    ACTGGACGTC AGATTGTACA GAAAAAGCAG ACGGAAAATC CCAAAGAACT TGATGAAAGA
    GTAACAGCTT TGAAATTGCA TTATAATGAG CTGGGAGCAA AGGTAACAGA AAGAAAGCAA
    CAGTTGGAGA AATGCTTGAA ATTGTCCCGT AAGATGCGAA AGGAAATGAA TGTCTTGACA
    GAATGGCTGG CAGCTACAGA TATGGAATTG ACAAAGAGAT CAGCAGTTGA AGGAATGCCT
    AGTAATTTGG ATTCTGAAGT TGCCTGGGGA AAGGCTACTC AAAAAGAGAT TGAGAAACAG
    AAGGTGCACC TGAAGAGTAT CACAGAGGTA GGAGAGGCCT TGAAAACAGT TTTGGGCAAG
    AAGGAGACGT TGGTGGAAGA TAAACTCAGT CTTCTGAATA GTAACTGGAT AGCTGTCACC
    TCCCGAGCAG AAGAGTGGTT AAATCTTTTG TTGGAATACC AGAAACACAT GGAAACTTTT
    GACCAGAATG TGGACCACAT CACAAAGTGG ATCATTCAGG CTGACACACT TTTGGATGAA
    TCAGAGAAAA AGAAACCCCA GCAAAAAGAA GACGTGCTTA AGCGTTTAAA GGCAGAACTG
    AATGACATAC GCCCAAAGGT GGACTCTACA CGTGACCAAG CAGCAAACTT GATGGCAAAC
    CGCGGTGACC ACTGCAGGAA ATTAGTAGAG CCCCAAATCT CAGAGCTCAA CCATCGATTT
    GCAGCCATTT CACACAGAAT TAAGACTGGA AAGGCCTCCA TTCCTTTGAA GGAATTGGAG
    CAGTTTAACT CAGATATACA AAAATTGCTT GAACCACTGG AGGCTGAAAT TCAGCAGGGG
    GTGAATCTGA AAGAGGAAGA CTTCAATAAA GATATGAATG AAGACAATGA GGGTACTGTA
    AAAGAATTGT TGCAAAGAGG AGACAACTTA CAACAAAGAA TCACAGATGA GAGAAAGCGA
    GAGGAAATAA AGATAAAACA GCAGCTGTTA CAGACAAAAC ATAATGCTCT CAAGGATTTG
    AGGTCTCAAA GAAGAAAAAA GGCTCTAGAA ATTTCTCATC AGTGGTATCA GTACAAGAGG
    CAGGCTGATG ATCTCCTGAA ATGCTTGGAT GACATTGAAA AAAAATTAGC CAGCCTACCT
    GAGCCCAGAG ATGAAAGGAA AATAAAGGAA ATTGATCGGG AATTGCAGAA GAAGAAAGAG
    GAGCTGAATG CAGTGCGTAG GCAAGCTGAG GGCTTGTCTG AGGATGGGGC CGCAATGGCA
    GTGGAGCCAA CTCAGATCCA GCTCAGCAAG CGCTGGCGGG AAATTGAGAG CAAATTTGCT
    CAGTTTCGAA GACTCAACTT TGCACAAATT CACACTGTCC GTGAAGAAAC GATGATGGTG
    ATGACTGAAG ACATGCCTTT GGAAATTTCT TATGTGCCTT CTACTTATTT GACTGAAATC
    ACTCATGTCT CACAAGCCCT ATTAGAAGTG GAACAACTTC TCAATGCTCC TGACCTCTGT
    GCTAAGGACT TTGAAGATCT CTTTAAGCAA GAGGAGTCTC TGAAGAATAT AAAAGATAGT
    CTACAACAAA GCTCAGGTCG GATTGACATT ATTCATAGCA AGAAGACAGC AGCATTGCAA
    AGTGCAACGC CTGTGGAAAG GGTGAAGCTA CAGGAAGCTC TCTCCCAGCT TGATTTCCAA
    TGGGAAAAAG TTAACAAAAT GTACAAGGAC CGACAAGGGC GATTTGACAG ATCTGTTGAG
    AAATGGCGGC GTTTTCATTA TGATATAAAG ATATTTAATC AGTGGCTAAC AGAAGCTGAA
    CAGTTTCTCA GAAAGACACA AATTCCTGAG AATTGGGAAC ATGCTAAATA CAAATGGTAT
    CTTAAGGAAC TCCAGGATGG CATTGGGCAG CGGCAAACTG TTGTCAGAAC ATTGAATGCA
    ACTGGGGAAG AAATAATTCA GCAATCCTCA AAAACAGATG CCAGTATTCT ACAGGAAAAA
    TTGGGAAGCC TGAATCTGCG GTGGCAGGAG GTCTGCAAAC AGCTGTCAGA CAGAAAAAAG
    AGGCTAGAAG AACAAAAGAA TATCTTGTCA GAATTTCAAA GAGATTTAAA TGAATTTGTT
    TTATGGTTGG AGGAAGCAGA TAACATTGCT AGTATCCCAC TTGAACCTGG AAAAGAGCAG
    CAACTAAAAG AAAAGCTTGA GCAAGTCAAG TTACTGGTGG AAGAGTTGCC CCTGCGCCAG
    GGAATTCTCA AACAATTAAA TGAAACTGGA GGACCCGTGC TTGTAAGTGC TCCCATAAGC
    CCAGAAGAGC AAGATAAACT TGAAAATAAG CTCAAGCAGA CAAATCTCCA GTGGATAAAG
    GTTTCCAGAG CTTTACCTGA GAAACAAGGA GAAATTGAAG CTCAAATAAA AGACCTTGGG
    CAGCTTGAAA AAAAGCTTGA AGACCTTGAA GAGCAGTTAA ATCATCTGCT GCTGTGGTTA
    TCTCCTATTA GGAATCAGTT GGAAATTTAT AACCAACCAA ACCAAGAAGG ACCATTTGAC
    GTTCAGGAAA CTGAAATAGC AGTTCAAGCT AAACAACCGG ATGTGGAAGA GATTTTGTCT
    AAAGGGCAGC ATTTGTACAA GGAAAAACCA GCCACTCAGC CAGTGAAGAG GAAGTTAGAA
    GATCTGAGCT CTGAGTGGAA GGCGGTAAAC CGTTTACTTC AAGAGCTGAG GGCAAAGCAG
    CCTGACCTAG CTCCTGGACT GACCACTATT GGAGCCTCTC CTACTCAGAC TGTTACTCTG
    GTGACACAAC CTGTGGTTAC TAAGGAAACT GCCATCTCCA AACTAGAAAT GCCATCTTCC
    TTGATGTTGG AGGTACCTGC TCTGGCAGAT TTCAACCGGG CTTGGACAGA ACTTACCGAC
    TGGCTTTCTC TGCTTGATCA AGTTATAAAA TCACAGAGGG TGATGGTGGG TGACCTTGAG
    GATATCAACG AGATGATCAT CAAGCAGAAG GCAACAATGC AGGATTTGGA ACAGAGGCGT
    CCCCAGTTGG AAGAACTCAT TACCGCTGCC CAAAATTTGA AAAACAAGAC CAGCAATCAA
    GAGGCTAGAA CAATCATTAC GGATCGAATT GAAAGAATTC AGAATCAGTG GGATGAAGTA
    CAAGAACACC TTCAGAACCG GAGGCAACAG TTGAATGAAA TGTTAAAGGA TTCAACACAA
    TGGCTGGAAG CTAAGGAAGA AGCTGAGCAG GTCTTAGGAC AGGCCAGAGC CAAGCTTGAG
    TCATGGAAGG AGGGTCCCTA TACAGTAGAT GCAATCCAAA AGAAAATCAC AGAAACCAAG
    CAGTTGGCCA AAGACCTCCG CCAGTGGCAG ACAAATGTAG ATGTGGCAAA TGACTTGGCC
    CTGAAACTTC TCCGGGATTA TTCTGCAGAT GATACCAGAA AAGTCCACAT GATAACAGAG
    AATATCAATG CCTCTTGGAG AAGCATTCAT AAAAGGGTGA GTGAGCGAGA GGCTGCTTTG
    GAAGAAACTC ATAGATTACT GCAACAGTTC CCCCTGGACC TGGAAAAGTT TCTTGCCTGG
    CTTACAGAAG CTGAAACAAC TGCCAATGTC CTACAGGATG CTACCCGTAA GGAAAGGCTC
    CTAGAAGACT CCAAGGGAGT AAAAGAGCTG ATGAAACAAT GGCAAGACCT CCAAGGTGAA
    ATTGAAGCTC ACACAGATGT TTATCACAAC CTGGATGAAA ACAGCCAAAA AATCCTGAGA
    TCCCTGGAAG GTTCCGATGA TGCAGTCCTG TTACAAAGAC GTTTGGATAA CATGAACTTC
    AAGTGGAGTG AACTTCGGAA AAAGTCTCTC AACATTAGGT CCCATTTGGA AGCCAGTTCT
    GACCAGTGGA AGCGTCTGCA CCTTTCTCTG CAGGAACTTC TGGTGTGGCT ACAGCTGAAA
    GATGATGAAT TAAGCCGGCA GGCACCTATT GGAGGCGACT TTCCAGCAGT TCAGAAGCAG
    AACGATGTAC ATAGGGCCTT CAAGAGGGAA TTGAAAACTA AAGAACCTGT AATCATGAGT
    ACTCTTGAGA CTGTACGAAT ATTTCTGACA GAGCAGCCTT TGGAAGGACT AGAGAAACTC
    TACCAGGAGC CCAGAGAGCT GCCTCCTGAG GAGAGAGCCC AGAATGTCAC TCGGCTTCTA
    CGAAAGCAGG CTGAGGAGGT CAATACTGAG TGGGAAAAAT TGAACCTGCA CTCCGCTGAC
    TGGCAGAGAA AAATAGATGA GACCCTTGAA AGACTCCAGG AACTTCAAGA GGCCACGGAT
    GAGCTGGACC TCAAGCTGCG CCAAGCTGAG GTGATCAAGG GATCCTGGCA GCCCGTGGGC
    GATCTCCTCA TTGACTCTCT CCAAGATCAC CTCGAGAAAG TCAAGGCACT TCGAGGAGAA
    ATTGCGCCTC TGAAAGAGAA CGTGAGCCAC GTCAATGACC TTGCTCGCCA GCTTACCACT
    TTGGGCATTC AGCTCTCACC GTATAACCTC AGCACTCTGG AAGACCTGAA CACCAGATGG
    AAGCTTCTGC AGGTGGCCGT CGAGGACCGA GTCAGGCAGC TGCATGAAGC CCACAGGGAC
    TTTGGTCCAG CATCTCAGCA CTTTCTTTCC ACGTCTGTCC AGGGTCCCTG GGAGAGAGCC
    ATCTCGCCAA ACAAAGTGCC CTACTATATC AACCACGAGA CTCAAACAAC TTGCTGGGAC
    CATCCCAAAA TGACAGAGCT CTACCAGTCT TTAGCTGACC TGAATAATGT CAGATTCTCA
    GCTTATAGGA CTGCCATGAA ACTCCGAAGA CTGCAGAAGG CCCTTTGCTT GGATCTCTTG
    AGCCTGTCAG CTGCATGTGA TGCCTTGGAC CAGCACAACC TCAAGCAAAA TGACCAGCCC
    ATGGATATCC TGCAGATTAT TAATTGTTTG ACCACTATTT ATGACCGCCT GGAGCAAGAG
    CACAACAATT TGGTCAACGT CCCTCTCTGC GTGGATATGT GTCTGAACTG GCTGCTGAAT
    GTTTATGATA CGGGACGAAC AGGGAGGATC CGTGTCCTGT CTTTTAAAAC TGGCATCATT
    TCCCTGTGTA AAGCACATTT GGAAGACAAG TACAGATACC TTTTCAAGCA AGTGGCAAGT
    TCAACAGGAT TTTGTGACCA GCGCAGGCTG GGCCTCCTTC TGCATGATTC TATCCAAATT
    CCAAGACAGT TGGGTGAAGT TGCATCCTTT GGGGGCAGTA ACATTGAGCC AAGTGTCCGG
    AGCTGCTTCC AATTTGCTAA TAATAAGCCA GAGATCGAAG CGGCCCTCTT CCTAGACTGG
    ATGAGACTGG AACCCCAGTC CATGGTGTGG CTGCCCGTCC TGCACAGAGT GGCTGCTGCA
    GAAACTGCCA AGCATCAGGC CAAATGTAAC ATCTGCAAAG AGTGTCCAAT CATTGGATTC
    AGGTACAGGA GTCTAAAGCA CTTTAATTAT GACATCTGCC AAAGCTGCTT TTTTTCTGGT
    CGAGTTGCAA AAGGCCATAA AATGCACTAT CCCATGGTGG AATATTGCAC TCCGACTACA
    TCAGGAGAAG ATGTTCGAGA CTTTGCCAAG GTACTAAAAA ACAAATTTCG AACCAAAAGG
    TATTTTGCGA AGCATCCCCG AATGGGCTAC CTGCCAGTGC AGACTGTCTT AGAGGGGGAC
    AACATGGAAA CTCCCGTTAC TCTGATCAAC TTCTGGCCAG TAGATTCTGC GCCTGCCTCG
    TCCCCTCAGC TTTCACACGA TGATACTCAT TCACGCATTG AACATTATGC TAGCAGGCTA
    GCAGAAATGG AAAACAGCAA TGGATCTTAT CTAAATGATA GCATCTCTCC TAATGAGAGC
    ATAGATGATG AACATTTGTT AATCCAGCAT TACTGCCAAA GTTTGAACCA GGACTCCCCC
    CTGAGCCAGC CTCGTAGTCC TGCCCAGATC TTGATTTCCT TAGAGAGTGA GGAAAGAGGG
    GAGCTAGAGA GAATCCTAGC AGATCTTGAG GAAGAAAACA GGAATCTGCA AGCAGAATAT
    GACCGTCTAA AGCAGCAGCA CGAACATAAA GGCCTGTCCC CACTGCCGTC CCCTCCTGAA
    ATGATGCCCA CCTCTCCCCA GAGTCCCCGG GATGCTGAGC TCATTGCTGA GGCCAAGCTA
    CTGCGTCAAC ACAAAGGCCG CCTGGAAGCC AGGATGCAAA TCCTGGAAGA CCACAATAAA
    CAGCTGGAGT CACAGTTACA CAGGCTAAGG CAGCTGCTGG AGCAACCCCA GGCAGAGGCC
    AAAGTGAATG GCACAACGGT GTCCTCTCCT TCTACCTCTC TACAGAGGTC CGACAGCAGT
    CAGCCTATGC TGCTCCGAGT GGTTGGCAGT CAAACTTCGG ACTCCATGGG TGAGGAAGAT
    CTTCTCAGTC CTCCCCAGGA CACAAGCACA GGGTTAGAGG AGGTGATGGA GCAACTCAAC
    AACTCCTTCC CTAGTTCAAG AGGAAGAAAT ACCCCTGGAA AGCCAATGAG AGAGGACACA
    ATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu27491
    Clone ID Related Accession (Same CDS sequence) NM_004011.3
    Accession Version NM_004011.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 7035bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-21
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp260-1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL109609.5, M18533.1 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004011.2. Transcript Variant: transcript Dp260-1 uses exons 30-79, and originates from a promoter/exon 1 sequence located in intron 29 of the dystrophin gene. As a result, Dp260-1 contains a 95 bp exon 1 encoding a unique N-terminal 16 aa MTEIILLIFFPAYFLN-sequence that replaces amino acids 1-1357 of the full-length dystrophin product (Dp427m isoform). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    ATGACTGAGA TGATTTTGCT AATTTTTTTT CCAGCCTATT TCCTTAATGC TGTAAGGAGG 
    CAAAAGTTGC TTGAACAGAG CATCCAGTCT GCCCAGGAGA CTGAAAAATC CTTACACTTA
    ATCCAGGAGT CCCTCACATT CATTGACAAG CAGTTGGCAG CTTATATTGC AGACAAGGTG
    GACGCAGCTC AAATGCCTCA GGAAGCCCAG AAAATCCAAT CTGATTTGAC AAGTCATGAG
    ATCAGTTTAG AAGAAATGAA GAAACATAAT CAGGGGAAGG AGGCTGCCCA AAGAGTCCTG
    TCTCAGATTG ATGTTGCACA GAAAAAATTA CAAGATGTCT CCATGAAGTT TCGATTATTC
    CAGAAACCAG CCAATTTTGA GCAGCGTCTA CAAGAAAGTA AGATGATTTT AGATGAAGTG
    AAGATGCACT TGCCTGCATT GGAAACAAAG AGTGTGGAAC AGGAAGTAGT ACAGTCACAG
    CTAAATCATT GTGTGAACTT GTATAAAAGT CTGAGTGAAG TGAAGTCTGA AGTGGAAATG
    GTGATAAAGA CTGGACGTCA GATTGTACAG AAAAAGCAGA CGGAAAATCC CAAAGAACTT
    GATGAAAGAG TAACAGCTTT GAAATTGCAT TATAATGAGC TGGGAGCAAA GGTAACAGAA
    AGAAAGCAAC AGTTGGAGAA ATGCTTGAAA TTGTCCCGTA AGATGCGAAA GGAAATGAAT
    GTCTTGACAG AATGGCTGGC AGCTACAGAT ATGGAATTGA CAAAGAGATC AGCAGTTGAA
    GGAATGCCTA GTAATTTGGA TTCTGAAGTT GCCTGGGGAA AGGCTACTCA AAAAGAGATT
    GAGAAACAGA AGGTGCACCT GAAGAGTATC ACAGAGGTAG GAGAGGCCTT GAAAACAGTT
    TTGGGCAAGA AGGAGACGTT GGTGGAAGAT AAACTCAGTC TTCTGAATAG TAACTGGATA
    GCTGTCACCT CCCGAGCAGA AGAGTGGTTA AATCTTTTGT TGGAATACCA GAAACACATG
    GAAACTTTTG ACCAGAATGT GGACCACATC ACAAAGTGGA TCATTCAGGC TGACACACTT
    TTGGATGAAT CAGAGAAAAA GAAACCCCAG CAAAAAGAAG ACGTGCTTAA GCGTTTAAAG
    GCAGAACTGA ATGACATACG CCCAAAGGTG GACTCTACAC GTGACCAAGC AGCAAACTTG
    ATGGCAAACC GCGGTGACCA CTGCAGGAAA TTAGTAGAGC CCCAAATCTC AGAGCTCAAC
    CATCGATTTG CAGCCATTTC ACACAGAATT AAGACTGGAA AGGCCTCCAT TCCTTTGAAG
    GAATTGGAGC AGTTTAACTC AGATATACAA AAATTGCTTG AACCACTGGA GGCTGAAATT
    CAGCAGGGGG TGAATCTGAA AGAGGAAGAC TTCAATAAAG ATATGAATGA AGACAATGAG
    GGTACTGTAA AAGAATTGTT GCAAAGAGGA GACAACTTAC AACAAAGAAT CACAGATGAG
    AGAAAGCGAG AGGAAATAAA GATAAAACAG CAGCTGTTAC AGACAAAACA TAATGCTCTC
    AAGGATTTGA GGTCTCAAAG AAGAAAAAAG GCTCTAGAAA TTTCTCATCA GTGGTATCAG
    TACAAGAGGC AGGCTGATGA TCTCCTGAAA TGCTTGGATG ACATTGAAAA AAAATTAGCC
    AGCCTACCTG AGCCCAGAGA TGAAAGGAAA ATAAAGGAAA TTGATCGGGA ATTGCAGAAG
    AAGAAAGAGG AGCTGAATGC AGTGCGTAGG CAAGCTGAGG GCTTGTCTGA GGATGGGGCC
    GCAATGGCAG TGGAGCCAAC TCAGATCCAG CTCAGCAAGC GCTGGCGGGA AATTGAGAGC
    AAATTTGCTC AGTTTCGAAG ACTCAACTTT GCACAAATTC ACACTGTCCG TGAAGAAACG
    ATGATGGTGA TGACTGAAGA CATGCCTTTG GAAATTTCTT ATGTGCCTTC TACTTATTTG
    ACTGAAATCA CTCATGTCTC ACAAGCCCTA TTAGAAGTGG AACAACTTCT CAATGCTCCT
    GACCTCTGTG CTAAGGACTT TGAAGATCTC TTTAAGCAAG AGGAGTCTCT GAAGAATATA
    AAAGATAGTC TACAACAAAG CTCAGGTCGG ATTGACATTA TTCATAGCAA GAAGACAGCA
    GCATTGCAAA GTGCAACGCC TGTGGAAAGG GTGAAGCTAC AGGAAGCTCT CTCCCAGCTT
    GATTTCCAAT GGGAAAAAGT TAACAAAATG TACAAGGACC GACAAGGGCG ATTTGACAGA
    TCTGTTGAGA AATGGCGGCG TTTTCATTAT GATATAAAGA TATTTAATCA GTGGCTAACA
    GAAGCTGAAC AGTTTCTCAG AAAGACACAA ATTCCTGAGA ATTGGGAACA TGCTAAATAC
    AAATGGTATC TTAAGGAACT CCAGGATGGC ATTGGGCAGC GGCAAACTGT TGTCAGAACA
    TTGAATGCAA CTGGGGAAGA AATAATTCAG CAATCCTCAA AAACAGATGC CAGTATTCTA
    CAGGAAAAAT TGGGAAGCCT GAATCTGCGG TGGCAGGAGG TCTGCAAACA GCTGTCAGAC
    AGAAAAAAGA GGCTAGAAGA ACAAAAGAAT ATCTTGTCAG AATTTCAAAG AGATTTAAAT
    GAATTTGTTT TATGGTTGGA GGAAGCAGAT AACATTGCTA GTATCCCACT TGAACCTGGA
    AAAGAGCAGC AACTAAAAGA AAAGCTTGAG CAAGTCAAGT TACTGGTGGA AGAGTTGCCC
    CTGCGCCAGG GAATTCTCAA ACAATTAAAT GAAACTGGAG GACCCGTGCT TGTAAGTGCT
    CCCATAAGCC CAGAAGAGCA AGATAAACTT GAAAATAAGC TCAAGCAGAC AAATCTCCAG
    TGGATAAAGG TTTCCAGAGC TTTACCTGAG AAACAAGGAG AAATTGAAGC TCAAATAAAA
    GACCTTGGGC AGCTTGAAAA AAAGCTTGAA GACCTTGAAG AGCAGTTAAA TCATCTGCTG
    CTGTGGTTAT CTCCTATTAG GAATCAGTTG GAAATTTATA ACCAACCAAA CCAAGAAGGA
    CCATTTGACG TTCAGGAAAC TGAAATAGCA GTTCAAGCTA AACAACCGGA TGTGGAAGAG
    ATTTTGTCTA AAGGGCAGCA TTTGTACAAG GAAAAACCAG CCACTCAGCC AGTGAAGAGG
    AAGTTAGAAG ATCTGAGCTC TGAGTGGAAG GCGGTAAACC GTTTACTTCA AGAGCTGAGG
    GCAAAGCAGC CTGACCTAGC TCCTGGACTG ACCACTATTG GAGCCTCTCC TACTCAGACT
    GTTACTCTGG TGACACAACC TGTGGTTACT AAGGAAACTG CCATCTCCAA ACTAGAAATG
    CCATCTTCCT TGATGTTGGA GGTACCTGCT CTGGCAGATT TCAACCGGGC TTGGACAGAA
    CTTACCGACT GGCTTTCTCT GCTTGATCAA GTTATAAAAT CACAGAGGGT GATGGTGGGT
    GACCTTGAGG ATATCAACGA GATGATCATC AAGCAGAAGG CAACAATGCA GGATTTGGAA
    CAGAGGCGTC CCCAGTTGGA AGAACTCATT ACCGCTGCCC AAAATTTGAA AAACAAGACC
    AGCAATCAAG AGGCTAGAAC AATCATTACG GATCGAATTG AAAGAATTCA GAATCAGTGG
    GATGAAGTAC AAGAACACCT TCAGAACCGG AGGCAACAGT TGAATGAAAT GTTAAAGGAT
    TCAACACAAT GGCTGGAAGC TAAGGAAGAA GCTGAGCAGG TCTTAGGACA GGCCAGAGCC
    AAGCTTGAGT CATGGAAGGA GGGTCCCTAT ACAGTAGATG CAATCCAAAA GAAAATCACA
    GAAACCAAGC AGTTGGCCAA AGACCTCCGC CAGTGGCAGA CAAATGTAGA TGTGGCAAAT
    GACTTGGCCC TGAAACTTCT CCGGGATTAT TCTGCAGATG ATACCAGAAA AGTCCACATG
    ATAACAGAGA ATATCAATGC CTCTTGGAGA AGCATTCATA AAAGGGTGAG TGAGCGAGAG
    GCTGCTTTGG AAGAAACTCA TAGATTACTG CAACAGTTCC CCCTGGACCT GGAAAAGTTT
    CTTGCCTGGC TTACAGAAGC TGAAACAACT GCCAATGTCC TACAGGATGC TACCCGTAAG
    GAAAGGCTCC TAGAAGACTC CAAGGGAGTA AAAGAGCTGA TGAAACAATG GCAAGACCTC
    CAAGGTGAAA TTGAAGCTCA CACAGATGTT TATCACAACC TGGATGAAAA CAGCCAAAAA
    ATCCTGAGAT CCCTGGAAGG TTCCGATGAT GCAGTCCTGT TACAAAGACG TTTGGATAAC
    ATGAACTTCA AGTGGAGTGA ACTTCGGAAA AAGTCTCTCA ACATTAGGTC CCATTTGGAA
    GCCAGTTCTG ACCAGTGGAA GCGTCTGCAC CTTTCTCTGC AGGAACTTCT GGTGTGGCTA
    CAGCTGAAAG ATGATGAATT AAGCCGGCAG GCACCTATTG GAGGCGACTT TCCAGCAGTT
    CAGAAGCAGA ACGATGTACA TAGGGCCTTC AAGAGGGAAT TGAAAACTAA AGAACCTGTA
    ATCATGAGTA CTCTTGAGAC TGTACGAATA TTTCTGACAG AGCAGCCTTT GGAAGGACTA
    GAGAAACTCT ACCAGGAGCC CAGAGAGCTG CCTCCTGAGG AGAGAGCCCA GAATGTCACT
    CGGCTTCTAC GAAAGCAGGC TGAGGAGGTC AATACTGAGT GGGAAAAATT GAACCTGCAC
    TCCGCTGACT GGCAGAGAAA AATAGATGAG ACCCTTGAAA GACTCCAGGA ACTTCAAGAG
    GCCACGGATG AGCTGGACCT CAAGCTGCGC CAAGCTGAGG TGATCAAGGG ATCCTGGCAG
    CCCGTGGGCG ATCTCCTCAT TGACTCTCTC CAAGATCACC TCGAGAAAGT CAAGGCACTT
    CGAGGAGAAA TTGCGCCTCT GAAAGAGAAC GTGAGCCACG TCAATGACCT TGCTCGCCAG
    CTTACCACTT TGGGCATTCA GCTCTCACCG TATAACCTCA GCACTCTGGA AGACCTGAAC
    ACCAGATGGA AGCTTCTGCA GGTGGCCGTC GAGGACCGAG TCAGGCAGCT GCATGAAGCC
    CACAGGGACT TTGGTCCAGC ATCTCAGCAC TTTCTTTCCA CGTCTGTCCA GGGTCCCTGG
    GAGAGAGCCA TCTCGCCAAA CAAAGTGCCC TACTATATCA ACCACGAGAC TCAAACAACT
    TGCTGGGACC ATCCCAAAAT GACAGAGCTC TACCAGTCTT TAGCTGACCT GAATAATGTC
    AGATTCTCAG CTTATAGGAC TGCCATGAAA CTCCGAAGAC TGCAGAAGGC CCTTTGCTTG
    GATCTCTTGA GCCTGTCAGC TGCATGTGAT GCCTTGGACC AGCACAACCT CAAGCAAAAT
    GACCAGCCCA TGGATATCCT GCAGATTATT AATTGTTTGA CCACTATTTA TGACCGCCTG
    GAGCAAGAGC ACAACAATTT GGTCAACGTC CCTCTCTGCG TGGATATGTG TCTGAACTGG
    CTGCTGAATG TTTATGATAC GGGACGAACA GGGAGGATCC GTGTCCTGTC TTTTAAAACT
    GGCATCATTT CCCTGTGTAA AGCACATTTG GAAGACAAGT ACAGATACCT TTTCAAGCAA
    GTGGCAAGTT CAACAGGATT TTGTGACCAG CGCAGGCTGG GCCTCCTTCT GCATGATTCT
    ATCCAAATTC CAAGACAGTT GGGTGAAGTT GCATCCTTTG GGGGCAGTAA CATTGAGCCA
    AGTGTCCGGA GCTGCTTCCA ATTTGCTAAT AATAAGCCAG AGATCGAAGC GGCCCTCTTC
    CTAGACTGGA TGAGACTGGA ACCCCAGTCC ATGGTGTGGC TGCCCGTCCT GCACAGAGTG
    GCTGCTGCAG AAACTGCCAA GCATCAGGCC AAATGTAACA TCTGCAAAGA GTGTCCAATC
    ATTGGATTCA GGTACAGGAG TCTAAAGCAC TTTAATTATG ACATCTGCCA AAGCTGCTTT
    TTTTCTGGTC GAGTTGCAAA AGGCCATAAA ATGCACTATC CCATGGTGGA ATATTGCACT
    CCGACTACAT CAGGAGAAGA TGTTCGAGAC TTTGCCAAGG TACTAAAAAA CAAATTTCGA
    ACCAAAAGGT ATTTTGCGAA GCATCCCCGA ATGGGCTACC TGCCAGTGCA GACTGTCTTA
    GAGGGGGACA ACATGGAAAC TCCCGTTACT CTGATCAACT TCTGGCCAGT AGATTCTGCG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGAAGAAATA CCCCTGGAAA GCCAATGAGA
    GAGGACACAA TGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004002.2
    CDS46..7080
    Translation

    Target ORF information:

    RefSeq Version NM_004011.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp260-1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004011.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    ATGACTGAGA TGATTTTGCT AATTTTTTTT CCAGCCTATT TCCTTAATGC TGTAAGGAGG 
    CAAAAGTTGC TTGAACAGAG CATCCAGTCT GCCCAGGAGA CTGAAAAATC CTTACACTTA
    ATCCAGGAGT CCCTCACATT CATTGACAAG CAGTTGGCAG CTTATATTGC AGACAAGGTG
    GACGCAGCTC AAATGCCTCA GGAAGCCCAG AAAATCCAAT CTGATTTGAC AAGTCATGAG
    ATCAGTTTAG AAGAAATGAA GAAACATAAT CAGGGGAAGG AGGCTGCCCA AAGAGTCCTG
    TCTCAGATTG ATGTTGCACA GAAAAAATTA CAAGATGTCT CCATGAAGTT TCGATTATTC
    CAGAAACCAG CCAATTTTGA GCAGCGTCTA CAAGAAAGTA AGATGATTTT AGATGAAGTG
    AAGATGCACT TGCCTGCATT GGAAACAAAG AGTGTGGAAC AGGAAGTAGT ACAGTCACAG
    CTAAATCATT GTGTGAACTT GTATAAAAGT CTGAGTGAAG TGAAGTCTGA AGTGGAAATG
    GTGATAAAGA CTGGACGTCA GATTGTACAG AAAAAGCAGA CGGAAAATCC CAAAGAACTT
    GATGAAAGAG TAACAGCTTT GAAATTGCAT TATAATGAGC TGGGAGCAAA GGTAACAGAA
    AGAAAGCAAC AGTTGGAGAA ATGCTTGAAA TTGTCCCGTA AGATGCGAAA GGAAATGAAT
    GTCTTGACAG AATGGCTGGC AGCTACAGAT ATGGAATTGA CAAAGAGATC AGCAGTTGAA
    GGAATGCCTA GTAATTTGGA TTCTGAAGTT GCCTGGGGAA AGGCTACTCA AAAAGAGATT
    GAGAAACAGA AGGTGCACCT GAAGAGTATC ACAGAGGTAG GAGAGGCCTT GAAAACAGTT
    TTGGGCAAGA AGGAGACGTT GGTGGAAGAT AAACTCAGTC TTCTGAATAG TAACTGGATA
    GCTGTCACCT CCCGAGCAGA AGAGTGGTTA AATCTTTTGT TGGAATACCA GAAACACATG
    GAAACTTTTG ACCAGAATGT GGACCACATC ACAAAGTGGA TCATTCAGGC TGACACACTT
    TTGGATGAAT CAGAGAAAAA GAAACCCCAG CAAAAAGAAG ACGTGCTTAA GCGTTTAAAG
    GCAGAACTGA ATGACATACG CCCAAAGGTG GACTCTACAC GTGACCAAGC AGCAAACTTG
    ATGGCAAACC GCGGTGACCA CTGCAGGAAA TTAGTAGAGC CCCAAATCTC AGAGCTCAAC
    CATCGATTTG CAGCCATTTC ACACAGAATT AAGACTGGAA AGGCCTCCAT TCCTTTGAAG
    GAATTGGAGC AGTTTAACTC AGATATACAA AAATTGCTTG AACCACTGGA GGCTGAAATT
    CAGCAGGGGG TGAATCTGAA AGAGGAAGAC TTCAATAAAG ATATGAATGA AGACAATGAG
    GGTACTGTAA AAGAATTGTT GCAAAGAGGA GACAACTTAC AACAAAGAAT CACAGATGAG
    AGAAAGCGAG AGGAAATAAA GATAAAACAG CAGCTGTTAC AGACAAAACA TAATGCTCTC
    AAGGATTTGA GGTCTCAAAG AAGAAAAAAG GCTCTAGAAA TTTCTCATCA GTGGTATCAG
    TACAAGAGGC AGGCTGATGA TCTCCTGAAA TGCTTGGATG ACATTGAAAA AAAATTAGCC
    AGCCTACCTG AGCCCAGAGA TGAAAGGAAA ATAAAGGAAA TTGATCGGGA ATTGCAGAAG
    AAGAAAGAGG AGCTGAATGC AGTGCGTAGG CAAGCTGAGG GCTTGTCTGA GGATGGGGCC
    GCAATGGCAG TGGAGCCAAC TCAGATCCAG CTCAGCAAGC GCTGGCGGGA AATTGAGAGC
    AAATTTGCTC AGTTTCGAAG ACTCAACTTT GCACAAATTC ACACTGTCCG TGAAGAAACG
    ATGATGGTGA TGACTGAAGA CATGCCTTTG GAAATTTCTT ATGTGCCTTC TACTTATTTG
    ACTGAAATCA CTCATGTCTC ACAAGCCCTA TTAGAAGTGG AACAACTTCT CAATGCTCCT
    GACCTCTGTG CTAAGGACTT TGAAGATCTC TTTAAGCAAG AGGAGTCTCT GAAGAATATA
    AAAGATAGTC TACAACAAAG CTCAGGTCGG ATTGACATTA TTCATAGCAA GAAGACAGCA
    GCATTGCAAA GTGCAACGCC TGTGGAAAGG GTGAAGCTAC AGGAAGCTCT CTCCCAGCTT
    GATTTCCAAT GGGAAAAAGT TAACAAAATG TACAAGGACC GACAAGGGCG ATTTGACAGA
    TCTGTTGAGA AATGGCGGCG TTTTCATTAT GATATAAAGA TATTTAATCA GTGGCTAACA
    GAAGCTGAAC AGTTTCTCAG AAAGACACAA ATTCCTGAGA ATTGGGAACA TGCTAAATAC
    AAATGGTATC TTAAGGAACT CCAGGATGGC ATTGGGCAGC GGCAAACTGT TGTCAGAACA
    TTGAATGCAA CTGGGGAAGA AATAATTCAG CAATCCTCAA AAACAGATGC CAGTATTCTA
    CAGGAAAAAT TGGGAAGCCT GAATCTGCGG TGGCAGGAGG TCTGCAAACA GCTGTCAGAC
    AGAAAAAAGA GGCTAGAAGA ACAAAAGAAT ATCTTGTCAG AATTTCAAAG AGATTTAAAT
    GAATTTGTTT TATGGTTGGA GGAAGCAGAT AACATTGCTA GTATCCCACT TGAACCTGGA
    AAAGAGCAGC AACTAAAAGA AAAGCTTGAG CAAGTCAAGT TACTGGTGGA AGAGTTGCCC
    CTGCGCCAGG GAATTCTCAA ACAATTAAAT GAAACTGGAG GACCCGTGCT TGTAAGTGCT
    CCCATAAGCC CAGAAGAGCA AGATAAACTT GAAAATAAGC TCAAGCAGAC AAATCTCCAG
    TGGATAAAGG TTTCCAGAGC TTTACCTGAG AAACAAGGAG AAATTGAAGC TCAAATAAAA
    GACCTTGGGC AGCTTGAAAA AAAGCTTGAA GACCTTGAAG AGCAGTTAAA TCATCTGCTG
    CTGTGGTTAT CTCCTATTAG GAATCAGTTG GAAATTTATA ACCAACCAAA CCAAGAAGGA
    CCATTTGACG TTCAGGAAAC TGAAATAGCA GTTCAAGCTA AACAACCGGA TGTGGAAGAG
    ATTTTGTCTA AAGGGCAGCA TTTGTACAAG GAAAAACCAG CCACTCAGCC AGTGAAGAGG
    AAGTTAGAAG ATCTGAGCTC TGAGTGGAAG GCGGTAAACC GTTTACTTCA AGAGCTGAGG
    GCAAAGCAGC CTGACCTAGC TCCTGGACTG ACCACTATTG GAGCCTCTCC TACTCAGACT
    GTTACTCTGG TGACACAACC TGTGGTTACT AAGGAAACTG CCATCTCCAA ACTAGAAATG
    CCATCTTCCT TGATGTTGGA GGTACCTGCT CTGGCAGATT TCAACCGGGC TTGGACAGAA
    CTTACCGACT GGCTTTCTCT GCTTGATCAA GTTATAAAAT CACAGAGGGT GATGGTGGGT
    GACCTTGAGG ATATCAACGA GATGATCATC AAGCAGAAGG CAACAATGCA GGATTTGGAA
    CAGAGGCGTC CCCAGTTGGA AGAACTCATT ACCGCTGCCC AAAATTTGAA AAACAAGACC
    AGCAATCAAG AGGCTAGAAC AATCATTACG GATCGAATTG AAAGAATTCA GAATCAGTGG
    GATGAAGTAC AAGAACACCT TCAGAACCGG AGGCAACAGT TGAATGAAAT GTTAAAGGAT
    TCAACACAAT GGCTGGAAGC TAAGGAAGAA GCTGAGCAGG TCTTAGGACA GGCCAGAGCC
    AAGCTTGAGT CATGGAAGGA GGGTCCCTAT ACAGTAGATG CAATCCAAAA GAAAATCACA
    GAAACCAAGC AGTTGGCCAA AGACCTCCGC CAGTGGCAGA CAAATGTAGA TGTGGCAAAT
    GACTTGGCCC TGAAACTTCT CCGGGATTAT TCTGCAGATG ATACCAGAAA AGTCCACATG
    ATAACAGAGA ATATCAATGC CTCTTGGAGA AGCATTCATA AAAGGGTGAG TGAGCGAGAG
    GCTGCTTTGG AAGAAACTCA TAGATTACTG CAACAGTTCC CCCTGGACCT GGAAAAGTTT
    CTTGCCTGGC TTACAGAAGC TGAAACAACT GCCAATGTCC TACAGGATGC TACCCGTAAG
    GAAAGGCTCC TAGAAGACTC CAAGGGAGTA AAAGAGCTGA TGAAACAATG GCAAGACCTC
    CAAGGTGAAA TTGAAGCTCA CACAGATGTT TATCACAACC TGGATGAAAA CAGCCAAAAA
    ATCCTGAGAT CCCTGGAAGG TTCCGATGAT GCAGTCCTGT TACAAAGACG TTTGGATAAC
    ATGAACTTCA AGTGGAGTGA ACTTCGGAAA AAGTCTCTCA ACATTAGGTC CCATTTGGAA
    GCCAGTTCTG ACCAGTGGAA GCGTCTGCAC CTTTCTCTGC AGGAACTTCT GGTGTGGCTA
    CAGCTGAAAG ATGATGAATT AAGCCGGCAG GCACCTATTG GAGGCGACTT TCCAGCAGTT
    CAGAAGCAGA ACGATGTACA TAGGGCCTTC AAGAGGGAAT TGAAAACTAA AGAACCTGTA
    ATCATGAGTA CTCTTGAGAC TGTACGAATA TTTCTGACAG AGCAGCCTTT GGAAGGACTA
    GAGAAACTCT ACCAGGAGCC CAGAGAGCTG CCTCCTGAGG AGAGAGCCCA GAATGTCACT
    CGGCTTCTAC GAAAGCAGGC TGAGGAGGTC AATACTGAGT GGGAAAAATT GAACCTGCAC
    TCCGCTGACT GGCAGAGAAA AATAGATGAG ACCCTTGAAA GACTCCAGGA ACTTCAAGAG
    GCCACGGATG AGCTGGACCT CAAGCTGCGC CAAGCTGAGG TGATCAAGGG ATCCTGGCAG
    CCCGTGGGCG ATCTCCTCAT TGACTCTCTC CAAGATCACC TCGAGAAAGT CAAGGCACTT
    CGAGGAGAAA TTGCGCCTCT GAAAGAGAAC GTGAGCCACG TCAATGACCT TGCTCGCCAG
    CTTACCACTT TGGGCATTCA GCTCTCACCG TATAACCTCA GCACTCTGGA AGACCTGAAC
    ACCAGATGGA AGCTTCTGCA GGTGGCCGTC GAGGACCGAG TCAGGCAGCT GCATGAAGCC
    CACAGGGACT TTGGTCCAGC ATCTCAGCAC TTTCTTTCCA CGTCTGTCCA GGGTCCCTGG
    GAGAGAGCCA TCTCGCCAAA CAAAGTGCCC TACTATATCA ACCACGAGAC TCAAACAACT
    TGCTGGGACC ATCCCAAAAT GACAGAGCTC TACCAGTCTT TAGCTGACCT GAATAATGTC
    AGATTCTCAG CTTATAGGAC TGCCATGAAA CTCCGAAGAC TGCAGAAGGC CCTTTGCTTG
    GATCTCTTGA GCCTGTCAGC TGCATGTGAT GCCTTGGACC AGCACAACCT CAAGCAAAAT
    GACCAGCCCA TGGATATCCT GCAGATTATT AATTGTTTGA CCACTATTTA TGACCGCCTG
    GAGCAAGAGC ACAACAATTT GGTCAACGTC CCTCTCTGCG TGGATATGTG TCTGAACTGG
    CTGCTGAATG TTTATGATAC GGGACGAACA GGGAGGATCC GTGTCCTGTC TTTTAAAACT
    GGCATCATTT CCCTGTGTAA AGCACATTTG GAAGACAAGT ACAGATACCT TTTCAAGCAA
    GTGGCAAGTT CAACAGGATT TTGTGACCAG CGCAGGCTGG GCCTCCTTCT GCATGATTCT
    ATCCAAATTC CAAGACAGTT GGGTGAAGTT GCATCCTTTG GGGGCAGTAA CATTGAGCCA
    AGTGTCCGGA GCTGCTTCCA ATTTGCTAAT AATAAGCCAG AGATCGAAGC GGCCCTCTTC
    CTAGACTGGA TGAGACTGGA ACCCCAGTCC ATGGTGTGGC TGCCCGTCCT GCACAGAGTG
    GCTGCTGCAG AAACTGCCAA GCATCAGGCC AAATGTAACA TCTGCAAAGA GTGTCCAATC
    ATTGGATTCA GGTACAGGAG TCTAAAGCAC TTTAATTATG ACATCTGCCA AAGCTGCTTT
    TTTTCTGGTC GAGTTGCAAA AGGCCATAAA ATGCACTATC CCATGGTGGA ATATTGCACT
    CCGACTACAT CAGGAGAAGA TGTTCGAGAC TTTGCCAAGG TACTAAAAAA CAAATTTCGA
    ACCAAAAGGT ATTTTGCGAA GCATCCCCGA ATGGGCTACC TGCCAGTGCA GACTGTCTTA
    GAGGGGGACA ACATGGAAAC TCCCGTTACT CTGATCAACT TCTGGCCAGT AGATTCTGCG
    CCTGCCTCGT CCCCTCAGCT TTCACACGAT GATACTCATT CACGCATTGA ACATTATGCT
    AGCAGGCTAG CAGAAATGGA AAACAGCAAT GGATCTTATC TAAATGATAG CATCTCTCCT
    AATGAGAGCA TAGATGATGA ACATTTGTTA ATCCAGCATT ACTGCCAAAG TTTGAACCAG
    GACTCCCCCC TGAGCCAGCC TCGTAGTCCT GCCCAGATCT TGATTTCCTT AGAGAGTGAG
    GAAAGAGGGG AGCTAGAGAG AATCCTAGCA GATCTTGAGG AAGAAAACAG GAATCTGCAA
    GCAGAATATG ACCGTCTAAA GCAGCAGCAC GAACATAAAG GCCTGTCCCC ACTGCCGTCC
    CCTCCTGAAA TGATGCCCAC CTCTCCCCAG AGTCCCCGGG ATGCTGAGCT CATTGCTGAG
    GCCAAGCTAC TGCGTCAACA CAAAGGCCGC CTGGAAGCCA GGATGCAAAT CCTGGAAGAC
    CACAATAAAC AGCTGGAGTC ACAGTTACAC AGGCTAAGGC AGCTGCTGGA GCAACCCCAG
    GCAGAGGCCA AAGTGAATGG CACAACGGTG TCCTCTCCTT CTACCTCTCT ACAGAGGTCC
    GACAGCAGTC AGCCTATGCT GCTCCGAGTG GTTGGCAGTC AAACTTCGGA CTCCATGGGT
    GAGGAAGATC TTCTCAGTCC TCCCCAGGAC ACAAGCACAG GGTTAGAGGA GGTGATGGAG
    CAACTCAACA ACTCCTTCCC TAGTTCAAGA GGAAGAAATA CCCCTGGAAA GCCAATGAGA
    GAGGACACAA TGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu108338
    Clone ID Related Accession (Same CDS sequence) NM_000109.4
    Accession Version NM_000109.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 11034bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp427c
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL050305.9, AL451144.5, AL096699.11, AC004468.1, AL031542.1, AL109609.5, AL139278.12, AC096506.5, AC093193.11, AC079864.22, AC093167.11, AC079175.24, AC079177.21, AC090632.13, AC078958.30, AC079143.17 and AC006061.1. On Jun 2, 2019 this sequence version replaced NM_000109.3. Transcript Variant: transcript Dp427c is expressed predominantly in neurons of the cortex and the CA regions of the hippocampus. It uses a unique promoter/exon 1 located about 130 kb upstream of the Dp427m transcript promoter. The transcript includes the common exon 2 of transcript Dp427m and has a similar length of 14 kb. The Dp427c isoform contains a unique N-terminal MED sequence, instead of the MLWWEEVEDCY sequence of isoform Dp427m. The remainder of isoform Dp427c is identical to isoform Dp427m. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

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    ATGGAAGATG AAAGAGAAGA TGTTCAAAAG AAAACATTCA CAAAATGGGT AAATGCACAA 
    TTTTCTAAGT TTGGGAAGCA GCATATTGAG AACCTCTTCA GTGACCTACA GGATGGGAGG
    CGCCTCCTAG ACCTCCTCGA AGGCCTGACA GGGCAAAAAC TGCCAAAAGA AAAAGGATCC
    ACAAGAGTTC ATGCCCTGAA CAATGTCAAC AAGGCACTGC GGGTTTTGCA GAACAATAAT
    GTTGATTTAG TGAATATTGG AAGTACTGAC ATCGTAGATG GAAATCATAA ACTGACTCTT
    GGTTTGATTT GGAATATAAT CCTCCACTGG CAGGTCAAAA ATGTAATGAA AAATATCATG
    GCTGGATTGC AACAAACCAA CAGTGAAAAG ATTCTCCTGA GCTGGGTCCG ACAATCAACT
    CGTAATTATC CACAGGTTAA TGTAATCAAC TTCACCACCA GCTGGTCTGA TGGCCTGGCT
    TTGAATGCTC TCATCCATAG TCATAGGCCA GACCTATTTG ACTGGAATAG TGTGGTTTGC
    CAGCAGTCAG CCACACAACG ACTGGAACAT GCATTCAACA TCGCCAGATA TCAATTAGGC
    ATAGAGAAAC TACTCGATCC TGAAGATGTT GATACCACCT ATCCAGATAA GAAGTCCATC
    TTAATGTACA TCACATCACT CTTCCAAGTT TTGCCTCAAC AAGTGAGCAT TGAAGCCATC
    CAGGAAGTGG AAATGTTGCC AAGGCCACCT AAAGTGACTA AAGAAGAACA TTTTCAGTTA
    CATCATCAAA TGCACTATTC TCAACAGATC ACGGTCAGTC TAGCACAGGG ATATGAGAGA
    ACTTCTTCCC CTAAGCCTCG ATTCAAGAGC TATGCCTACA CACAGGCTGC TTATGTCACC
    ACCTCTGACC CTACACGGAG CCCATTTCCT TCACAGCATT TGGAAGCTCC TGAAGACAAG
    TCATTTGGCA GTTCATTGAT GGAGAGTGAA GTAAACCTGG ACCGTTATCA AACAGCTTTA
    GAAGAAGTAT TATCGTGGCT TCTTTCTGCT GAGGACACAT TGCAAGCACA AGGAGAGATT
    TCTAATGATG TGGAAGTGGT GAAAGACCAG TTTCATACTC ATGAGGGGTA CATGATGGAT
    TTGACAGCCC ATCAGGGCCG GGTTGGTAAT ATTCTACAAT TGGGAAGTAA GCTGATTGGA
    ACAGGAAAAT TATCAGAAGA TGAAGAAACT GAAGTACAAG AGCAGATGAA TCTCCTAAAT
    TCAAGATGGG AATGCCTCAG GGTAGCTAGC ATGGAAAAAC AAAGCAATTT ACATAGAGTT
    TTAATGGATC TCCAGAATCA GAAACTGAAA GAGTTGAATG ACTGGCTAAC AAAAACAGAA
    GAAAGAACAA GGAAAATGGA GGAAGAGCCT CTTGGACCTG ATCTTGAAGA CCTAAAACGC
    CAAGTACAAC AACATAAGGT GCTTCAAGAA GATCTAGAAC AAGAACAAGT CAGGGTCAAT
    TCTCTCACTC ACATGGTGGT GGTAGTTGAT GAATCTAGTG GAGATCACGC AACTGCTGCT
    TTGGAAGAAC AACTTAAGGT ATTGGGAGAT CGATGGGCAA ACATCTGTAG ATGGACAGAA
    GACCGCTGGG TTCTTTTACA AGACATCCTT CTCAAATGGC AACGTCTTAC TGAAGAACAG
    TGCCTTTTTA GTGCATGGCT TTCAGAAAAA GAAGATGCAG TGAACAAGAT TCACACAACT
    GGCTTTAAAG ATCAAAATGA AATGTTATCA AGTCTTCAAA AACTGGCCGT TTTAAAAGCG
    GATCTAGAAA AGAAAAAGCA ATCCATGGGC AAACTGTATT CACTCAAACA AGATCTTCTT
    TCAACACTGA AGAATAAGTC AGTGACCCAG AAGACGGAAG CATGGCTGGA TAACTTTGCC
    CGGTGTTGGG ATAATTTAGT CCAAAAACTT GAAAAGAGTA CAGCACAGAT TTCACAGGCT
    GTCACCACCA CTCAGCCATC ACTAACACAG ACAACTGTAA TGGAAACAGT AACTACGGTG
    ACCACAAGGG AACAGATCCT GGTAAAGCAT GCTCAAGAGG AACTTCCACC ACCACCTCCC
    CAAAAGAAGA GGCAGATTAC TGTGGATTCT GAAATTAGGA AAAGGTTGGA TGTTGATATA
    ACTGAACTTC ACAGCTGGAT TACTCGCTCA GAAGCTGTGT TGCAGAGTCC TGAATTTGCA
    ATCTTTCGGA AGGAAGGCAA CTTCTCAGAC TTAAAAGAAA AAGTCAATGC CATAGAGCGA
    GAAAAAGCTG AGAAGTTCAG AAAACTGCAA GATGCCAGCA GATCAGCTCA GGCCCTGGTG
    GAACAGATGG TGAATGAGGG TGTTAATGCA GATAGCATCA AACAAGCCTC AGAACAACTG
    AACAGCCGGT GGATCGAATT CTGCCAGTTG CTAAGTGAGA GACTTAACTG GCTGGAGTAT
    CAGAACAACA TCATCGCTTT CTATAATCAG CTACAACAAT TGGAGCAGAT GACAACTACT
    GCTGAAAACT GGTTGAAAAT CCAACCCACC ACCCCATCAG AGCCAACAGC AATTAAAAGT
    CAGTTAAAAA TTTGTAAGGA TGAAGTCAAC CGGCTATCAG ATCTTCAACC TCAAATTGAA
    CGATTAAAAA TTCAAAGCAT AGCCCTGAAA GAGAAAGGAC AAGGACCCAT GTTCCTGGAT
    GCAGACTTTG TGGCCTTTAC AAATCATTTT AAGCAAGTCT TTTCTGATGT GCAGGCCAGA
    GAGAAAGAGC TACAGACAAT TTTTGACACT TTGCCACCAA TGCGCTATCA GGAGACCATG
    AGTGCCATCA GGACATGGGT CCAGCAGTCA GAAACCAAAC TCTCCATACC TCAACTTAGT
    GTCACCGACT ATGAAATCAT GGAGCAGAGA CTCGGGGAAT TGCAGGCTTT ACAAAGTTCT
    CTGCAAGAGC AACAAAGTGG CCTATACTAT CTCAGCACCA CTGTGAAAGA GATGTCGAAG
    AAAGCGCCCT CTGAAATTAG CCGGAAATAT CAATCAGAAT TTGAAGAAAT TGAGGGACGC
    TGGAAGAAGC TCTCCTCCCA GCTGGTTGAG CATTGTCAAA AGCTAGAGGA GCAAATGAAT
    AAACTCCGAA AAATTCAGAA TCACATACAA ACCCTGAAGA AATGGATGGC TGAAGTTGAT
    GTTTTTCTGA AGGAGGAATG GCCTGCCCTT GGGGATTCAG AAATTCTAAA AAAGCAGCTG
    AAACAGTGCA GACTTTTAGT CAGTGATATT CAGACAATTC AGCCCAGTCT AAACAGTGTC
    AATGAAGGTG GGCAGAAGAT AAAGAATGAA GCAGAGCCAG AGTTTGCTTC GAGACTTGAG
    ACAGAACTCA AAGAACTTAA CACTCAGTGG GATCACATGT GCCAACAGGT CTATGCCAGA
    AAGGAGGCCT TGAAGGGAGG TTTGGAGAAA ACTGTAAGCC TCCAGAAAGA TCTATCAGAG
    ATGCACGAAT GGATGACACA AGCTGAAGAA GAGTATCTTG AGAGAGATTT TGAATATAAA
    ACTCCAGATG AATTACAGAA AGCAGTTGAA GAGATGAAGA GAGCTAAAGA AGAGGCCCAA
    CAAAAAGAAG CGAAAGTGAA ACTCCTTACT GAGTCTGTAA ATAGTGTCAT AGCTCAAGCT
    CCACCTGTAG CACAAGAGGC CTTAAAAAAG GAACTTGAAA CTCTAACCAC CAACTACCAG
    TGGCTCTGCA CTAGGCTGAA TGGGAAATGC AAGACTTTGG AAGAAGTTTG GGCATGTTGG
    CATGAGTTAT TGTCATACTT GGAGAAAGCA AACAAGTGGC TAAATGAAGT AGAATTTAAA
    CTTAAAACCA CTGAAAACAT TCCTGGCGGA GCTGAGGAAA TCTCTGAGGT GCTAGATTCA
    CTTGAAAATT TGATGCGACA TTCAGAGGAT AACCCAAATC AGATTCGCAT ATTGGCACAG
    ACCCTAACAG ATGGCGGAGT CATGGATGAG CTAATCAATG AGGAACTTGA GACATTTAAT
    TCTCGTTGGA GGGAACTACA TGAAGAGGCT GTAAGGAGGC AAAAGTTGCT TGAACAGAGC
    ATCCAGTCTG CCCAGGAGAC TGAAAAATCC TTACACTTAA TCCAGGAGTC CCTCACATTC
    ATTGACAAGC AGTTGGCAGC TTATATTGCA GACAAGGTGG ACGCAGCTCA AATGCCTCAG
    GAAGCCCAGA AAATCCAATC TGATTTGACA AGTCATGAGA TCAGTTTAGA AGAAATGAAG
    AAACATAATC AGGGGAAGGA GGCTGCCCAA AGAGTCCTGT CTCAGATTGA TGTTGCACAG
    AAAAAATTAC AAGATGTCTC CATGAAGTTT CGATTATTCC AGAAACCAGC CAATTTTGAG
    CAGCGTCTAC AAGAAAGTAA GATGATTTTA GATGAAGTGA AGATGCACTT GCCTGCATTG
    GAAACAAAGA GTGTGGAACA GGAAGTAGTA CAGTCACAGC TAAATCATTG TGTGAACTTG
    TATAAAAGTC TGAGTGAAGT GAAGTCTGAA GTGGAAATGG TGATAAAGAC TGGACGTCAG
    ATTGTACAGA AAAAGCAGAC GGAAAATCCC AAAGAACTTG ATGAAAGAGT AACAGCTTTG
    AAATTGCATT ATAATGAGCT GGGAGCAAAG GTAACAGAAA GAAAGCAACA GTTGGAGAAA
    TGCTTGAAAT TGTCCCGTAA GATGCGAAAG GAAATGAATG TCTTGACAGA ATGGCTGGCA
    GCTACAGATA TGGAATTGAC AAAGAGATCA GCAGTTGAAG GAATGCCTAG TAATTTGGAT
    TCTGAAGTTG CCTGGGGAAA GGCTACTCAA AAAGAGATTG AGAAACAGAA GGTGCACCTG
    AAGAGTATCA CAGAGGTAGG AGAGGCCTTG AAAACAGTTT TGGGCAAGAA GGAGACGTTG
    GTGGAAGATA AACTCAGTCT TCTGAATAGT AACTGGATAG CTGTCACCTC CCGAGCAGAA
    GAGTGGTTAA ATCTTTTGTT GGAATACCAG AAACACATGG AAACTTTTGA CCAGAATGTG
    GACCACATCA CAAAGTGGAT CATTCAGGCT GACACACTTT TGGATGAATC AGAGAAAAAG
    AAACCCCAGC AAAAAGAAGA CGTGCTTAAG CGTTTAAAGG CAGAACTGAA TGACATACGC
    CCAAAGGTGG ACTCTACACG TGACCAAGCA GCAAACTTGA TGGCAAACCG CGGTGACCAC
    TGCAGGAAAT TAGTAGAGCC CCAAATCTCA GAGCTCAACC ATCGATTTGC AGCCATTTCA
    CACAGAATTA AGACTGGAAA GGCCTCCATT CCTTTGAAGG AATTGGAGCA GTTTAACTCA
    GATATACAAA AATTGCTTGA ACCACTGGAG GCTGAAATTC AGCAGGGGGT GAATCTGAAA
    GAGGAAGACT TCAATAAAGA TATGAATGAA GACAATGAGG GTACTGTAAA AGAATTGTTG
    CAAAGAGGAG ACAACTTACA ACAAAGAATC ACAGATGAGA GAAAGCGAGA GGAAATAAAG
    ATAAAACAGC AGCTGTTACA GACAAAACAT AATGCTCTCA AGGATTTGAG GTCTCAAAGA
    AGAAAAAAGG CTCTAGAAAT TTCTCATCAG TGGTATCAGT ACAAGAGGCA GGCTGATGAT
    CTCCTGAAAT GCTTGGATGA CATTGAAAAA AAATTAGCCA GCCTACCTGA GCCCAGAGAT
    GAAAGGAAAA TAAAGGAAAT TGATCGGGAA TTGCAGAAGA AGAAAGAGGA GCTGAATGCA
    GTGCGTAGGC AAGCTGAGGG CTTGTCTGAG GATGGGGCCG CAATGGCAGT GGAGCCAACT
    CAGATCCAGC TCAGCAAGCG CTGGCGGGAA ATTGAGAGCA AATTTGCTCA GTTTCGAAGA
    CTCAACTTTG CACAAATTCA CACTGTCCGT GAAGAAACGA TGATGGTGAT GACTGAAGAC
    ATGCCTTTGG AAATTTCTTA TGTGCCTTCT ACTTATTTGA CTGAAATCAC TCATGTCTCA
    CAAGCCCTAT TAGAAGTGGA ACAACTTCTC AATGCTCCTG ACCTCTGTGC TAAGGACTTT
    GAAGATCTCT TTAAGCAAGA GGAGTCTCTG AAGAATATAA AAGATAGTCT ACAACAAAGC
    TCAGGTCGGA TTGACATTAT TCATAGCAAG AAGACAGCAG CATTGCAAAG TGCAACGCCT
    GTGGAAAGGG TGAAGCTACA GGAAGCTCTC TCCCAGCTTG ATTTCCAATG GGAAAAAGTT
    AACAAAATGT ACAAGGACCG ACAAGGGCGA TTTGACAGAT CTGTTGAGAA ATGGCGGCGT
    TTTCATTATG ATATAAAGAT ATTTAATCAG TGGCTAACAG AAGCTGAACA GTTTCTCAGA
    AAGACACAAA TTCCTGAGAA TTGGGAACAT GCTAAATACA AATGGTATCT TAAGGAACTC
    CAGGATGGCA TTGGGCAGCG GCAAACTGTT GTCAGAACAT TGAATGCAAC TGGGGAAGAA
    ATAATTCAGC AATCCTCAAA AACAGATGCC AGTATTCTAC AGGAAAAATT GGGAAGCCTG
    AATCTGCGGT GGCAGGAGGT CTGCAAACAG CTGTCAGACA GAAAAAAGAG GCTAGAAGAA
    CAAAAGAATA TCTTGTCAGA ATTTCAAAGA GATTTAAATG AATTTGTTTT ATGGTTGGAG
    GAAGCAGATA ACATTGCTAG TATCCCACTT GAACCTGGAA AAGAGCAGCA ACTAAAAGAA
    AAGCTTGAGC AAGTCAAGTT ACTGGTGGAA GAGTTGCCCC TGCGCCAGGG AATTCTCAAA
    CAATTAAATG AAACTGGAGG ACCCGTGCTT GTAAGTGCTC CCATAAGCCC AGAAGAGCAA
    GATAAACTTG AAAATAAGCT CAAGCAGACA AATCTCCAGT GGATAAAGGT TTCCAGAGCT
    TTACCTGAGA AACAAGGAGA AATTGAAGCT CAAATAAAAG ACCTTGGGCA GCTTGAAAAA
    AAGCTTGAAG ACCTTGAAGA GCAGTTAAAT CATCTGCTGC TGTGGTTATC TCCTATTAGG
    AATCAGTTGG AAATTTATAA CCAACCAAAC CAAGAAGGAC CATTTGACGT TAAGGAAACT
    GAAATAGCAG TTCAAGCTAA ACAACCGGAT GTGGAAGAGA TTTTGTCTAA AGGGCAGCAT
    TTGTACAAGG AAAAACCAGC CACTCAGCCA GTGAAGAGGA AGTTAGAAGA TCTGAGCTCT
    GAGTGGAAGG CGGTAAACCG TTTACTTCAA GAGCTGAGGG CAAAGCAGCC TGACCTAGCT
    CCTGGACTGA CCACTATTGG AGCCTCTCCT ACTCAGACTG TTACTCTGGT GACACAACCT
    GTGGTTACTA AGGAAACTGC CATCTCCAAA CTAGAAATGC CATCTTCCTT GATGTTGGAG
    GTACCTGCTC TGGCAGATTT CAACCGGGCT TGGACAGAAC TTACCGACTG GCTTTCTCTG
    CTTGATCAAG TTATAAAATC ACAGAGGGTG ATGGTGGGTG ACCTTGAGGA TATCAACGAG
    ATGATCATCA AGCAGAAGGC AACAATGCAG GATTTGGAAC AGAGGCGTCC CCAGTTGGAA
    GAACTCATTA CCGCTGCCCA AAATTTGAAA AACAAGACCA GCAATCAAGA GGCTAGAACA
    ATCATTACGG ATCGAATTGA AAGAATTCAG AATCAGTGGG ATGAAGTACA AGAACACCTT
    CAGAACCGGA GGCAACAGTT GAATGAAATG TTAAAGGATT CAACACAATG GCTGGAAGCT
    AAGGAAGAAG CTGAGCAGGT CTTAGGACAG GCCAGAGCCA AGCTTGAGTC ATGGAAGGAG
    GGTCCCTATA CAGTAGATGC AATCCAAAAG AAAATCACAG AAACCAAGCA GTTGGCCAAA
    GACCTCCGCC AGTGGCAGAC AAATGTAGAT GTGGCAAATG ACTTGGCCCT GAAACTTCTC
    CGGGATTATT CTGCAGATGA TACCAGAAAA GTCCACATGA TAACAGAGAA TATCAATGCC
    TCTTGGAGAA GCATTCATAA AAGGGTGAGT GAGCGAGAGG CTGCTTTGGA AGAAACTCAT
    AGATTACTGC AACAGTTCCC CCTGGACCTG GAAAAGTTTC TTGCCTGGCT TACAGAAGCT
    GAAACAACTG CCAATGTCCT ACAGGATGCT ACCCGTAAGG AAAGGCTCCT AGAAGACTCC
    AAGGGAGTAA AAGAGCTGAT GAAACAATGG CAAGACCTCC AAGGTGAAAT TGAAGCTCAC
    ACAGATGTTT ATCACAACCT GGATGAAAAC AGCCAAAAAA TCCTGAGATC CCTGGAAGGT
    TCCGATGATG CAGTCCTGTT ACAAAGACGT TTGGATAACA TGAACTTCAA GTGGAGTGAA
    CTTCGGAAAA AGTCTCTCAA CATTAGGTCC CATTTGGAAG CCAGTTCTGA CCAGTGGAAG
    CGTCTGCACC TTTCTCTGCA GGAACTTCTG GTGTGGCTAC AGCTGAAAGA TGATGAATTA
    AGCCGGCAGG CACCTATTGG AGGCGACTTT CCAGCAGTTC AGAAGCAGAA CGATGTACAT
    AGGGCCTTCA AGAGGGAATT GAAAACTAAA GAACCTGTAA TCATGAGTAC TCTTGAGACT
    GTACGAATAT TTCTGACAGA GCAGCCTTTG GAAGGACTAG AGAAACTCTA CCAGGAGCCC
    AGAGAGCTGC CTCCTGAGGA GAGAGCCCAG AATGTCACTC GGCTTCTACG AAAGCAGGCT
    GAGGAGGTCA ATACTGAGTG GGAAAAATTG AACCTGCACT CCGCTGACTG GCAGAGAAAA
    ATAGATGAGA CCCTTGAAAG ACTCCGGGAA CTTCAAGAGG CCACGGATGA GCTGGACCTC
    AAGCTGCGCC AAGCTGAGGT GATCAAGGGA TCCTGGCAGC CCGTGGGCGA TCTCCTCATT
    GACTCTCTCC AAGATCACCT CGAGAAAGTC AAGGCACTTC GAGGAGAAAT TGCGCCTCTG
    AAAGAGAACG TGAGCCACGT CAATGACCTT GCTCGCCAGC TTACCACTTT GGGCATTCAG
    CTCTCACCGT ATAACCTCAG CACTCTGGAA GACCTGAACA CCAGATGGAA GCTTCTGCAG
    GTGGCCGTCG AGGACCGAGT CAGGCAGCTG CATGAAGCCC ACAGGGACTT TGGTCCAGCA
    TCTCAGCACT TTCTTTCCAC GTCTGTCCAG GGTCCCTGGG AGAGAGCCAT CTCGCCAAAC
    AAAGTGCCCT ACTATATCAA CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GAAGAAATAC CCCTGGAAAG CCAATGAGAG AGGACACAAT GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_000100.3
    CDS124..11157
    Translation

    Target ORF information:

    RefSeq Version NM_000109.4
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp427c, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_000109.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    ATGGAAGATG AAAGAGAAGA TGTTCAAAAG AAAACATTCA CAAAATGGGT AAATGCACAA 
    TTTTCTAAGT TTGGGAAGCA GCATATTGAG AACCTCTTCA GTGACCTACA GGATGGGAGG
    CGCCTCCTAG ACCTCCTCGA AGGCCTGACA GGGCAAAAAC TGCCAAAAGA AAAAGGATCC
    ACAAGAGTTC ATGCCCTGAA CAATGTCAAC AAGGCACTGC GGGTTTTGCA GAACAATAAT
    GTTGATTTAG TGAATATTGG AAGTACTGAC ATCGTAGATG GAAATCATAA ACTGACTCTT
    GGTTTGATTT GGAATATAAT CCTCCACTGG CAGGTCAAAA ATGTAATGAA AAATATCATG
    GCTGGATTGC AACAAACCAA CAGTGAAAAG ATTCTCCTGA GCTGGGTCCG ACAATCAACT
    CGTAATTATC CACAGGTTAA TGTAATCAAC TTCACCACCA GCTGGTCTGA TGGCCTGGCT
    TTGAATGCTC TCATCCATAG TCATAGGCCA GACCTATTTG ACTGGAATAG TGTGGTTTGC
    CAGCAGTCAG CCACACAACG ACTGGAACAT GCATTCAACA TCGCCAGATA TCAATTAGGC
    ATAGAGAAAC TACTCGATCC TGAAGATGTT GATACCACCT ATCCAGATAA GAAGTCCATC
    TTAATGTACA TCACATCACT CTTCCAAGTT TTGCCTCAAC AAGTGAGCAT TGAAGCCATC
    CAGGAAGTGG AAATGTTGCC AAGGCCACCT AAAGTGACTA AAGAAGAACA TTTTCAGTTA
    CATCATCAAA TGCACTATTC TCAACAGATC ACGGTCAGTC TAGCACAGGG ATATGAGAGA
    ACTTCTTCCC CTAAGCCTCG ATTCAAGAGC TATGCCTACA CACAGGCTGC TTATGTCACC
    ACCTCTGACC CTACACGGAG CCCATTTCCT TCACAGCATT TGGAAGCTCC TGAAGACAAG
    TCATTTGGCA GTTCATTGAT GGAGAGTGAA GTAAACCTGG ACCGTTATCA AACAGCTTTA
    GAAGAAGTAT TATCGTGGCT TCTTTCTGCT GAGGACACAT TGCAAGCACA AGGAGAGATT
    TCTAATGATG TGGAAGTGGT GAAAGACCAG TTTCATACTC ATGAGGGGTA CATGATGGAT
    TTGACAGCCC ATCAGGGCCG GGTTGGTAAT ATTCTACAAT TGGGAAGTAA GCTGATTGGA
    ACAGGAAAAT TATCAGAAGA TGAAGAAACT GAAGTACAAG AGCAGATGAA TCTCCTAAAT
    TCAAGATGGG AATGCCTCAG GGTAGCTAGC ATGGAAAAAC AAAGCAATTT ACATAGAGTT
    TTAATGGATC TCCAGAATCA GAAACTGAAA GAGTTGAATG ACTGGCTAAC AAAAACAGAA
    GAAAGAACAA GGAAAATGGA GGAAGAGCCT CTTGGACCTG ATCTTGAAGA CCTAAAACGC
    CAAGTACAAC AACATAAGGT GCTTCAAGAA GATCTAGAAC AAGAACAAGT CAGGGTCAAT
    TCTCTCACTC ACATGGTGGT GGTAGTTGAT GAATCTAGTG GAGATCACGC AACTGCTGCT
    TTGGAAGAAC AACTTAAGGT ATTGGGAGAT CGATGGGCAA ACATCTGTAG ATGGACAGAA
    GACCGCTGGG TTCTTTTACA AGACATCCTT CTCAAATGGC AACGTCTTAC TGAAGAACAG
    TGCCTTTTTA GTGCATGGCT TTCAGAAAAA GAAGATGCAG TGAACAAGAT TCACACAACT
    GGCTTTAAAG ATCAAAATGA AATGTTATCA AGTCTTCAAA AACTGGCCGT TTTAAAAGCG
    GATCTAGAAA AGAAAAAGCA ATCCATGGGC AAACTGTATT CACTCAAACA AGATCTTCTT
    TCAACACTGA AGAATAAGTC AGTGACCCAG AAGACGGAAG CATGGCTGGA TAACTTTGCC
    CGGTGTTGGG ATAATTTAGT CCAAAAACTT GAAAAGAGTA CAGCACAGAT TTCACAGGCT
    GTCACCACCA CTCAGCCATC ACTAACACAG ACAACTGTAA TGGAAACAGT AACTACGGTG
    ACCACAAGGG AACAGATCCT GGTAAAGCAT GCTCAAGAGG AACTTCCACC ACCACCTCCC
    CAAAAGAAGA GGCAGATTAC TGTGGATTCT GAAATTAGGA AAAGGTTGGA TGTTGATATA
    ACTGAACTTC ACAGCTGGAT TACTCGCTCA GAAGCTGTGT TGCAGAGTCC TGAATTTGCA
    ATCTTTCGGA AGGAAGGCAA CTTCTCAGAC TTAAAAGAAA AAGTCAATGC CATAGAGCGA
    GAAAAAGCTG AGAAGTTCAG AAAACTGCAA GATGCCAGCA GATCAGCTCA GGCCCTGGTG
    GAACAGATGG TGAATGAGGG TGTTAATGCA GATAGCATCA AACAAGCCTC AGAACAACTG
    AACAGCCGGT GGATCGAATT CTGCCAGTTG CTAAGTGAGA GACTTAACTG GCTGGAGTAT
    CAGAACAACA TCATCGCTTT CTATAATCAG CTACAACAAT TGGAGCAGAT GACAACTACT
    GCTGAAAACT GGTTGAAAAT CCAACCCACC ACCCCATCAG AGCCAACAGC AATTAAAAGT
    CAGTTAAAAA TTTGTAAGGA TGAAGTCAAC CGGCTATCAG ATCTTCAACC TCAAATTGAA
    CGATTAAAAA TTCAAAGCAT AGCCCTGAAA GAGAAAGGAC AAGGACCCAT GTTCCTGGAT
    GCAGACTTTG TGGCCTTTAC AAATCATTTT AAGCAAGTCT TTTCTGATGT GCAGGCCAGA
    GAGAAAGAGC TACAGACAAT TTTTGACACT TTGCCACCAA TGCGCTATCA GGAGACCATG
    AGTGCCATCA GGACATGGGT CCAGCAGTCA GAAACCAAAC TCTCCATACC TCAACTTAGT
    GTCACCGACT ATGAAATCAT GGAGCAGAGA CTCGGGGAAT TGCAGGCTTT ACAAAGTTCT
    CTGCAAGAGC AACAAAGTGG CCTATACTAT CTCAGCACCA CTGTGAAAGA GATGTCGAAG
    AAAGCGCCCT CTGAAATTAG CCGGAAATAT CAATCAGAAT TTGAAGAAAT TGAGGGACGC
    TGGAAGAAGC TCTCCTCCCA GCTGGTTGAG CATTGTCAAA AGCTAGAGGA GCAAATGAAT
    AAACTCCGAA AAATTCAGAA TCACATACAA ACCCTGAAGA AATGGATGGC TGAAGTTGAT
    GTTTTTCTGA AGGAGGAATG GCCTGCCCTT GGGGATTCAG AAATTCTAAA AAAGCAGCTG
    AAACAGTGCA GACTTTTAGT CAGTGATATT CAGACAATTC AGCCCAGTCT AAACAGTGTC
    AATGAAGGTG GGCAGAAGAT AAAGAATGAA GCAGAGCCAG AGTTTGCTTC GAGACTTGAG
    ACAGAACTCA AAGAACTTAA CACTCAGTGG GATCACATGT GCCAACAGGT CTATGCCAGA
    AAGGAGGCCT TGAAGGGAGG TTTGGAGAAA ACTGTAAGCC TCCAGAAAGA TCTATCAGAG
    ATGCACGAAT GGATGACACA AGCTGAAGAA GAGTATCTTG AGAGAGATTT TGAATATAAA
    ACTCCAGATG AATTACAGAA AGCAGTTGAA GAGATGAAGA GAGCTAAAGA AGAGGCCCAA
    CAAAAAGAAG CGAAAGTGAA ACTCCTTACT GAGTCTGTAA ATAGTGTCAT AGCTCAAGCT
    CCACCTGTAG CACAAGAGGC CTTAAAAAAG GAACTTGAAA CTCTAACCAC CAACTACCAG
    TGGCTCTGCA CTAGGCTGAA TGGGAAATGC AAGACTTTGG AAGAAGTTTG GGCATGTTGG
    CATGAGTTAT TGTCATACTT GGAGAAAGCA AACAAGTGGC TAAATGAAGT AGAATTTAAA
    CTTAAAACCA CTGAAAACAT TCCTGGCGGA GCTGAGGAAA TCTCTGAGGT GCTAGATTCA
    CTTGAAAATT TGATGCGACA TTCAGAGGAT AACCCAAATC AGATTCGCAT ATTGGCACAG
    ACCCTAACAG ATGGCGGAGT CATGGATGAG CTAATCAATG AGGAACTTGA GACATTTAAT
    TCTCGTTGGA GGGAACTACA TGAAGAGGCT GTAAGGAGGC AAAAGTTGCT TGAACAGAGC
    ATCCAGTCTG CCCAGGAGAC TGAAAAATCC TTACACTTAA TCCAGGAGTC CCTCACATTC
    ATTGACAAGC AGTTGGCAGC TTATATTGCA GACAAGGTGG ACGCAGCTCA AATGCCTCAG
    GAAGCCCAGA AAATCCAATC TGATTTGACA AGTCATGAGA TCAGTTTAGA AGAAATGAAG
    AAACATAATC AGGGGAAGGA GGCTGCCCAA AGAGTCCTGT CTCAGATTGA TGTTGCACAG
    AAAAAATTAC AAGATGTCTC CATGAAGTTT CGATTATTCC AGAAACCAGC CAATTTTGAG
    CAGCGTCTAC AAGAAAGTAA GATGATTTTA GATGAAGTGA AGATGCACTT GCCTGCATTG
    GAAACAAAGA GTGTGGAACA GGAAGTAGTA CAGTCACAGC TAAATCATTG TGTGAACTTG
    TATAAAAGTC TGAGTGAAGT GAAGTCTGAA GTGGAAATGG TGATAAAGAC TGGACGTCAG
    ATTGTACAGA AAAAGCAGAC GGAAAATCCC AAAGAACTTG ATGAAAGAGT AACAGCTTTG
    AAATTGCATT ATAATGAGCT GGGAGCAAAG GTAACAGAAA GAAAGCAACA GTTGGAGAAA
    TGCTTGAAAT TGTCCCGTAA GATGCGAAAG GAAATGAATG TCTTGACAGA ATGGCTGGCA
    GCTACAGATA TGGAATTGAC AAAGAGATCA GCAGTTGAAG GAATGCCTAG TAATTTGGAT
    TCTGAAGTTG CCTGGGGAAA GGCTACTCAA AAAGAGATTG AGAAACAGAA GGTGCACCTG
    AAGAGTATCA CAGAGGTAGG AGAGGCCTTG AAAACAGTTT TGGGCAAGAA GGAGACGTTG
    GTGGAAGATA AACTCAGTCT TCTGAATAGT AACTGGATAG CTGTCACCTC CCGAGCAGAA
    GAGTGGTTAA ATCTTTTGTT GGAATACCAG AAACACATGG AAACTTTTGA CCAGAATGTG
    GACCACATCA CAAAGTGGAT CATTCAGGCT GACACACTTT TGGATGAATC AGAGAAAAAG
    AAACCCCAGC AAAAAGAAGA CGTGCTTAAG CGTTTAAAGG CAGAACTGAA TGACATACGC
    CCAAAGGTGG ACTCTACACG TGACCAAGCA GCAAACTTGA TGGCAAACCG CGGTGACCAC
    TGCAGGAAAT TAGTAGAGCC CCAAATCTCA GAGCTCAACC ATCGATTTGC AGCCATTTCA
    CACAGAATTA AGACTGGAAA GGCCTCCATT CCTTTGAAGG AATTGGAGCA GTTTAACTCA
    GATATACAAA AATTGCTTGA ACCACTGGAG GCTGAAATTC AGCAGGGGGT GAATCTGAAA
    GAGGAAGACT TCAATAAAGA TATGAATGAA GACAATGAGG GTACTGTAAA AGAATTGTTG
    CAAAGAGGAG ACAACTTACA ACAAAGAATC ACAGATGAGA GAAAGCGAGA GGAAATAAAG
    ATAAAACAGC AGCTGTTACA GACAAAACAT AATGCTCTCA AGGATTTGAG GTCTCAAAGA
    AGAAAAAAGG CTCTAGAAAT TTCTCATCAG TGGTATCAGT ACAAGAGGCA GGCTGATGAT
    CTCCTGAAAT GCTTGGATGA CATTGAAAAA AAATTAGCCA GCCTACCTGA GCCCAGAGAT
    GAAAGGAAAA TAAAGGAAAT TGATCGGGAA TTGCAGAAGA AGAAAGAGGA GCTGAATGCA
    GTGCGTAGGC AAGCTGAGGG CTTGTCTGAG GATGGGGCCG CAATGGCAGT GGAGCCAACT
    CAGATCCAGC TCAGCAAGCG CTGGCGGGAA ATTGAGAGCA AATTTGCTCA GTTTCGAAGA
    CTCAACTTTG CACAAATTCA CACTGTCCGT GAAGAAACGA TGATGGTGAT GACTGAAGAC
    ATGCCTTTGG AAATTTCTTA TGTGCCTTCT ACTTATTTGA CTGAAATCAC TCATGTCTCA
    CAAGCCCTAT TAGAAGTGGA ACAACTTCTC AATGCTCCTG ACCTCTGTGC TAAGGACTTT
    GAAGATCTCT TTAAGCAAGA GGAGTCTCTG AAGAATATAA AAGATAGTCT ACAACAAAGC
    TCAGGTCGGA TTGACATTAT TCATAGCAAG AAGACAGCAG CATTGCAAAG TGCAACGCCT
    GTGGAAAGGG TGAAGCTACA GGAAGCTCTC TCCCAGCTTG ATTTCCAATG GGAAAAAGTT
    AACAAAATGT ACAAGGACCG ACAAGGGCGA TTTGACAGAT CTGTTGAGAA ATGGCGGCGT
    TTTCATTATG ATATAAAGAT ATTTAATCAG TGGCTAACAG AAGCTGAACA GTTTCTCAGA
    AAGACACAAA TTCCTGAGAA TTGGGAACAT GCTAAATACA AATGGTATCT TAAGGAACTC
    CAGGATGGCA TTGGGCAGCG GCAAACTGTT GTCAGAACAT TGAATGCAAC TGGGGAAGAA
    ATAATTCAGC AATCCTCAAA AACAGATGCC AGTATTCTAC AGGAAAAATT GGGAAGCCTG
    AATCTGCGGT GGCAGGAGGT CTGCAAACAG CTGTCAGACA GAAAAAAGAG GCTAGAAGAA
    CAAAAGAATA TCTTGTCAGA ATTTCAAAGA GATTTAAATG AATTTGTTTT ATGGTTGGAG
    GAAGCAGATA ACATTGCTAG TATCCCACTT GAACCTGGAA AAGAGCAGCA ACTAAAAGAA
    AAGCTTGAGC AAGTCAAGTT ACTGGTGGAA GAGTTGCCCC TGCGCCAGGG AATTCTCAAA
    CAATTAAATG AAACTGGAGG ACCCGTGCTT GTAAGTGCTC CCATAAGCCC AGAAGAGCAA
    GATAAACTTG AAAATAAGCT CAAGCAGACA AATCTCCAGT GGATAAAGGT TTCCAGAGCT
    TTACCTGAGA AACAAGGAGA AATTGAAGCT CAAATAAAAG ACCTTGGGCA GCTTGAAAAA
    AAGCTTGAAG ACCTTGAAGA GCAGTTAAAT CATCTGCTGC TGTGGTTATC TCCTATTAGG
    AATCAGTTGG AAATTTATAA CCAACCAAAC CAAGAAGGAC CATTTGACGT TAAGGAAACT
    GAAATAGCAG TTCAAGCTAA ACAACCGGAT GTGGAAGAGA TTTTGTCTAA AGGGCAGCAT
    TTGTACAAGG AAAAACCAGC CACTCAGCCA GTGAAGAGGA AGTTAGAAGA TCTGAGCTCT
    GAGTGGAAGG CGGTAAACCG TTTACTTCAA GAGCTGAGGG CAAAGCAGCC TGACCTAGCT
    CCTGGACTGA CCACTATTGG AGCCTCTCCT ACTCAGACTG TTACTCTGGT GACACAACCT
    GTGGTTACTA AGGAAACTGC CATCTCCAAA CTAGAAATGC CATCTTCCTT GATGTTGGAG
    GTACCTGCTC TGGCAGATTT CAACCGGGCT TGGACAGAAC TTACCGACTG GCTTTCTCTG
    CTTGATCAAG TTATAAAATC ACAGAGGGTG ATGGTGGGTG ACCTTGAGGA TATCAACGAG
    ATGATCATCA AGCAGAAGGC AACAATGCAG GATTTGGAAC AGAGGCGTCC CCAGTTGGAA
    GAACTCATTA CCGCTGCCCA AAATTTGAAA AACAAGACCA GCAATCAAGA GGCTAGAACA
    ATCATTACGG ATCGAATTGA AAGAATTCAG AATCAGTGGG ATGAAGTACA AGAACACCTT
    CAGAACCGGA GGCAACAGTT GAATGAAATG TTAAAGGATT CAACACAATG GCTGGAAGCT
    AAGGAAGAAG CTGAGCAGGT CTTAGGACAG GCCAGAGCCA AGCTTGAGTC ATGGAAGGAG
    GGTCCCTATA CAGTAGATGC AATCCAAAAG AAAATCACAG AAACCAAGCA GTTGGCCAAA
    GACCTCCGCC AGTGGCAGAC AAATGTAGAT GTGGCAAATG ACTTGGCCCT GAAACTTCTC
    CGGGATTATT CTGCAGATGA TACCAGAAAA GTCCACATGA TAACAGAGAA TATCAATGCC
    TCTTGGAGAA GCATTCATAA AAGGGTGAGT GAGCGAGAGG CTGCTTTGGA AGAAACTCAT
    AGATTACTGC AACAGTTCCC CCTGGACCTG GAAAAGTTTC TTGCCTGGCT TACAGAAGCT
    GAAACAACTG CCAATGTCCT ACAGGATGCT ACCCGTAAGG AAAGGCTCCT AGAAGACTCC
    AAGGGAGTAA AAGAGCTGAT GAAACAATGG CAAGACCTCC AAGGTGAAAT TGAAGCTCAC
    ACAGATGTTT ATCACAACCT GGATGAAAAC AGCCAAAAAA TCCTGAGATC CCTGGAAGGT
    TCCGATGATG CAGTCCTGTT ACAAAGACGT TTGGATAACA TGAACTTCAA GTGGAGTGAA
    CTTCGGAAAA AGTCTCTCAA CATTAGGTCC CATTTGGAAG CCAGTTCTGA CCAGTGGAAG
    CGTCTGCACC TTTCTCTGCA GGAACTTCTG GTGTGGCTAC AGCTGAAAGA TGATGAATTA
    AGCCGGCAGG CACCTATTGG AGGCGACTTT CCAGCAGTTC AGAAGCAGAA CGATGTACAT
    AGGGCCTTCA AGAGGGAATT GAAAACTAAA GAACCTGTAA TCATGAGTAC TCTTGAGACT
    GTACGAATAT TTCTGACAGA GCAGCCTTTG GAAGGACTAG AGAAACTCTA CCAGGAGCCC
    AGAGAGCTGC CTCCTGAGGA GAGAGCCCAG AATGTCACTC GGCTTCTACG AAAGCAGGCT
    GAGGAGGTCA ATACTGAGTG GGAAAAATTG AACCTGCACT CCGCTGACTG GCAGAGAAAA
    ATAGATGAGA CCCTTGAAAG ACTCCGGGAA CTTCAAGAGG CCACGGATGA GCTGGACCTC
    AAGCTGCGCC AAGCTGAGGT GATCAAGGGA TCCTGGCAGC CCGTGGGCGA TCTCCTCATT
    GACTCTCTCC AAGATCACCT CGAGAAAGTC AAGGCACTTC GAGGAGAAAT TGCGCCTCTG
    AAAGAGAACG TGAGCCACGT CAATGACCTT GCTCGCCAGC TTACCACTTT GGGCATTCAG
    CTCTCACCGT ATAACCTCAG CACTCTGGAA GACCTGAACA CCAGATGGAA GCTTCTGCAG
    GTGGCCGTCG AGGACCGAGT CAGGCAGCTG CATGAAGCCC ACAGGGACTT TGGTCCAGCA
    TCTCAGCACT TTCTTTCCAC GTCTGTCCAG GGTCCCTGGG AGAGAGCCAT CTCGCCAAAC
    AAAGTGCCCT ACTATATCAA CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GAAGAAATAC CCCTGGAAAG CCAATGAGAG AGGACACAAT GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu109363
    Clone ID Related Accession (Same CDS sequence) NM_004006.3
    Accession Version NM_004006.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 11058bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-28
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp427m
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL031643.1, M18533.1, AL031542.1, AL109609.5, AC079864.22, AC079177.21 and BC028720.1. On Dec 27, 2019 this sequence version replaced NM_004006.2. Transcript Variant: transcript Dp427m encodes the main dystrophin protein found in muscle. As a result of alternative promoter use, exon 1 encodes a unique N-terminal MLWWEEVEDCY aa sequence. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: M18533.1, X14298.1 [ECO:0000332] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on manual assertion, conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

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    1321
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    10441
    10501
    10561
    10621
    10681
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    10801
    10861
    10921
    10981
    11041
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGGA ACTCCAGGAT GGCATTGGGC AGCGGCAAAC TGTTGTCAGA
    ACATTGAATG CAACTGGGGA AGAAATAATT CAGCAATCCT CAAAAACAGA TGCCAGTATT
    CTACAGGAAA AATTGGGAAG CCTGAATCTG CGGTGGCAGG AGGTCTGCAA ACAGCTGTCA
    GACAGAAAAA AGAGGCTAGA AGAACAAAAG AATATCTTGT CAGAATTTCA AAGAGATTTA
    AATGAATTTG TTTTATGGTT GGAGGAAGCA GATAACATTG CTAGTATCCC ACTTGAACCT
    GGAAAAGAGC AGCAACTAAA AGAAAAGCTT GAGCAAGTCA AGTTACTGGT GGAAGAGTTG
    CCCCTGCGCC AGGGAATTCT CAAACAATTA AATGAAACTG GAGGACCCGT GCTTGTAAGT
    GCTCCCATAA GCCCAGAAGA GCAAGATAAA CTTGAAAATA AGCTCAAGCA GACAAATCTC
    CAGTGGATAA AGGTTTCCAG AGCTTTACCT GAGAAACAAG GAGAAATTGA AGCTCAAATA
    AAAGACCTTG GGCAGCTTGA AAAAAAGCTT GAAGACCTTG AAGAGCAGTT AAATCATCTG
    CTGCTGTGGT TATCTCCTAT TAGGAATCAG TTGGAAATTT ATAACCAACC AAACCAAGAA
    GGACCATTTG ACGTTAAGGA AACTGAAATA GCAGTTCAAG CTAAACAACC GGATGTGGAA
    GAGATTTTGT CTAAAGGGCA GCATTTGTAC AAGGAAAAAC CAGCCACTCA GCCAGTGAAG
    AGGAAGTTAG AAGATCTGAG CTCTGAGTGG AAGGCGGTAA ACCGTTTACT TCAAGAGCTG
    AGGGCAAAGC AGCCTGACCT AGCTCCTGGA CTGACCACTA TTGGAGCCTC TCCTACTCAG
    ACTGTTACTC TGGTGACACA ACCTGTGGTT ACTAAGGAAA CTGCCATCTC CAAACTAGAA
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCG GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGAAGAA ATACCCCTGG AAAGCCAATG
    AGAGAGGACA CAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_003997.2
    CDS238..11295
    Translation

    Target ORF information:

    RefSeq Version NM_004006.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp427m, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004006.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGGA ACTCCAGGAT GGCATTGGGC AGCGGCAAAC TGTTGTCAGA
    ACATTGAATG CAACTGGGGA AGAAATAATT CAGCAATCCT CAAAAACAGA TGCCAGTATT
    CTACAGGAAA AATTGGGAAG CCTGAATCTG CGGTGGCAGG AGGTCTGCAA ACAGCTGTCA
    GACAGAAAAA AGAGGCTAGA AGAACAAAAG AATATCTTGT CAGAATTTCA AAGAGATTTA
    AATGAATTTG TTTTATGGTT GGAGGAAGCA GATAACATTG CTAGTATCCC ACTTGAACCT
    GGAAAAGAGC AGCAACTAAA AGAAAAGCTT GAGCAAGTCA AGTTACTGGT GGAAGAGTTG
    CCCCTGCGCC AGGGAATTCT CAAACAATTA AATGAAACTG GAGGACCCGT GCTTGTAAGT
    GCTCCCATAA GCCCAGAAGA GCAAGATAAA CTTGAAAATA AGCTCAAGCA GACAAATCTC
    CAGTGGATAA AGGTTTCCAG AGCTTTACCT GAGAAACAAG GAGAAATTGA AGCTCAAATA
    AAAGACCTTG GGCAGCTTGA AAAAAAGCTT GAAGACCTTG AAGAGCAGTT AAATCATCTG
    CTGCTGTGGT TATCTCCTAT TAGGAATCAG TTGGAAATTT ATAACCAACC AAACCAAGAA
    GGACCATTTG ACGTTAAGGA AACTGAAATA GCAGTTCAAG CTAAACAACC GGATGTGGAA
    GAGATTTTGT CTAAAGGGCA GCATTTGTAC AAGGAAAAAC CAGCCACTCA GCCAGTGAAG
    AGGAAGTTAG AAGATCTGAG CTCTGAGTGG AAGGCGGTAA ACCGTTTACT TCAAGAGCTG
    AGGGCAAAGC AGCCTGACCT AGCTCCTGGA CTGACCACTA TTGGAGCCTC TCCTACTCAG
    ACTGTTACTC TGGTGACACA ACCTGTGGTT ACTAAGGAAA CTGCCATCTC CAAACTAGAA
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCG GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGAAGAA ATACCCCTGG AAAGCCAATG
    AGAGAGGACA CAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu23586
    Clone ID Related Accession (Same CDS sequence) NM_004009.3
    Accession Version NM_004009.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 11046bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp427p1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from S64152.1, AL049643.12, M18533.1, AL109609.5 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004009.2. Transcript Variant: transcript Dp427p1 initiates from a unique promoter/exon 1 located in what corresponds to the first intron of transcript Dp427m. The transcript adds the common exon 2 of Dp427m and has a similar length (14 kb). The Dp427p1 isoform replaces the MLWWEEVEDCY-start of Dp427m with a unique N-terminal MSEVSSD aa sequence. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    ATGTCTGAGG TCTCATCTGA TGAAAGAGAA GATGTTCAAA AGAAAACATT CACAAAATGG 
    GTAAATGCAC AATTTTCTAA GTTTGGGAAG CAGCATATTG AGAACCTCTT CAGTGACCTA
    CAGGATGGGA GGCGCCTCCT AGACCTCCTC GAAGGCCTGA CAGGGCAAAA ACTGCCAAAA
    GAAAAAGGAT CCACAAGAGT TCATGCCCTG AACAATGTCA ACAAGGCACT GCGGGTTTTG
    CAGAACAATA ATGTTGATTT AGTGAATATT GGAAGTACTG ACATCGTAGA TGGAAATCAT
    AAACTGACTC TTGGTTTGAT TTGGAATATA ATCCTCCACT GGCAGGTCAA AAATGTAATG
    AAAAATATCA TGGCTGGATT GCAACAAACC AACAGTGAAA AGATTCTCCT GAGCTGGGTC
    CGACAATCAA CTCGTAATTA TCCACAGGTT AATGTAATCA ACTTCACCAC CAGCTGGTCT
    GATGGCCTGG CTTTGAATGC TCTCATCCAT AGTCATAGGC CAGACCTATT TGACTGGAAT
    AGTGTGGTTT GCCAGCAGTC AGCCACACAA CGACTGGAAC ATGCATTCAA CATCGCCAGA
    TATCAATTAG GCATAGAGAA ACTACTCGAT CCTGAAGATG TTGATACCAC CTATCCAGAT
    AAGAAGTCCA TCTTAATGTA CATCACATCA CTCTTCCAAG TTTTGCCTCA ACAAGTGAGC
    ATTGAAGCCA TCCAGGAAGT GGAAATGTTG CCAAGGCCAC CTAAAGTGAC TAAAGAAGAA
    CATTTTCAGT TACATCATCA AATGCACTAT TCTCAACAGA TCACGGTCAG TCTAGCACAG
    GGATATGAGA GAACTTCTTC CCCTAAGCCT CGATTCAAGA GCTATGCCTA CACACAGGCT
    GCTTATGTCA CCACCTCTGA CCCTACACGG AGCCCATTTC CTTCACAGCA TTTGGAAGCT
    CCTGAAGACA AGTCATTTGG CAGTTCATTG ATGGAGAGTG AAGTAAACCT GGACCGTTAT
    CAAACAGCTT TAGAAGAAGT ATTATCGTGG CTTCTTTCTG CTGAGGACAC ATTGCAAGCA
    CAAGGAGAGA TTTCTAATGA TGTGGAAGTG GTGAAAGACC AGTTTCATAC TCATGAGGGG
    TACATGATGG ATTTGACAGC CCATCAGGGC CGGGTTGGTA ATATTCTACA ATTGGGAAGT
    AAGCTGATTG GAACAGGAAA ATTATCAGAA GATGAAGAAA CTGAAGTACA AGAGCAGATG
    AATCTCCTAA ATTCAAGATG GGAATGCCTC AGGGTAGCTA GCATGGAAAA ACAAAGCAAT
    TTACATAGAG TTTTAATGGA TCTCCAGAAT CAGAAACTGA AAGAGTTGAA TGACTGGCTA
    ACAAAAACAG AAGAAAGAAC AAGGAAAATG GAGGAAGAGC CTCTTGGACC TGATCTTGAA
    GACCTAAAAC GCCAAGTACA ACAACATAAG GTGCTTCAAG AAGATCTAGA ACAAGAACAA
    GTCAGGGTCA ATTCTCTCAC TCACATGGTG GTGGTAGTTG ATGAATCTAG TGGAGATCAC
    GCAACTGCTG CTTTGGAAGA ACAACTTAAG GTATTGGGAG ATCGATGGGC AAACATCTGT
    AGATGGACAG AAGACCGCTG GGTTCTTTTA CAAGACATCC TTCTCAAATG GCAACGTCTT
    ACTGAAGAAC AGTGCCTTTT TAGTGCATGG CTTTCAGAAA AAGAAGATGC AGTGAACAAG
    ATTCACACAA CTGGCTTTAA AGATCAAAAT GAAATGTTAT CAAGTCTTCA AAAACTGGCC
    GTTTTAAAAG CGGATCTAGA AAAGAAAAAG CAATCCATGG GCAAACTGTA TTCACTCAAA
    CAAGATCTTC TTTCAACACT GAAGAATAAG TCAGTGACCC AGAAGACGGA AGCATGGCTG
    GATAACTTTG CCCGGTGTTG GGATAATTTA GTCCAAAAAC TTGAAAAGAG TACAGCACAG
    ATTTCACAGG CTGTCACCAC CACTCAGCCA TCACTAACAC AGACAACTGT AATGGAAACA
    GTAACTACGG TGACCACAAG GGAACAGATC CTGGTAAAGC ATGCTCAAGA GGAACTTCCA
    CCACCACCTC CCCAAAAGAA GAGGCAGATT ACTGTGGATT CTGAAATTAG GAAAAGGTTG
    GATGTTGATA TAACTGAACT TCACAGCTGG ATTACTCGCT CAGAAGCTGT GTTGCAGAGT
    CCTGAATTTG CAATCTTTCG GAAGGAAGGC AACTTCTCAG ACTTAAAAGA AAAAGTCAAT
    GCCATAGAGC GAGAAAAAGC TGAGAAGTTC AGAAAACTGC AAGATGCCAG CAGATCAGCT
    CAGGCCCTGG TGGAACAGAT GGTGAATGAG GGTGTTAATG CAGATAGCAT CAAACAAGCC
    TCAGAACAAC TGAACAGCCG GTGGATCGAA TTCTGCCAGT TGCTAAGTGA GAGACTTAAC
    TGGCTGGAGT ATCAGAACAA CATCATCGCT TTCTATAATC AGCTACAACA ATTGGAGCAG
    ATGACAACTA CTGCTGAAAA CTGGTTGAAA ATCCAACCCA CCACCCCATC AGAGCCAACA
    GCAATTAAAA GTCAGTTAAA AATTTGTAAG GATGAAGTCA ACCGGCTATC AGGTCTTCAA
    CCTCAAATTG AACGATTAAA AATTCAAAGC ATAGCCCTGA AAGAGAAAGG ACAAGGACCC
    ATGTTCCTGG ATGCAGACTT TGTGGCCTTT ACAAATCATT TTAAGCAAGT CTTTTCTGAT
    GTGCAGGCCA GAGAGAAAGA GCTACAGACA ATTTTTGACA CTTTGCCACC AATGCGCTAT
    CAGGAGACCA TGAGTGCCAT CAGGACATGG GTCCAGCAGT CAGAAACCAA ACTCTCCATA
    CCTCAACTTA GTGTCACCGA CTATGAAATC ATGGAGCAGA GACTCGGGGA ATTGCAGGCT
    TTACAAAGTT CTCTGCAAGA GCAACAAAGT GGCCTATACT ATCTCAGCAC CACTGTGAAA
    GAGATGTCGA AGAAAGCGCC CTCTGAAATT AGCCGGAAAT ATCAATCAGA ATTTGAAGAA
    ATTGAGGGAC GCTGGAAGAA GCTCTCCTCC CAGCTGGTTG AGCATTGTCA AAAGCTAGAG
    GAGCAAATGA ATAAACTCCG AAAAATTCAG AATCACATAC AAACCCTGAA GAAATGGATG
    GCTGAAGTTG ATGTTTTTCT GAAGGAGGAA TGGCCTGCCC TTGGGGATTC AGAAATTCTA
    AAAAAGCAGC TGAAACAGTG CAGACTTTTA GTCAGTGATA TTCAGACAAT TCAGCCCAGT
    CTAAACAGTG TCAATGAAGG TGGGCAGAAG ATAAAGAATG AAGCAGAGCC AGAGTTTGCT
    TCGAGACTTG AGACAGAACT CAAAGAACTT AACACTCAGT GGGATCACAT GTGCCAACAG
    GTCTATGCCA GAAAGGAGGC CTTGAAGGGA GGTTTGGAGA AAACTGTAAG CCTCCAGAAA
    GATCTATCAG AGATGCACGA ATGGATGACA CAAGCTGAAG AAGAGTATCT TGAGAGAGAT
    TTTGAATATA AAACTCCAGA TGAATTACAG AAAGCAGTTG AAGAGATGAA GAGAGCTAAA
    GAAGAGGCCC AACAAAAAGA AGCGAAAGTG AAACTCCTTA CTGAGTCTGT AAATAGTGTC
    ATAGCTCAAG CTCCACCTGT AGCACAAGAG GCCTTAAAAA AGGAACTTGA AACTCTAACC
    ACCAACTACC AGTGGCTCTG CACTAGGCTG AATGGGAAAT GCAAGACTTT GGAAGAAGTT
    TGGGCATGTT GGCATGAGTT ATTGTCATAC TTGGAGAAAG CAAACAAGTG GCTAAATGAA
    GTAGAATTTA AACTTAAAAC CACTGAAAAC ATTCCTGGCG GAGCTGAGGA AATCTCTGAG
    GTGCTAGATT CACTTGAAAA TTTGATGCGA CATTCAGAGG ATAACCCAAA TCAGATTCGC
    ATATTGGCAC AGACCCTAAC AGATGGCGGA GTCATGGATG AGCTAATCAA TGAGGAACTT
    GAGACATTTA ATTCTCGTTG GAGGGAACTA CATGAAGAGG CTGTAAGGAG GCAAAAGTTG
    CTTGAACAGA GCATCCAGTC TGCCCAGGAG ACTGAAAAAT CCTTACACTT AATCCAGGAG
    TCCCTCACAT TCATTGACAA GCAGTTGGCA GCTTATATTG CAGACAAGGT GGACGCAGCT
    CAAATGCCTC AGGAAGCCCA GAAAATCCAA TCTGATTTGA CAAGTCATGA GATCAGTTTA
    GAAGAAATGA AGAAACATAA TCAGGGGAAG GAGGCTGCCC AAAGAGTCCT GTCTCAGATT
    GATGTTGCAC AGAAAAAATT ACAAGATGTC TCCATGAAGT TTCGATTATT CCAGAAACCA
    GCCAATTTTG AGCAGCGTCT ACAAGAAAGT AAGATGATTT TAGATGAAGT GAAGATGCAC
    TTGCCTGCAT TGGAAACAAA GAGTGTGGAA CAGGAAGTAG TACAGTCACA GCTAAATCAT
    TGTGTGAACT TGTATAAAAG TCTGAGTGAA GTGAAGTCTG AAGTGGAAAT GGTGATAAAG
    ACTGGACGTC AGATTGTACA GAAAAAGCAG ACGGAAAATC CCAAAGAACT TGATGAAAGA
    GTAACAGCTT TGAAATTGCA TTATAATGAG CTGGGAGCAA AGGTAACAGA AAGAAAGCAA
    CAGTTGGAGA AATGCTTGAA ATTGTCCCGT AAGATGCGAA AGGAAATGAA TGTCTTGACA
    GAATGGCTGG CAGCTACAGA TATGGAATTG ACAAAGAGAT CAGCAGTTGA AGGAATGCCT
    AGTAATTTGG ATTCTGAAGT TGCCTGGGGA AAGGCTACTC AAAAAGAGAT TGAGAAACAG
    AAGGTGCACC TGAAGAGTAT CACAGAGGTA GGAGAGGCCT TGAAAACAGT TTTGGGCAAG
    AAGGAGACGT TGGTGGAAGA TAAACTCAGT CTTCTGAATA GTAACTGGAT AGCTGTCACC
    TCCCGAGCAG AAGAGTGGTT AAATCTTTTG TTGGAATACC AGAAACACAT GGAAACTTTT
    GACCAGAATG TGGACCACAT CACAAAGTGG ATCATTCAGG CTGACACACT TTTGGATGAA
    TCAGAGAAAA AGAAACCCCA GCAAAAAGAA GACGTGCTTA AGCGTTTAAA GGCAGAACTG
    AATGACATAC GCCCAAAGGT GGACTCTACA CGTGACCAAG CAGCAAACTT GATGGCAAAC
    CGCGGTGACC ACTGCAGGAA ATTAGTAGAG CCCCAAATCT CAGAGCTCAA CCATCGATTT
    GCAGCCATTT CACACAGAAT TAAGACTGGA AAGGCCTCCA TTCCTTTGAA GGAATTGGAG
    CAGTTTAACT CAGATATACA AAAATTGCTT GAACCACTGG AGGCTGAAAT TCAGCAGGGG
    GTGAATCTGA AAGAGGAAGA CTTCAATAAA GATATGAATG AAGACAATGA GGGTACTGTA
    AAAGAATTGT TGCAAAGAGG AGACAACTTA CAACAAAGAA TCACAGATGA GAGAAAGCGA
    GAGGAAATAA AGATAAAACA GCAGCTGTTA CAGACAAAAC ATAATGCTCT CAAGGATTTG
    AGGTCTCAAA GAAGAAAAAA GGCTCTAGAA ATTTCTCATC AGTGGTATCA GTACAAGAGG
    CAGGCTGATG ATCTCCTGAA ATGCTTGGAT GACATTGAAA AAAAATTAGC CAGCCTACCT
    GAGCCCAGAG ATGAAAGGAA AATAAAGGAA ATTGATCGGG AATTGCAGAA GAAGAAAGAG
    GAGCTGAATG CAGTGCGTAG GCAAGCTGAG GGCTTGTCTG AGGATGGGGC CGCAATGGCA
    GTGGAGCCAA CTCAGATCCA GCTCAGCAAG CGCTGGCGGG AAATTGAGAG CAAATTTGCT
    CAGTTTCGAA GACTCAACTT TGCACAAATT CACACTGTCC GTGAAGAAAC GATGATGGTG
    ATGACTGAAG ACATGCCTTT GGAAATTTCT TATGTGCCTT CTACTTATTT GACTGAAATC
    ACTCATGTCT CACAAGCCCT ATTAGAAGTG GAACAACTTC TCAATGCTCC TGACCTCTGT
    GCTAAGGACT TTGAAGATCT CTTTAAGCAA GAGGAGTCTC TGAAGAATAT AAAAGATAGT
    CTACAACAAA GCTCAGGTCG GATTGACATT ATTCATAGCA AGAAGACAGC AGCATTGCAA
    AGTGCAACGC CTGTGGAAAG GGTGAAGCTA CAGGAAGCTC TCTCCCAGCT TGATTTCCAA
    TGGGAAAAAG TTAACAAAAT GTACAAGGAC CGACAAGGGC GATTTGACAG ATCTGTTGAG
    AAATGGCGGC GTTTTCATTA TGATATAAAG ATATTTAATC AGTGGCTAAC AGAAGCTGAA
    CAGTTTCTCA GAAAGACACA AATTCCTGAG AATTGGGAAC ATGCTAAATA CAAATGGTAT
    CTTAAGGAAC TCCAGGATGG CATTGGGCAG CGGCAAACTG TTGTCAGAAC ATTGAATGCA
    ACTGGGGAAG AAATAATTCA GCAATCCTCA AAAACAGATG CCAGTATTCT ACAGGAAAAA
    TTGGGAAGCC TGAATCTGCG GTGGCAGGAG GTCTGCAAAC AGCTGTCAGA CAGAAAAAAG
    AGGCTAGAAG AACAAAAGAA TATCTTGTCA GAATTTCAAA GAGATTTAAA TGAATTTGTT
    TTATGGTTGG AGGAAGCAGA TAACATTGCT AGTATCCCAC TTGAACCTGG AAAAGAGCAG
    CAACTAAAAG AAAAGCTTGA GCAAGTCAAG TTACTGGTGG AAGAGTTGCC CCTGCGCCAG
    GGAATTCTCA AACAATTAAA TGAAACTGGA GGACCCGTGC TTGTAAGTGC TCCCATAAGC
    CCAGAAGAGC AAGATAAACT TGAAAATAAG CTCAAGCAGA CAAATCTCCA GTGGATAAAG
    GTTTCCAGAG CTTTACCTGA GAAACAAGGA GAAATTGAAG CTCAAATAAA AGACCTTGGG
    CAGCTTGAAA AAAAGCTTGA AGACCTTGAA GAGCAGTTAA ATCATCTGCT GCTGTGGTTA
    TCTCCTATTA GGAATCAGTT GGAAATTTAT AACCAACCAA ACCAAGAAGG ACCATTTGAC
    GTTCAGGAAA CTGAAATAGC AGTTCAAGCT AAACAACCGG ATGTGGAAGA GATTTTGTCT
    AAAGGGCAGC ATTTGTACAA GGAAAAACCA GCCACTCAGC CAGTGAAGAG GAAGTTAGAA
    GATCTGAGCT CTGAGTGGAA GGCGGTAAAC CGTTTACTTC AAGAGCTGAG GGCAAAGCAG
    CCTGACCTAG CTCCTGGACT GACCACTATT GGAGCCTCTC CTACTCAGAC TGTTACTCTG
    GTGACACAAC CTGTGGTTAC TAAGGAAACT GCCATCTCCA AACTAGAAAT GCCATCTTCC
    TTGATGTTGG AGGTACCTGC TCTGGCAGAT TTCAACCGGG CTTGGACAGA ACTTACCGAC
    TGGCTTTCTC TGCTTGATCA AGTTATAAAA TCACAGAGGG TGATGGTGGG TGACCTTGAG
    GATATCAACG AGATGATCAT CAAGCAGAAG GCAACAATGC AGGATTTGGA ACAGAGGCGT
    CCCCAGTTGG AAGAACTCAT TACCGCTGCC CAAAATTTGA AAAACAAGAC CAGCAATCAA
    GAGGCTAGAA CAATCATTAC GGATCGAATT GAAAGAATTC AGAATCAGTG GGATGAAGTA
    CAAGAACACC TTCAGAACCG GAGGCAACAG TTGAATGAAA TGTTAAAGGA TTCAACACAA
    TGGCTGGAAG CTAAGGAAGA AGCTGAGCAG GTCTTAGGAC AGGCCAGAGC CAAGCTTGAG
    TCATGGAAGG AGGGTCCCTA TACAGTAGAT GCAATCCAAA AGAAAATCAC AGAAACCAAG
    CAGTTGGCCA AAGACCTCCG CCAGTGGCAG ACAAATGTAG ATGTGGCAAA TGACTTGGCC
    CTGAAACTTC TCCGGGATTA TTCTGCAGAT GATACCAGAA AAGTCCACAT GATAACAGAG
    AATATCAATG CCTCTTGGAG AAGCATTCAT AAAAGGGTGA GTGAGCGAGA GGCTGCTTTG
    GAAGAAACTC ATAGATTACT GCAACAGTTC CCCCTGGACC TGGAAAAGTT TCTTGCCTGG
    CTTACAGAAG CTGAAACAAC TGCCAATGTC CTACAGGATG CTACCCGTAA GGAAAGGCTC
    CTAGAAGACT CCAAGGGAGT AAAAGAGCTG ATGAAACAAT GGCAAGACCT CCAAGGTGAA
    ATTGAAGCTC ACACAGATGT TTATCACAAC CTGGATGAAA ACAGCCAAAA AATCCTGAGA
    TCCCTGGAAG GTTCCGATGA TGCAGTCCTG TTACAAAGAC GTTTGGATAA CATGAACTTC
    AAGTGGAGTG AACTTCGGAA AAAGTCTCTC AACATTAGGT CCCATTTGGA AGCCAGTTCT
    GACCAGTGGA AGCGTCTGCA CCTTTCTCTG CAGGAACTTC TGGTGTGGCT ACAGCTGAAA
    GATGATGAAT TAAGCCGGCA GGCACCTATT GGAGGCGACT TTCCAGCAGT TCAGAAGCAG
    AACGATGTAC ATAGGGCCTT CAAGAGGGAA TTGAAAACTA AAGAACCTGT AATCATGAGT
    ACTCTTGAGA CTGTACGAAT ATTTCTGACA GAGCAGCCTT TGGAAGGACT AGAGAAACTC
    TACCAGGAGC CCAGAGAGCT GCCTCCTGAG GAGAGAGCCC AGAATGTCAC TCGGCTTCTA
    CGAAAGCAGG CTGAGGAGGT CAATACTGAG TGGGAAAAAT TGAACCTGCA CTCCGCTGAC
    TGGCAGAGAA AAATAGATGA GACCCTTGAA AGACTCCAGG AACTTCAAGA GGCCACGGAT
    GAGCTGGACC TCAAGCTGCG CCAAGCTGAG GTGATCAAGG GATCCTGGCA GCCCGTGGGC
    GATCTCCTCA TTGACTCTCT CCAAGATCAC CTCGAGAAAG TCAAGGCACT TCGAGGAGAA
    ATTGCGCCTC TGAAAGAGAA CGTGAGCCAC GTCAATGACC TTGCTCGCCA GCTTACCACT
    TTGGGCATTC AGCTCTCACC GTATAACCTC AGCACTCTGG AAGACCTGAA CACCAGATGG
    AAGCTTCTGC AGGTGGCCGT CGAGGACCGA GTCAGGCAGC TGCATGAAGC CCACAGGGAC
    TTTGGTCCAG CATCTCAGCA CTTTCTTTCC ACGTCTGTCC AGGGTCCCTG GGAGAGAGCC
    ATCTCGCCAA ACAAAGTGCC CTACTATATC AACCACGAGA CTCAAACAAC TTGCTGGGAC
    CATCCCAAAA TGACAGAGCT CTACCAGTCT TTAGCTGACC TGAATAATGT CAGATTCTCA
    GCTTATAGGA CTGCCATGAA ACTCCGAAGA CTGCAGAAGG CCCTTTGCTT GGATCTCTTG
    AGCCTGTCAG CTGCATGTGA TGCCTTGGAC CAGCACAACC TCAAGCAAAA TGACCAGCCC
    ATGGATATCC TGCAGATTAT TAATTGTTTG ACCACTATTT ATGACCGCCT GGAGCAAGAG
    CACAACAATT TGGTCAACGT CCCTCTCTGC GTGGATATGT GTCTGAACTG GCTGCTGAAT
    GTTTATGATA CGGGACGAAC AGGGAGGATC CGTGTCCTGT CTTTTAAAAC TGGCATCATT
    TCCCTGTGTA AAGCACATTT GGAAGACAAG TACAGATACC TTTTCAAGCA AGTGGCAAGT
    TCAACAGGAT TTTGTGACCA GCGCAGGCTG GGCCTCCTTC TGCATGATTC TATCCAAATT
    CCAAGACAGT TGGGTGAAGT TGCATCCTTT GGGGGCAGTA ACATTGAGCC AAGTGTCCGG
    AGCTGCTTCC AATTTGCTAA TAATAAGCCA GAGATCGAAG CGGCCCTCTT CCTAGACTGG
    ATGAGACTGG AACCCCAGTC CATGGTGTGG CTGCCCGTCC TGCACAGAGT GGCTGCTGCA
    GAAACTGCCA AGCATCAGGC CAAATGTAAC ATCTGCAAAG AGTGTCCAAT CATTGGATTC
    AGGTACAGGA GTCTAAAGCA CTTTAATTAT GACATCTGCC AAAGCTGCTT TTTTTCTGGT
    CGAGTTGCAA AAGGCCATAA AATGCACTAT CCCATGGTGG AATATTGCAC TCCGACTACA
    TCAGGAGAAG ATGTTCGAGA CTTTGCCAAG GTACTAAAAA ACAAATTTCG AACCAAAAGG
    TATTTTGCGA AGCATCCCCG AATGGGCTAC CTGCCAGTGC AGACTGTCTT AGAGGGGGAC
    AACATGGAAA CTCCCGTTAC TCTGATCAAC TTCTGGCCAG TAGATTCTGC GCCTGCCTCG
    TCCCCTCAGC TTTCACACGA TGATACTCAT TCACGCATTG AACATTATGC TAGCAGGCTA
    GCAGAAATGG AAAACAGCAA TGGATCTTAT CTAAATGATA GCATCTCTCC TAATGAGAGC
    ATAGATGATG AACATTTGTT AATCCAGCAT TACTGCCAAA GTTTGAACCA GGACTCCCCC
    CTGAGCCAGC CTCGTAGTCC TGCCCAGATC TTGATTTCCT TAGAGAGTGA GGAAAGAGGG
    GAGCTAGAGA GAATCCTAGC AGATCTTGAG GAAGAAAACA GGAATCTGCA AGCAGAATAT
    GACCGTCTAA AGCAGCAGCA CGAACATAAA GGCCTGTCCC CACTGCCGTC CCCTCCTGAA
    ATGATGCCCA CCTCTCCCCA GAGTCCCCGG GATGCTGAGC TCATTGCTGA GGCCAAGCTA
    CTGCGTCAAC ACAAAGGCCG CCTGGAAGCC AGGATGCAAA TCCTGGAAGA CCACAATAAA
    CAGCTGGAGT CACAGTTACA CAGGCTAAGG CAGCTGCTGG AGCAACCCCA GGCAGAGGCC
    AAAGTGAATG GCACAACGGT GTCCTCTCCT TCTACCTCTC TACAGAGGTC CGACAGCAGT
    CAGCCTATGC TGCTCCGAGT GGTTGGCAGT CAAACTTCGG ACTCCATGGG TGAGGAAGAT
    CTTCTCAGTC CTCCCCAGGA CACAAGCACA GGGTTAGAGG AGGTGATGGA GCAACTCAAC
    AACTCCTTCC CTAGTTCAAG AGGAAGAAAT ACCCCTGGAA AGCCAATGAG AGAGGACACA
    ATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004000.1
    CDS264..11309
    Translation

    Target ORF information:

    RefSeq Version NM_004009.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp427p1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004009.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    ATGTCTGAGG TCTCATCTGA TGAAAGAGAA GATGTTCAAA AGAAAACATT CACAAAATGG 
    GTAAATGCAC AATTTTCTAA GTTTGGGAAG CAGCATATTG AGAACCTCTT CAGTGACCTA
    CAGGATGGGA GGCGCCTCCT AGACCTCCTC GAAGGCCTGA CAGGGCAAAA ACTGCCAAAA
    GAAAAAGGAT CCACAAGAGT TCATGCCCTG AACAATGTCA ACAAGGCACT GCGGGTTTTG
    CAGAACAATA ATGTTGATTT AGTGAATATT GGAAGTACTG ACATCGTAGA TGGAAATCAT
    AAACTGACTC TTGGTTTGAT TTGGAATATA ATCCTCCACT GGCAGGTCAA AAATGTAATG
    AAAAATATCA TGGCTGGATT GCAACAAACC AACAGTGAAA AGATTCTCCT GAGCTGGGTC
    CGACAATCAA CTCGTAATTA TCCACAGGTT AATGTAATCA ACTTCACCAC CAGCTGGTCT
    GATGGCCTGG CTTTGAATGC TCTCATCCAT AGTCATAGGC CAGACCTATT TGACTGGAAT
    AGTGTGGTTT GCCAGCAGTC AGCCACACAA CGACTGGAAC ATGCATTCAA CATCGCCAGA
    TATCAATTAG GCATAGAGAA ACTACTCGAT CCTGAAGATG TTGATACCAC CTATCCAGAT
    AAGAAGTCCA TCTTAATGTA CATCACATCA CTCTTCCAAG TTTTGCCTCA ACAAGTGAGC
    ATTGAAGCCA TCCAGGAAGT GGAAATGTTG CCAAGGCCAC CTAAAGTGAC TAAAGAAGAA
    CATTTTCAGT TACATCATCA AATGCACTAT TCTCAACAGA TCACGGTCAG TCTAGCACAG
    GGATATGAGA GAACTTCTTC CCCTAAGCCT CGATTCAAGA GCTATGCCTA CACACAGGCT
    GCTTATGTCA CCACCTCTGA CCCTACACGG AGCCCATTTC CTTCACAGCA TTTGGAAGCT
    CCTGAAGACA AGTCATTTGG CAGTTCATTG ATGGAGAGTG AAGTAAACCT GGACCGTTAT
    CAAACAGCTT TAGAAGAAGT ATTATCGTGG CTTCTTTCTG CTGAGGACAC ATTGCAAGCA
    CAAGGAGAGA TTTCTAATGA TGTGGAAGTG GTGAAAGACC AGTTTCATAC TCATGAGGGG
    TACATGATGG ATTTGACAGC CCATCAGGGC CGGGTTGGTA ATATTCTACA ATTGGGAAGT
    AAGCTGATTG GAACAGGAAA ATTATCAGAA GATGAAGAAA CTGAAGTACA AGAGCAGATG
    AATCTCCTAA ATTCAAGATG GGAATGCCTC AGGGTAGCTA GCATGGAAAA ACAAAGCAAT
    TTACATAGAG TTTTAATGGA TCTCCAGAAT CAGAAACTGA AAGAGTTGAA TGACTGGCTA
    ACAAAAACAG AAGAAAGAAC AAGGAAAATG GAGGAAGAGC CTCTTGGACC TGATCTTGAA
    GACCTAAAAC GCCAAGTACA ACAACATAAG GTGCTTCAAG AAGATCTAGA ACAAGAACAA
    GTCAGGGTCA ATTCTCTCAC TCACATGGTG GTGGTAGTTG ATGAATCTAG TGGAGATCAC
    GCAACTGCTG CTTTGGAAGA ACAACTTAAG GTATTGGGAG ATCGATGGGC AAACATCTGT
    AGATGGACAG AAGACCGCTG GGTTCTTTTA CAAGACATCC TTCTCAAATG GCAACGTCTT
    ACTGAAGAAC AGTGCCTTTT TAGTGCATGG CTTTCAGAAA AAGAAGATGC AGTGAACAAG
    ATTCACACAA CTGGCTTTAA AGATCAAAAT GAAATGTTAT CAAGTCTTCA AAAACTGGCC
    GTTTTAAAAG CGGATCTAGA AAAGAAAAAG CAATCCATGG GCAAACTGTA TTCACTCAAA
    CAAGATCTTC TTTCAACACT GAAGAATAAG TCAGTGACCC AGAAGACGGA AGCATGGCTG
    GATAACTTTG CCCGGTGTTG GGATAATTTA GTCCAAAAAC TTGAAAAGAG TACAGCACAG
    ATTTCACAGG CTGTCACCAC CACTCAGCCA TCACTAACAC AGACAACTGT AATGGAAACA
    GTAACTACGG TGACCACAAG GGAACAGATC CTGGTAAAGC ATGCTCAAGA GGAACTTCCA
    CCACCACCTC CCCAAAAGAA GAGGCAGATT ACTGTGGATT CTGAAATTAG GAAAAGGTTG
    GATGTTGATA TAACTGAACT TCACAGCTGG ATTACTCGCT CAGAAGCTGT GTTGCAGAGT
    CCTGAATTTG CAATCTTTCG GAAGGAAGGC AACTTCTCAG ACTTAAAAGA AAAAGTCAAT
    GCCATAGAGC GAGAAAAAGC TGAGAAGTTC AGAAAACTGC AAGATGCCAG CAGATCAGCT
    CAGGCCCTGG TGGAACAGAT GGTGAATGAG GGTGTTAATG CAGATAGCAT CAAACAAGCC
    TCAGAACAAC TGAACAGCCG GTGGATCGAA TTCTGCCAGT TGCTAAGTGA GAGACTTAAC
    TGGCTGGAGT ATCAGAACAA CATCATCGCT TTCTATAATC AGCTACAACA ATTGGAGCAG
    ATGACAACTA CTGCTGAAAA CTGGTTGAAA ATCCAACCCA CCACCCCATC AGAGCCAACA
    GCAATTAAAA GTCAGTTAAA AATTTGTAAG GATGAAGTCA ACCGGCTATC AGGTCTTCAA
    CCTCAAATTG AACGATTAAA AATTCAAAGC ATAGCCCTGA AAGAGAAAGG ACAAGGACCC
    ATGTTCCTGG ATGCAGACTT TGTGGCCTTT ACAAATCATT TTAAGCAAGT CTTTTCTGAT
    GTGCAGGCCA GAGAGAAAGA GCTACAGACA ATTTTTGACA CTTTGCCACC AATGCGCTAT
    CAGGAGACCA TGAGTGCCAT CAGGACATGG GTCCAGCAGT CAGAAACCAA ACTCTCCATA
    CCTCAACTTA GTGTCACCGA CTATGAAATC ATGGAGCAGA GACTCGGGGA ATTGCAGGCT
    TTACAAAGTT CTCTGCAAGA GCAACAAAGT GGCCTATACT ATCTCAGCAC CACTGTGAAA
    GAGATGTCGA AGAAAGCGCC CTCTGAAATT AGCCGGAAAT ATCAATCAGA ATTTGAAGAA
    ATTGAGGGAC GCTGGAAGAA GCTCTCCTCC CAGCTGGTTG AGCATTGTCA AAAGCTAGAG
    GAGCAAATGA ATAAACTCCG AAAAATTCAG AATCACATAC AAACCCTGAA GAAATGGATG
    GCTGAAGTTG ATGTTTTTCT GAAGGAGGAA TGGCCTGCCC TTGGGGATTC AGAAATTCTA
    AAAAAGCAGC TGAAACAGTG CAGACTTTTA GTCAGTGATA TTCAGACAAT TCAGCCCAGT
    CTAAACAGTG TCAATGAAGG TGGGCAGAAG ATAAAGAATG AAGCAGAGCC AGAGTTTGCT
    TCGAGACTTG AGACAGAACT CAAAGAACTT AACACTCAGT GGGATCACAT GTGCCAACAG
    GTCTATGCCA GAAAGGAGGC CTTGAAGGGA GGTTTGGAGA AAACTGTAAG CCTCCAGAAA
    GATCTATCAG AGATGCACGA ATGGATGACA CAAGCTGAAG AAGAGTATCT TGAGAGAGAT
    TTTGAATATA AAACTCCAGA TGAATTACAG AAAGCAGTTG AAGAGATGAA GAGAGCTAAA
    GAAGAGGCCC AACAAAAAGA AGCGAAAGTG AAACTCCTTA CTGAGTCTGT AAATAGTGTC
    ATAGCTCAAG CTCCACCTGT AGCACAAGAG GCCTTAAAAA AGGAACTTGA AACTCTAACC
    ACCAACTACC AGTGGCTCTG CACTAGGCTG AATGGGAAAT GCAAGACTTT GGAAGAAGTT
    TGGGCATGTT GGCATGAGTT ATTGTCATAC TTGGAGAAAG CAAACAAGTG GCTAAATGAA
    GTAGAATTTA AACTTAAAAC CACTGAAAAC ATTCCTGGCG GAGCTGAGGA AATCTCTGAG
    GTGCTAGATT CACTTGAAAA TTTGATGCGA CATTCAGAGG ATAACCCAAA TCAGATTCGC
    ATATTGGCAC AGACCCTAAC AGATGGCGGA GTCATGGATG AGCTAATCAA TGAGGAACTT
    GAGACATTTA ATTCTCGTTG GAGGGAACTA CATGAAGAGG CTGTAAGGAG GCAAAAGTTG
    CTTGAACAGA GCATCCAGTC TGCCCAGGAG ACTGAAAAAT CCTTACACTT AATCCAGGAG
    TCCCTCACAT TCATTGACAA GCAGTTGGCA GCTTATATTG CAGACAAGGT GGACGCAGCT
    CAAATGCCTC AGGAAGCCCA GAAAATCCAA TCTGATTTGA CAAGTCATGA GATCAGTTTA
    GAAGAAATGA AGAAACATAA TCAGGGGAAG GAGGCTGCCC AAAGAGTCCT GTCTCAGATT
    GATGTTGCAC AGAAAAAATT ACAAGATGTC TCCATGAAGT TTCGATTATT CCAGAAACCA
    GCCAATTTTG AGCAGCGTCT ACAAGAAAGT AAGATGATTT TAGATGAAGT GAAGATGCAC
    TTGCCTGCAT TGGAAACAAA GAGTGTGGAA CAGGAAGTAG TACAGTCACA GCTAAATCAT
    TGTGTGAACT TGTATAAAAG TCTGAGTGAA GTGAAGTCTG AAGTGGAAAT GGTGATAAAG
    ACTGGACGTC AGATTGTACA GAAAAAGCAG ACGGAAAATC CCAAAGAACT TGATGAAAGA
    GTAACAGCTT TGAAATTGCA TTATAATGAG CTGGGAGCAA AGGTAACAGA AAGAAAGCAA
    CAGTTGGAGA AATGCTTGAA ATTGTCCCGT AAGATGCGAA AGGAAATGAA TGTCTTGACA
    GAATGGCTGG CAGCTACAGA TATGGAATTG ACAAAGAGAT CAGCAGTTGA AGGAATGCCT
    AGTAATTTGG ATTCTGAAGT TGCCTGGGGA AAGGCTACTC AAAAAGAGAT TGAGAAACAG
    AAGGTGCACC TGAAGAGTAT CACAGAGGTA GGAGAGGCCT TGAAAACAGT TTTGGGCAAG
    AAGGAGACGT TGGTGGAAGA TAAACTCAGT CTTCTGAATA GTAACTGGAT AGCTGTCACC
    TCCCGAGCAG AAGAGTGGTT AAATCTTTTG TTGGAATACC AGAAACACAT GGAAACTTTT
    GACCAGAATG TGGACCACAT CACAAAGTGG ATCATTCAGG CTGACACACT TTTGGATGAA
    TCAGAGAAAA AGAAACCCCA GCAAAAAGAA GACGTGCTTA AGCGTTTAAA GGCAGAACTG
    AATGACATAC GCCCAAAGGT GGACTCTACA CGTGACCAAG CAGCAAACTT GATGGCAAAC
    CGCGGTGACC ACTGCAGGAA ATTAGTAGAG CCCCAAATCT CAGAGCTCAA CCATCGATTT
    GCAGCCATTT CACACAGAAT TAAGACTGGA AAGGCCTCCA TTCCTTTGAA GGAATTGGAG
    CAGTTTAACT CAGATATACA AAAATTGCTT GAACCACTGG AGGCTGAAAT TCAGCAGGGG
    GTGAATCTGA AAGAGGAAGA CTTCAATAAA GATATGAATG AAGACAATGA GGGTACTGTA
    AAAGAATTGT TGCAAAGAGG AGACAACTTA CAACAAAGAA TCACAGATGA GAGAAAGCGA
    GAGGAAATAA AGATAAAACA GCAGCTGTTA CAGACAAAAC ATAATGCTCT CAAGGATTTG
    AGGTCTCAAA GAAGAAAAAA GGCTCTAGAA ATTTCTCATC AGTGGTATCA GTACAAGAGG
    CAGGCTGATG ATCTCCTGAA ATGCTTGGAT GACATTGAAA AAAAATTAGC CAGCCTACCT
    GAGCCCAGAG ATGAAAGGAA AATAAAGGAA ATTGATCGGG AATTGCAGAA GAAGAAAGAG
    GAGCTGAATG CAGTGCGTAG GCAAGCTGAG GGCTTGTCTG AGGATGGGGC CGCAATGGCA
    GTGGAGCCAA CTCAGATCCA GCTCAGCAAG CGCTGGCGGG AAATTGAGAG CAAATTTGCT
    CAGTTTCGAA GACTCAACTT TGCACAAATT CACACTGTCC GTGAAGAAAC GATGATGGTG
    ATGACTGAAG ACATGCCTTT GGAAATTTCT TATGTGCCTT CTACTTATTT GACTGAAATC
    ACTCATGTCT CACAAGCCCT ATTAGAAGTG GAACAACTTC TCAATGCTCC TGACCTCTGT
    GCTAAGGACT TTGAAGATCT CTTTAAGCAA GAGGAGTCTC TGAAGAATAT AAAAGATAGT
    CTACAACAAA GCTCAGGTCG GATTGACATT ATTCATAGCA AGAAGACAGC AGCATTGCAA
    AGTGCAACGC CTGTGGAAAG GGTGAAGCTA CAGGAAGCTC TCTCCCAGCT TGATTTCCAA
    TGGGAAAAAG TTAACAAAAT GTACAAGGAC CGACAAGGGC GATTTGACAG ATCTGTTGAG
    AAATGGCGGC GTTTTCATTA TGATATAAAG ATATTTAATC AGTGGCTAAC AGAAGCTGAA
    CAGTTTCTCA GAAAGACACA AATTCCTGAG AATTGGGAAC ATGCTAAATA CAAATGGTAT
    CTTAAGGAAC TCCAGGATGG CATTGGGCAG CGGCAAACTG TTGTCAGAAC ATTGAATGCA
    ACTGGGGAAG AAATAATTCA GCAATCCTCA AAAACAGATG CCAGTATTCT ACAGGAAAAA
    TTGGGAAGCC TGAATCTGCG GTGGCAGGAG GTCTGCAAAC AGCTGTCAGA CAGAAAAAAG
    AGGCTAGAAG AACAAAAGAA TATCTTGTCA GAATTTCAAA GAGATTTAAA TGAATTTGTT
    TTATGGTTGG AGGAAGCAGA TAACATTGCT AGTATCCCAC TTGAACCTGG AAAAGAGCAG
    CAACTAAAAG AAAAGCTTGA GCAAGTCAAG TTACTGGTGG AAGAGTTGCC CCTGCGCCAG
    GGAATTCTCA AACAATTAAA TGAAACTGGA GGACCCGTGC TTGTAAGTGC TCCCATAAGC
    CCAGAAGAGC AAGATAAACT TGAAAATAAG CTCAAGCAGA CAAATCTCCA GTGGATAAAG
    GTTTCCAGAG CTTTACCTGA GAAACAAGGA GAAATTGAAG CTCAAATAAA AGACCTTGGG
    CAGCTTGAAA AAAAGCTTGA AGACCTTGAA GAGCAGTTAA ATCATCTGCT GCTGTGGTTA
    TCTCCTATTA GGAATCAGTT GGAAATTTAT AACCAACCAA ACCAAGAAGG ACCATTTGAC
    GTTCAGGAAA CTGAAATAGC AGTTCAAGCT AAACAACCGG ATGTGGAAGA GATTTTGTCT
    AAAGGGCAGC ATTTGTACAA GGAAAAACCA GCCACTCAGC CAGTGAAGAG GAAGTTAGAA
    GATCTGAGCT CTGAGTGGAA GGCGGTAAAC CGTTTACTTC AAGAGCTGAG GGCAAAGCAG
    CCTGACCTAG CTCCTGGACT GACCACTATT GGAGCCTCTC CTACTCAGAC TGTTACTCTG
    GTGACACAAC CTGTGGTTAC TAAGGAAACT GCCATCTCCA AACTAGAAAT GCCATCTTCC
    TTGATGTTGG AGGTACCTGC TCTGGCAGAT TTCAACCGGG CTTGGACAGA ACTTACCGAC
    TGGCTTTCTC TGCTTGATCA AGTTATAAAA TCACAGAGGG TGATGGTGGG TGACCTTGAG
    GATATCAACG AGATGATCAT CAAGCAGAAG GCAACAATGC AGGATTTGGA ACAGAGGCGT
    CCCCAGTTGG AAGAACTCAT TACCGCTGCC CAAAATTTGA AAAACAAGAC CAGCAATCAA
    GAGGCTAGAA CAATCATTAC GGATCGAATT GAAAGAATTC AGAATCAGTG GGATGAAGTA
    CAAGAACACC TTCAGAACCG GAGGCAACAG TTGAATGAAA TGTTAAAGGA TTCAACACAA
    TGGCTGGAAG CTAAGGAAGA AGCTGAGCAG GTCTTAGGAC AGGCCAGAGC CAAGCTTGAG
    TCATGGAAGG AGGGTCCCTA TACAGTAGAT GCAATCCAAA AGAAAATCAC AGAAACCAAG
    CAGTTGGCCA AAGACCTCCG CCAGTGGCAG ACAAATGTAG ATGTGGCAAA TGACTTGGCC
    CTGAAACTTC TCCGGGATTA TTCTGCAGAT GATACCAGAA AAGTCCACAT GATAACAGAG
    AATATCAATG CCTCTTGGAG AAGCATTCAT AAAAGGGTGA GTGAGCGAGA GGCTGCTTTG
    GAAGAAACTC ATAGATTACT GCAACAGTTC CCCCTGGACC TGGAAAAGTT TCTTGCCTGG
    CTTACAGAAG CTGAAACAAC TGCCAATGTC CTACAGGATG CTACCCGTAA GGAAAGGCTC
    CTAGAAGACT CCAAGGGAGT AAAAGAGCTG ATGAAACAAT GGCAAGACCT CCAAGGTGAA
    ATTGAAGCTC ACACAGATGT TTATCACAAC CTGGATGAAA ACAGCCAAAA AATCCTGAGA
    TCCCTGGAAG GTTCCGATGA TGCAGTCCTG TTACAAAGAC GTTTGGATAA CATGAACTTC
    AAGTGGAGTG AACTTCGGAA AAAGTCTCTC AACATTAGGT CCCATTTGGA AGCCAGTTCT
    GACCAGTGGA AGCGTCTGCA CCTTTCTCTG CAGGAACTTC TGGTGTGGCT ACAGCTGAAA
    GATGATGAAT TAAGCCGGCA GGCACCTATT GGAGGCGACT TTCCAGCAGT TCAGAAGCAG
    AACGATGTAC ATAGGGCCTT CAAGAGGGAA TTGAAAACTA AAGAACCTGT AATCATGAGT
    ACTCTTGAGA CTGTACGAAT ATTTCTGACA GAGCAGCCTT TGGAAGGACT AGAGAAACTC
    TACCAGGAGC CCAGAGAGCT GCCTCCTGAG GAGAGAGCCC AGAATGTCAC TCGGCTTCTA
    CGAAAGCAGG CTGAGGAGGT CAATACTGAG TGGGAAAAAT TGAACCTGCA CTCCGCTGAC
    TGGCAGAGAA AAATAGATGA GACCCTTGAA AGACTCCAGG AACTTCAAGA GGCCACGGAT
    GAGCTGGACC TCAAGCTGCG CCAAGCTGAG GTGATCAAGG GATCCTGGCA GCCCGTGGGC
    GATCTCCTCA TTGACTCTCT CCAAGATCAC CTCGAGAAAG TCAAGGCACT TCGAGGAGAA
    ATTGCGCCTC TGAAAGAGAA CGTGAGCCAC GTCAATGACC TTGCTCGCCA GCTTACCACT
    TTGGGCATTC AGCTCTCACC GTATAACCTC AGCACTCTGG AAGACCTGAA CACCAGATGG
    AAGCTTCTGC AGGTGGCCGT CGAGGACCGA GTCAGGCAGC TGCATGAAGC CCACAGGGAC
    TTTGGTCCAG CATCTCAGCA CTTTCTTTCC ACGTCTGTCC AGGGTCCCTG GGAGAGAGCC
    ATCTCGCCAA ACAAAGTGCC CTACTATATC AACCACGAGA CTCAAACAAC TTGCTGGGAC
    CATCCCAAAA TGACAGAGCT CTACCAGTCT TTAGCTGACC TGAATAATGT CAGATTCTCA
    GCTTATAGGA CTGCCATGAA ACTCCGAAGA CTGCAGAAGG CCCTTTGCTT GGATCTCTTG
    AGCCTGTCAG CTGCATGTGA TGCCTTGGAC CAGCACAACC TCAAGCAAAA TGACCAGCCC
    ATGGATATCC TGCAGATTAT TAATTGTTTG ACCACTATTT ATGACCGCCT GGAGCAAGAG
    CACAACAATT TGGTCAACGT CCCTCTCTGC GTGGATATGT GTCTGAACTG GCTGCTGAAT
    GTTTATGATA CGGGACGAAC AGGGAGGATC CGTGTCCTGT CTTTTAAAAC TGGCATCATT
    TCCCTGTGTA AAGCACATTT GGAAGACAAG TACAGATACC TTTTCAAGCA AGTGGCAAGT
    TCAACAGGAT TTTGTGACCA GCGCAGGCTG GGCCTCCTTC TGCATGATTC TATCCAAATT
    CCAAGACAGT TGGGTGAAGT TGCATCCTTT GGGGGCAGTA ACATTGAGCC AAGTGTCCGG
    AGCTGCTTCC AATTTGCTAA TAATAAGCCA GAGATCGAAG CGGCCCTCTT CCTAGACTGG
    ATGAGACTGG AACCCCAGTC CATGGTGTGG CTGCCCGTCC TGCACAGAGT GGCTGCTGCA
    GAAACTGCCA AGCATCAGGC CAAATGTAAC ATCTGCAAAG AGTGTCCAAT CATTGGATTC
    AGGTACAGGA GTCTAAAGCA CTTTAATTAT GACATCTGCC AAAGCTGCTT TTTTTCTGGT
    CGAGTTGCAA AAGGCCATAA AATGCACTAT CCCATGGTGG AATATTGCAC TCCGACTACA
    TCAGGAGAAG ATGTTCGAGA CTTTGCCAAG GTACTAAAAA ACAAATTTCG AACCAAAAGG
    TATTTTGCGA AGCATCCCCG AATGGGCTAC CTGCCAGTGC AGACTGTCTT AGAGGGGGAC
    AACATGGAAA CTCCCGTTAC TCTGATCAAC TTCTGGCCAG TAGATTCTGC GCCTGCCTCG
    TCCCCTCAGC TTTCACACGA TGATACTCAT TCACGCATTG AACATTATGC TAGCAGGCTA
    GCAGAAATGG AAAACAGCAA TGGATCTTAT CTAAATGATA GCATCTCTCC TAATGAGAGC
    ATAGATGATG AACATTTGTT AATCCAGCAT TACTGCCAAA GTTTGAACCA GGACTCCCCC
    CTGAGCCAGC CTCGTAGTCC TGCCCAGATC TTGATTTCCT TAGAGAGTGA GGAAAGAGGG
    GAGCTAGAGA GAATCCTAGC AGATCTTGAG GAAGAAAACA GGAATCTGCA AGCAGAATAT
    GACCGTCTAA AGCAGCAGCA CGAACATAAA GGCCTGTCCC CACTGCCGTC CCCTCCTGAA
    ATGATGCCCA CCTCTCCCCA GAGTCCCCGG GATGCTGAGC TCATTGCTGA GGCCAAGCTA
    CTGCGTCAAC ACAAAGGCCG CCTGGAAGCC AGGATGCAAA TCCTGGAAGA CCACAATAAA
    CAGCTGGAGT CACAGTTACA CAGGCTAAGG CAGCTGCTGG AGCAACCCCA GGCAGAGGCC
    AAAGTGAATG GCACAACGGT GTCCTCTCCT TCTACCTCTC TACAGAGGTC CGACAGCAGT
    CAGCCTATGC TGCTCCGAGT GGTTGGCAGT CAAACTTCGG ACTCCATGGG TGAGGAAGAT
    CTTCTCAGTC CTCCCCAGGA CACAAGCACA GGGTTAGAGG AGGTGATGGA GCAACTCAAC
    AACTCCTTCC CTAGTTCAAG AGGAAGAAAT ACCCCTGGAA AGCCAATGAG AGAGGACACA
    ATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu23821
    Clone ID Related Accession (Same CDS sequence) NM_004006.2
    Accession Version NM_004006.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 11058bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-29
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp427m
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL031643.1, M18533.1, AL109609.5 and BC028720.1. This sequence is a reference standard in the RefSeqGene project. On May 24, 2009 this sequence version replaced NM_004006.1. Transcript Variant: transcript Dp427m encodes the main dystrophin protein found in muscle. As a result of alternative promoter use, exon 1 encodes a unique N-terminal MLWWEEVEDCY aa sequence. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: M18533.1, X14298.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGGTCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGGA ACTCCAGGAT GGCATTGGGC AGCGGCAAAC TGTTGTCAGA
    ACATTGAATG CAACTGGGGA AGAAATAATT CAGCAATCCT CAAAAACAGA TGCCAGTATT
    CTACAGGAAA AATTGGGAAG CCTGAATCTG CGGTGGCAGG AGGTCTGCAA ACAGCTGTCA
    GACAGAAAAA AGAGGCTAGA AGAACAAAAG AATATCTTGT CAGAATTTCA AAGAGATTTA
    AATGAATTTG TTTTATGGTT GGAGGAAGCA GATAACATTG CTAGTATCCC ACTTGAACCT
    GGAAAAGAGC AGCAACTAAA AGAAAAGCTT GAGCAAGTCA AGTTACTGGT GGAAGAGTTG
    CCCCTGCGCC AGGGAATTCT CAAACAATTA AATGAAACTG GAGGACCCGT GCTTGTAAGT
    GCTCCCATAA GCCCAGAAGA GCAAGATAAA CTTGAAAATA AGCTCAAGCA GACAAATCTC
    CAGTGGATAA AGGTTTCCAG AGCTTTACCT GAGAAACAAG GAGAAATTGA AGCTCAAATA
    AAAGACCTTG GGCAGCTTGA AAAAAAGCTT GAAGACCTTG AAGAGCAGTT AAATCATCTG
    CTGCTGTGGT TATCTCCTAT TAGGAATCAG TTGGAAATTT ATAACCAACC AAACCAAGAA
    GGACCATTTG ACGTTCAGGA AACTGAAATA GCAGTTCAAG CTAAACAACC GGATGTGGAA
    GAGATTTTGT CTAAAGGGCA GCATTTGTAC AAGGAAAAAC CAGCCACTCA GCCAGTGAAG
    AGGAAGTTAG AAGATCTGAG CTCTGAGTGG AAGGCGGTAA ACCGTTTACT TCAAGAGCTG
    AGGGCAAAGC AGCCTGACCT AGCTCCTGGA CTGACCACTA TTGGAGCCTC TCCTACTCAG
    ACTGTTACTC TGGTGACACA ACCTGTGGTT ACTAAGGAAA CTGCCATCTC CAAACTAGAA
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGAAGAA ATACCCCTGG AAAGCCAATG
    AGAGAGGACA CAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_003997.1
    CDS245..11302
    Translation

    Target ORF information:

    RefSeq Version NM_004006.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp427m, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004006.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGGTCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGGA ACTCCAGGAT GGCATTGGGC AGCGGCAAAC TGTTGTCAGA
    ACATTGAATG CAACTGGGGA AGAAATAATT CAGCAATCCT CAAAAACAGA TGCCAGTATT
    CTACAGGAAA AATTGGGAAG CCTGAATCTG CGGTGGCAGG AGGTCTGCAA ACAGCTGTCA
    GACAGAAAAA AGAGGCTAGA AGAACAAAAG AATATCTTGT CAGAATTTCA AAGAGATTTA
    AATGAATTTG TTTTATGGTT GGAGGAAGCA GATAACATTG CTAGTATCCC ACTTGAACCT
    GGAAAAGAGC AGCAACTAAA AGAAAAGCTT GAGCAAGTCA AGTTACTGGT GGAAGAGTTG
    CCCCTGCGCC AGGGAATTCT CAAACAATTA AATGAAACTG GAGGACCCGT GCTTGTAAGT
    GCTCCCATAA GCCCAGAAGA GCAAGATAAA CTTGAAAATA AGCTCAAGCA GACAAATCTC
    CAGTGGATAA AGGTTTCCAG AGCTTTACCT GAGAAACAAG GAGAAATTGA AGCTCAAATA
    AAAGACCTTG GGCAGCTTGA AAAAAAGCTT GAAGACCTTG AAGAGCAGTT AAATCATCTG
    CTGCTGTGGT TATCTCCTAT TAGGAATCAG TTGGAAATTT ATAACCAACC AAACCAAGAA
    GGACCATTTG ACGTTCAGGA AACTGAAATA GCAGTTCAAG CTAAACAACC GGATGTGGAA
    GAGATTTTGT CTAAAGGGCA GCATTTGTAC AAGGAAAAAC CAGCCACTCA GCCAGTGAAG
    AGGAAGTTAG AAGATCTGAG CTCTGAGTGG AAGGCGGTAA ACCGTTTACT TCAAGAGCTG
    AGGGCAAAGC AGCCTGACCT AGCTCCTGGA CTGACCACTA TTGGAGCCTC TCCTACTCAG
    ACTGTTACTC TGGTGACACA ACCTGTGGTT ACTAAGGAAA CTGCCATCTC CAAACTAGAA
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCA GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGAAGAA ATACCCCTGG AAAGCCAATG
    AGAGAGGACA CAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu23889
    Clone ID Related Accession (Same CDS sequence) NM_000109.3
    Accession Version NM_000109.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 11034bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-21
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp427c
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL050305.9, BC036103.1, M18533.1, AL109609.5 and BC028720.1. On May 24, 2009 this sequence version replaced NM_000109.2. Transcript Variant: transcript Dp427c is expressed predominantly in neurons of the cortex and the CA regions of the hippocampus. It uses a unique promoter/exon 1 located about 130 kb upstream of the Dp427m transcript promoter. The transcript includes the common exon 2 of transcript Dp427m and has a similar length of 14 kb. The Dp427c isoform contains a unique N-terminal MED sequence, instead of the MLWWEEVEDCY sequence of isoform Dp427m. The remainder of isoform Dp427c is identical to isoform Dp427m. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

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    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    ATGGAAGATG AAAGAGAAGA TGTTCAAAAG AAAACATTCA CAAAATGGGT AAATGCACAA 
    TTTTCTAAGT TTGGGAAGCA GCATATTGAG AACCTCTTCA GTGACCTACA GGATGGGAGG
    CGCCTCCTAG ACCTCCTCGA AGGCCTGACA GGGCAAAAAC TGCCAAAAGA AAAAGGATCC
    ACAAGAGTTC ATGCCCTGAA CAATGTCAAC AAGGCACTGC GGGTTTTGCA GAACAATAAT
    GTTGATTTAG TGAATATTGG AAGTACTGAC ATCGTAGATG GAAATCATAA ACTGACTCTT
    GGTTTGATTT GGAATATAAT CCTCCACTGG CAGGTCAAAA ATGTAATGAA AAATATCATG
    GCTGGATTGC AACAAACCAA CAGTGAAAAG ATTCTCCTGA GCTGGGTCCG ACAATCAACT
    CGTAATTATC CACAGGTTAA TGTAATCAAC TTCACCACCA GCTGGTCTGA TGGCCTGGCT
    TTGAATGCTC TCATCCATAG TCATAGGCCA GACCTATTTG ACTGGAATAG TGTGGTTTGC
    CAGCAGTCAG CCACACAACG ACTGGAACAT GCATTCAACA TCGCCAGATA TCAATTAGGC
    ATAGAGAAAC TACTCGATCC TGAAGATGTT GATACCACCT ATCCAGATAA GAAGTCCATC
    TTAATGTACA TCACATCACT CTTCCAAGTT TTGCCTCAAC AAGTGAGCAT TGAAGCCATC
    CAGGAAGTGG AAATGTTGCC AAGGCCACCT AAAGTGACTA AAGAAGAACA TTTTCAGTTA
    CATCATCAAA TGCACTATTC TCAACAGATC ACGGTCAGTC TAGCACAGGG ATATGAGAGA
    ACTTCTTCCC CTAAGCCTCG ATTCAAGAGC TATGCCTACA CACAGGCTGC TTATGTCACC
    ACCTCTGACC CTACACGGAG CCCATTTCCT TCACAGCATT TGGAAGCTCC TGAAGACAAG
    TCATTTGGCA GTTCATTGAT GGAGAGTGAA GTAAACCTGG ACCGTTATCA AACAGCTTTA
    GAAGAAGTAT TATCGTGGCT TCTTTCTGCT GAGGACACAT TGCAAGCACA AGGAGAGATT
    TCTAATGATG TGGAAGTGGT GAAAGACCAG TTTCATACTC ATGAGGGGTA CATGATGGAT
    TTGACAGCCC ATCAGGGCCG GGTTGGTAAT ATTCTACAAT TGGGAAGTAA GCTGATTGGA
    ACAGGAAAAT TATCAGAAGA TGAAGAAACT GAAGTACAAG AGCAGATGAA TCTCCTAAAT
    TCAAGATGGG AATGCCTCAG GGTAGCTAGC ATGGAAAAAC AAAGCAATTT ACATAGAGTT
    TTAATGGATC TCCAGAATCA GAAACTGAAA GAGTTGAATG ACTGGCTAAC AAAAACAGAA
    GAAAGAACAA GGAAAATGGA GGAAGAGCCT CTTGGACCTG ATCTTGAAGA CCTAAAACGC
    CAAGTACAAC AACATAAGGT GCTTCAAGAA GATCTAGAAC AAGAACAAGT CAGGGTCAAT
    TCTCTCACTC ACATGGTGGT GGTAGTTGAT GAATCTAGTG GAGATCACGC AACTGCTGCT
    TTGGAAGAAC AACTTAAGGT ATTGGGAGAT CGATGGGCAA ACATCTGTAG ATGGACAGAA
    GACCGCTGGG TTCTTTTACA AGACATCCTT CTCAAATGGC AACGTCTTAC TGAAGAACAG
    TGCCTTTTTA GTGCATGGCT TTCAGAAAAA GAAGATGCAG TGAACAAGAT TCACACAACT
    GGCTTTAAAG ATCAAAATGA AATGTTATCA AGTCTTCAAA AACTGGCCGT TTTAAAAGCG
    GATCTAGAAA AGAAAAAGCA ATCCATGGGC AAACTGTATT CACTCAAACA AGATCTTCTT
    TCAACACTGA AGAATAAGTC AGTGACCCAG AAGACGGAAG CATGGCTGGA TAACTTTGCC
    CGGTGTTGGG ATAATTTAGT CCAAAAACTT GAAAAGAGTA CAGCACAGAT TTCACAGGCT
    GTCACCACCA CTCAGCCATC ACTAACACAG ACAACTGTAA TGGAAACAGT AACTACGGTG
    ACCACAAGGG AACAGATCCT GGTAAAGCAT GCTCAAGAGG AACTTCCACC ACCACCTCCC
    CAAAAGAAGA GGCAGATTAC TGTGGATTCT GAAATTAGGA AAAGGTTGGA TGTTGATATA
    ACTGAACTTC ACAGCTGGAT TACTCGCTCA GAAGCTGTGT TGCAGAGTCC TGAATTTGCA
    ATCTTTCGGA AGGAAGGCAA CTTCTCAGAC TTAAAAGAAA AAGTCAATGC CATAGAGCGA
    GAAAAAGCTG AGAAGTTCAG AAAACTGCAA GATGCCAGCA GATCAGCTCA GGCCCTGGTG
    GAACAGATGG TGAATGAGGG TGTTAATGCA GATAGCATCA AACAAGCCTC AGAACAACTG
    AACAGCCGGT GGATCGAATT CTGCCAGTTG CTAAGTGAGA GACTTAACTG GCTGGAGTAT
    CAGAACAACA TCATCGCTTT CTATAATCAG CTACAACAAT TGGAGCAGAT GACAACTACT
    GCTGAAAACT GGTTGAAAAT CCAACCCACC ACCCCATCAG AGCCAACAGC AATTAAAAGT
    CAGTTAAAAA TTTGTAAGGA TGAAGTCAAC CGGCTATCAG GTCTTCAACC TCAAATTGAA
    CGATTAAAAA TTCAAAGCAT AGCCCTGAAA GAGAAAGGAC AAGGACCCAT GTTCCTGGAT
    GCAGACTTTG TGGCCTTTAC AAATCATTTT AAGCAAGTCT TTTCTGATGT GCAGGCCAGA
    GAGAAAGAGC TACAGACAAT TTTTGACACT TTGCCACCAA TGCGCTATCA GGAGACCATG
    AGTGCCATCA GGACATGGGT CCAGCAGTCA GAAACCAAAC TCTCCATACC TCAACTTAGT
    GTCACCGACT ATGAAATCAT GGAGCAGAGA CTCGGGGAAT TGCAGGCTTT ACAAAGTTCT
    CTGCAAGAGC AACAAAGTGG CCTATACTAT CTCAGCACCA CTGTGAAAGA GATGTCGAAG
    AAAGCGCCCT CTGAAATTAG CCGGAAATAT CAATCAGAAT TTGAAGAAAT TGAGGGACGC
    TGGAAGAAGC TCTCCTCCCA GCTGGTTGAG CATTGTCAAA AGCTAGAGGA GCAAATGAAT
    AAACTCCGAA AAATTCAGAA TCACATACAA ACCCTGAAGA AATGGATGGC TGAAGTTGAT
    GTTTTTCTGA AGGAGGAATG GCCTGCCCTT GGGGATTCAG AAATTCTAAA AAAGCAGCTG
    AAACAGTGCA GACTTTTAGT CAGTGATATT CAGACAATTC AGCCCAGTCT AAACAGTGTC
    AATGAAGGTG GGCAGAAGAT AAAGAATGAA GCAGAGCCAG AGTTTGCTTC GAGACTTGAG
    ACAGAACTCA AAGAACTTAA CACTCAGTGG GATCACATGT GCCAACAGGT CTATGCCAGA
    AAGGAGGCCT TGAAGGGAGG TTTGGAGAAA ACTGTAAGCC TCCAGAAAGA TCTATCAGAG
    ATGCACGAAT GGATGACACA AGCTGAAGAA GAGTATCTTG AGAGAGATTT TGAATATAAA
    ACTCCAGATG AATTACAGAA AGCAGTTGAA GAGATGAAGA GAGCTAAAGA AGAGGCCCAA
    CAAAAAGAAG CGAAAGTGAA ACTCCTTACT GAGTCTGTAA ATAGTGTCAT AGCTCAAGCT
    CCACCTGTAG CACAAGAGGC CTTAAAAAAG GAACTTGAAA CTCTAACCAC CAACTACCAG
    TGGCTCTGCA CTAGGCTGAA TGGGAAATGC AAGACTTTGG AAGAAGTTTG GGCATGTTGG
    CATGAGTTAT TGTCATACTT GGAGAAAGCA AACAAGTGGC TAAATGAAGT AGAATTTAAA
    CTTAAAACCA CTGAAAACAT TCCTGGCGGA GCTGAGGAAA TCTCTGAGGT GCTAGATTCA
    CTTGAAAATT TGATGCGACA TTCAGAGGAT AACCCAAATC AGATTCGCAT ATTGGCACAG
    ACCCTAACAG ATGGCGGAGT CATGGATGAG CTAATCAATG AGGAACTTGA GACATTTAAT
    TCTCGTTGGA GGGAACTACA TGAAGAGGCT GTAAGGAGGC AAAAGTTGCT TGAACAGAGC
    ATCCAGTCTG CCCAGGAGAC TGAAAAATCC TTACACTTAA TCCAGGAGTC CCTCACATTC
    ATTGACAAGC AGTTGGCAGC TTATATTGCA GACAAGGTGG ACGCAGCTCA AATGCCTCAG
    GAAGCCCAGA AAATCCAATC TGATTTGACA AGTCATGAGA TCAGTTTAGA AGAAATGAAG
    AAACATAATC AGGGGAAGGA GGCTGCCCAA AGAGTCCTGT CTCAGATTGA TGTTGCACAG
    AAAAAATTAC AAGATGTCTC CATGAAGTTT CGATTATTCC AGAAACCAGC CAATTTTGAG
    CAGCGTCTAC AAGAAAGTAA GATGATTTTA GATGAAGTGA AGATGCACTT GCCTGCATTG
    GAAACAAAGA GTGTGGAACA GGAAGTAGTA CAGTCACAGC TAAATCATTG TGTGAACTTG
    TATAAAAGTC TGAGTGAAGT GAAGTCTGAA GTGGAAATGG TGATAAAGAC TGGACGTCAG
    ATTGTACAGA AAAAGCAGAC GGAAAATCCC AAAGAACTTG ATGAAAGAGT AACAGCTTTG
    AAATTGCATT ATAATGAGCT GGGAGCAAAG GTAACAGAAA GAAAGCAACA GTTGGAGAAA
    TGCTTGAAAT TGTCCCGTAA GATGCGAAAG GAAATGAATG TCTTGACAGA ATGGCTGGCA
    GCTACAGATA TGGAATTGAC AAAGAGATCA GCAGTTGAAG GAATGCCTAG TAATTTGGAT
    TCTGAAGTTG CCTGGGGAAA GGCTACTCAA AAAGAGATTG AGAAACAGAA GGTGCACCTG
    AAGAGTATCA CAGAGGTAGG AGAGGCCTTG AAAACAGTTT TGGGCAAGAA GGAGACGTTG
    GTGGAAGATA AACTCAGTCT TCTGAATAGT AACTGGATAG CTGTCACCTC CCGAGCAGAA
    GAGTGGTTAA ATCTTTTGTT GGAATACCAG AAACACATGG AAACTTTTGA CCAGAATGTG
    GACCACATCA CAAAGTGGAT CATTCAGGCT GACACACTTT TGGATGAATC AGAGAAAAAG
    AAACCCCAGC AAAAAGAAGA CGTGCTTAAG CGTTTAAAGG CAGAACTGAA TGACATACGC
    CCAAAGGTGG ACTCTACACG TGACCAAGCA GCAAACTTGA TGGCAAACCG CGGTGACCAC
    TGCAGGAAAT TAGTAGAGCC CCAAATCTCA GAGCTCAACC ATCGATTTGC AGCCATTTCA
    CACAGAATTA AGACTGGAAA GGCCTCCATT CCTTTGAAGG AATTGGAGCA GTTTAACTCA
    GATATACAAA AATTGCTTGA ACCACTGGAG GCTGAAATTC AGCAGGGGGT GAATCTGAAA
    GAGGAAGACT TCAATAAAGA TATGAATGAA GACAATGAGG GTACTGTAAA AGAATTGTTG
    CAAAGAGGAG ACAACTTACA ACAAAGAATC ACAGATGAGA GAAAGCGAGA GGAAATAAAG
    ATAAAACAGC AGCTGTTACA GACAAAACAT AATGCTCTCA AGGATTTGAG GTCTCAAAGA
    AGAAAAAAGG CTCTAGAAAT TTCTCATCAG TGGTATCAGT ACAAGAGGCA GGCTGATGAT
    CTCCTGAAAT GCTTGGATGA CATTGAAAAA AAATTAGCCA GCCTACCTGA GCCCAGAGAT
    GAAAGGAAAA TAAAGGAAAT TGATCGGGAA TTGCAGAAGA AGAAAGAGGA GCTGAATGCA
    GTGCGTAGGC AAGCTGAGGG CTTGTCTGAG GATGGGGCCG CAATGGCAGT GGAGCCAACT
    CAGATCCAGC TCAGCAAGCG CTGGCGGGAA ATTGAGAGCA AATTTGCTCA GTTTCGAAGA
    CTCAACTTTG CACAAATTCA CACTGTCCGT GAAGAAACGA TGATGGTGAT GACTGAAGAC
    ATGCCTTTGG AAATTTCTTA TGTGCCTTCT ACTTATTTGA CTGAAATCAC TCATGTCTCA
    CAAGCCCTAT TAGAAGTGGA ACAACTTCTC AATGCTCCTG ACCTCTGTGC TAAGGACTTT
    GAAGATCTCT TTAAGCAAGA GGAGTCTCTG AAGAATATAA AAGATAGTCT ACAACAAAGC
    TCAGGTCGGA TTGACATTAT TCATAGCAAG AAGACAGCAG CATTGCAAAG TGCAACGCCT
    GTGGAAAGGG TGAAGCTACA GGAAGCTCTC TCCCAGCTTG ATTTCCAATG GGAAAAAGTT
    AACAAAATGT ACAAGGACCG ACAAGGGCGA TTTGACAGAT CTGTTGAGAA ATGGCGGCGT
    TTTCATTATG ATATAAAGAT ATTTAATCAG TGGCTAACAG AAGCTGAACA GTTTCTCAGA
    AAGACACAAA TTCCTGAGAA TTGGGAACAT GCTAAATACA AATGGTATCT TAAGGAACTC
    CAGGATGGCA TTGGGCAGCG GCAAACTGTT GTCAGAACAT TGAATGCAAC TGGGGAAGAA
    ATAATTCAGC AATCCTCAAA AACAGATGCC AGTATTCTAC AGGAAAAATT GGGAAGCCTG
    AATCTGCGGT GGCAGGAGGT CTGCAAACAG CTGTCAGACA GAAAAAAGAG GCTAGAAGAA
    CAAAAGAATA TCTTGTCAGA ATTTCAAAGA GATTTAAATG AATTTGTTTT ATGGTTGGAG
    GAAGCAGATA ACATTGCTAG TATCCCACTT GAACCTGGAA AAGAGCAGCA ACTAAAAGAA
    AAGCTTGAGC AAGTCAAGTT ACTGGTGGAA GAGTTGCCCC TGCGCCAGGG AATTCTCAAA
    CAATTAAATG AAACTGGAGG ACCCGTGCTT GTAAGTGCTC CCATAAGCCC AGAAGAGCAA
    GATAAACTTG AAAATAAGCT CAAGCAGACA AATCTCCAGT GGATAAAGGT TTCCAGAGCT
    TTACCTGAGA AACAAGGAGA AATTGAAGCT CAAATAAAAG ACCTTGGGCA GCTTGAAAAA
    AAGCTTGAAG ACCTTGAAGA GCAGTTAAAT CATCTGCTGC TGTGGTTATC TCCTATTAGG
    AATCAGTTGG AAATTTATAA CCAACCAAAC CAAGAAGGAC CATTTGACGT TCAGGAAACT
    GAAATAGCAG TTCAAGCTAA ACAACCGGAT GTGGAAGAGA TTTTGTCTAA AGGGCAGCAT
    TTGTACAAGG AAAAACCAGC CACTCAGCCA GTGAAGAGGA AGTTAGAAGA TCTGAGCTCT
    GAGTGGAAGG CGGTAAACCG TTTACTTCAA GAGCTGAGGG CAAAGCAGCC TGACCTAGCT
    CCTGGACTGA CCACTATTGG AGCCTCTCCT ACTCAGACTG TTACTCTGGT GACACAACCT
    GTGGTTACTA AGGAAACTGC CATCTCCAAA CTAGAAATGC CATCTTCCTT GATGTTGGAG
    GTACCTGCTC TGGCAGATTT CAACCGGGCT TGGACAGAAC TTACCGACTG GCTTTCTCTG
    CTTGATCAAG TTATAAAATC ACAGAGGGTG ATGGTGGGTG ACCTTGAGGA TATCAACGAG
    ATGATCATCA AGCAGAAGGC AACAATGCAG GATTTGGAAC AGAGGCGTCC CCAGTTGGAA
    GAACTCATTA CCGCTGCCCA AAATTTGAAA AACAAGACCA GCAATCAAGA GGCTAGAACA
    ATCATTACGG ATCGAATTGA AAGAATTCAG AATCAGTGGG ATGAAGTACA AGAACACCTT
    CAGAACCGGA GGCAACAGTT GAATGAAATG TTAAAGGATT CAACACAATG GCTGGAAGCT
    AAGGAAGAAG CTGAGCAGGT CTTAGGACAG GCCAGAGCCA AGCTTGAGTC ATGGAAGGAG
    GGTCCCTATA CAGTAGATGC AATCCAAAAG AAAATCACAG AAACCAAGCA GTTGGCCAAA
    GACCTCCGCC AGTGGCAGAC AAATGTAGAT GTGGCAAATG ACTTGGCCCT GAAACTTCTC
    CGGGATTATT CTGCAGATGA TACCAGAAAA GTCCACATGA TAACAGAGAA TATCAATGCC
    TCTTGGAGAA GCATTCATAA AAGGGTGAGT GAGCGAGAGG CTGCTTTGGA AGAAACTCAT
    AGATTACTGC AACAGTTCCC CCTGGACCTG GAAAAGTTTC TTGCCTGGCT TACAGAAGCT
    GAAACAACTG CCAATGTCCT ACAGGATGCT ACCCGTAAGG AAAGGCTCCT AGAAGACTCC
    AAGGGAGTAA AAGAGCTGAT GAAACAATGG CAAGACCTCC AAGGTGAAAT TGAAGCTCAC
    ACAGATGTTT ATCACAACCT GGATGAAAAC AGCCAAAAAA TCCTGAGATC CCTGGAAGGT
    TCCGATGATG CAGTCCTGTT ACAAAGACGT TTGGATAACA TGAACTTCAA GTGGAGTGAA
    CTTCGGAAAA AGTCTCTCAA CATTAGGTCC CATTTGGAAG CCAGTTCTGA CCAGTGGAAG
    CGTCTGCACC TTTCTCTGCA GGAACTTCTG GTGTGGCTAC AGCTGAAAGA TGATGAATTA
    AGCCGGCAGG CACCTATTGG AGGCGACTTT CCAGCAGTTC AGAAGCAGAA CGATGTACAT
    AGGGCCTTCA AGAGGGAATT GAAAACTAAA GAACCTGTAA TCATGAGTAC TCTTGAGACT
    GTACGAATAT TTCTGACAGA GCAGCCTTTG GAAGGACTAG AGAAACTCTA CCAGGAGCCC
    AGAGAGCTGC CTCCTGAGGA GAGAGCCCAG AATGTCACTC GGCTTCTACG AAAGCAGGCT
    GAGGAGGTCA ATACTGAGTG GGAAAAATTG AACCTGCACT CCGCTGACTG GCAGAGAAAA
    ATAGATGAGA CCCTTGAAAG ACTCCAGGAA CTTCAAGAGG CCACGGATGA GCTGGACCTC
    AAGCTGCGCC AAGCTGAGGT GATCAAGGGA TCCTGGCAGC CCGTGGGCGA TCTCCTCATT
    GACTCTCTCC AAGATCACCT CGAGAAAGTC AAGGCACTTC GAGGAGAAAT TGCGCCTCTG
    AAAGAGAACG TGAGCCACGT CAATGACCTT GCTCGCCAGC TTACCACTTT GGGCATTCAG
    CTCTCACCGT ATAACCTCAG CACTCTGGAA GACCTGAACA CCAGATGGAA GCTTCTGCAG
    GTGGCCGTCG AGGACCGAGT CAGGCAGCTG CATGAAGCCC ACAGGGACTT TGGTCCAGCA
    TCTCAGCACT TTCTTTCCAC GTCTGTCCAG GGTCCCTGGG AGAGAGCCAT CTCGCCAAAC
    AAAGTGCCCT ACTATATCAA CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GAAGAAATAC CCCTGGAAAG CCAATGAGAG AGGACACAAT GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_000100.2
    CDS345..11378
    Translation

    Target ORF information:

    RefSeq Version NM_000109.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp427c, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_000109.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    ATGGAAGATG AAAGAGAAGA TGTTCAAAAG AAAACATTCA CAAAATGGGT AAATGCACAA 
    TTTTCTAAGT TTGGGAAGCA GCATATTGAG AACCTCTTCA GTGACCTACA GGATGGGAGG
    CGCCTCCTAG ACCTCCTCGA AGGCCTGACA GGGCAAAAAC TGCCAAAAGA AAAAGGATCC
    ACAAGAGTTC ATGCCCTGAA CAATGTCAAC AAGGCACTGC GGGTTTTGCA GAACAATAAT
    GTTGATTTAG TGAATATTGG AAGTACTGAC ATCGTAGATG GAAATCATAA ACTGACTCTT
    GGTTTGATTT GGAATATAAT CCTCCACTGG CAGGTCAAAA ATGTAATGAA AAATATCATG
    GCTGGATTGC AACAAACCAA CAGTGAAAAG ATTCTCCTGA GCTGGGTCCG ACAATCAACT
    CGTAATTATC CACAGGTTAA TGTAATCAAC TTCACCACCA GCTGGTCTGA TGGCCTGGCT
    TTGAATGCTC TCATCCATAG TCATAGGCCA GACCTATTTG ACTGGAATAG TGTGGTTTGC
    CAGCAGTCAG CCACACAACG ACTGGAACAT GCATTCAACA TCGCCAGATA TCAATTAGGC
    ATAGAGAAAC TACTCGATCC TGAAGATGTT GATACCACCT ATCCAGATAA GAAGTCCATC
    TTAATGTACA TCACATCACT CTTCCAAGTT TTGCCTCAAC AAGTGAGCAT TGAAGCCATC
    CAGGAAGTGG AAATGTTGCC AAGGCCACCT AAAGTGACTA AAGAAGAACA TTTTCAGTTA
    CATCATCAAA TGCACTATTC TCAACAGATC ACGGTCAGTC TAGCACAGGG ATATGAGAGA
    ACTTCTTCCC CTAAGCCTCG ATTCAAGAGC TATGCCTACA CACAGGCTGC TTATGTCACC
    ACCTCTGACC CTACACGGAG CCCATTTCCT TCACAGCATT TGGAAGCTCC TGAAGACAAG
    TCATTTGGCA GTTCATTGAT GGAGAGTGAA GTAAACCTGG ACCGTTATCA AACAGCTTTA
    GAAGAAGTAT TATCGTGGCT TCTTTCTGCT GAGGACACAT TGCAAGCACA AGGAGAGATT
    TCTAATGATG TGGAAGTGGT GAAAGACCAG TTTCATACTC ATGAGGGGTA CATGATGGAT
    TTGACAGCCC ATCAGGGCCG GGTTGGTAAT ATTCTACAAT TGGGAAGTAA GCTGATTGGA
    ACAGGAAAAT TATCAGAAGA TGAAGAAACT GAAGTACAAG AGCAGATGAA TCTCCTAAAT
    TCAAGATGGG AATGCCTCAG GGTAGCTAGC ATGGAAAAAC AAAGCAATTT ACATAGAGTT
    TTAATGGATC TCCAGAATCA GAAACTGAAA GAGTTGAATG ACTGGCTAAC AAAAACAGAA
    GAAAGAACAA GGAAAATGGA GGAAGAGCCT CTTGGACCTG ATCTTGAAGA CCTAAAACGC
    CAAGTACAAC AACATAAGGT GCTTCAAGAA GATCTAGAAC AAGAACAAGT CAGGGTCAAT
    TCTCTCACTC ACATGGTGGT GGTAGTTGAT GAATCTAGTG GAGATCACGC AACTGCTGCT
    TTGGAAGAAC AACTTAAGGT ATTGGGAGAT CGATGGGCAA ACATCTGTAG ATGGACAGAA
    GACCGCTGGG TTCTTTTACA AGACATCCTT CTCAAATGGC AACGTCTTAC TGAAGAACAG
    TGCCTTTTTA GTGCATGGCT TTCAGAAAAA GAAGATGCAG TGAACAAGAT TCACACAACT
    GGCTTTAAAG ATCAAAATGA AATGTTATCA AGTCTTCAAA AACTGGCCGT TTTAAAAGCG
    GATCTAGAAA AGAAAAAGCA ATCCATGGGC AAACTGTATT CACTCAAACA AGATCTTCTT
    TCAACACTGA AGAATAAGTC AGTGACCCAG AAGACGGAAG CATGGCTGGA TAACTTTGCC
    CGGTGTTGGG ATAATTTAGT CCAAAAACTT GAAAAGAGTA CAGCACAGAT TTCACAGGCT
    GTCACCACCA CTCAGCCATC ACTAACACAG ACAACTGTAA TGGAAACAGT AACTACGGTG
    ACCACAAGGG AACAGATCCT GGTAAAGCAT GCTCAAGAGG AACTTCCACC ACCACCTCCC
    CAAAAGAAGA GGCAGATTAC TGTGGATTCT GAAATTAGGA AAAGGTTGGA TGTTGATATA
    ACTGAACTTC ACAGCTGGAT TACTCGCTCA GAAGCTGTGT TGCAGAGTCC TGAATTTGCA
    ATCTTTCGGA AGGAAGGCAA CTTCTCAGAC TTAAAAGAAA AAGTCAATGC CATAGAGCGA
    GAAAAAGCTG AGAAGTTCAG AAAACTGCAA GATGCCAGCA GATCAGCTCA GGCCCTGGTG
    GAACAGATGG TGAATGAGGG TGTTAATGCA GATAGCATCA AACAAGCCTC AGAACAACTG
    AACAGCCGGT GGATCGAATT CTGCCAGTTG CTAAGTGAGA GACTTAACTG GCTGGAGTAT
    CAGAACAACA TCATCGCTTT CTATAATCAG CTACAACAAT TGGAGCAGAT GACAACTACT
    GCTGAAAACT GGTTGAAAAT CCAACCCACC ACCCCATCAG AGCCAACAGC AATTAAAAGT
    CAGTTAAAAA TTTGTAAGGA TGAAGTCAAC CGGCTATCAG GTCTTCAACC TCAAATTGAA
    CGATTAAAAA TTCAAAGCAT AGCCCTGAAA GAGAAAGGAC AAGGACCCAT GTTCCTGGAT
    GCAGACTTTG TGGCCTTTAC AAATCATTTT AAGCAAGTCT TTTCTGATGT GCAGGCCAGA
    GAGAAAGAGC TACAGACAAT TTTTGACACT TTGCCACCAA TGCGCTATCA GGAGACCATG
    AGTGCCATCA GGACATGGGT CCAGCAGTCA GAAACCAAAC TCTCCATACC TCAACTTAGT
    GTCACCGACT ATGAAATCAT GGAGCAGAGA CTCGGGGAAT TGCAGGCTTT ACAAAGTTCT
    CTGCAAGAGC AACAAAGTGG CCTATACTAT CTCAGCACCA CTGTGAAAGA GATGTCGAAG
    AAAGCGCCCT CTGAAATTAG CCGGAAATAT CAATCAGAAT TTGAAGAAAT TGAGGGACGC
    TGGAAGAAGC TCTCCTCCCA GCTGGTTGAG CATTGTCAAA AGCTAGAGGA GCAAATGAAT
    AAACTCCGAA AAATTCAGAA TCACATACAA ACCCTGAAGA AATGGATGGC TGAAGTTGAT
    GTTTTTCTGA AGGAGGAATG GCCTGCCCTT GGGGATTCAG AAATTCTAAA AAAGCAGCTG
    AAACAGTGCA GACTTTTAGT CAGTGATATT CAGACAATTC AGCCCAGTCT AAACAGTGTC
    AATGAAGGTG GGCAGAAGAT AAAGAATGAA GCAGAGCCAG AGTTTGCTTC GAGACTTGAG
    ACAGAACTCA AAGAACTTAA CACTCAGTGG GATCACATGT GCCAACAGGT CTATGCCAGA
    AAGGAGGCCT TGAAGGGAGG TTTGGAGAAA ACTGTAAGCC TCCAGAAAGA TCTATCAGAG
    ATGCACGAAT GGATGACACA AGCTGAAGAA GAGTATCTTG AGAGAGATTT TGAATATAAA
    ACTCCAGATG AATTACAGAA AGCAGTTGAA GAGATGAAGA GAGCTAAAGA AGAGGCCCAA
    CAAAAAGAAG CGAAAGTGAA ACTCCTTACT GAGTCTGTAA ATAGTGTCAT AGCTCAAGCT
    CCACCTGTAG CACAAGAGGC CTTAAAAAAG GAACTTGAAA CTCTAACCAC CAACTACCAG
    TGGCTCTGCA CTAGGCTGAA TGGGAAATGC AAGACTTTGG AAGAAGTTTG GGCATGTTGG
    CATGAGTTAT TGTCATACTT GGAGAAAGCA AACAAGTGGC TAAATGAAGT AGAATTTAAA
    CTTAAAACCA CTGAAAACAT TCCTGGCGGA GCTGAGGAAA TCTCTGAGGT GCTAGATTCA
    CTTGAAAATT TGATGCGACA TTCAGAGGAT AACCCAAATC AGATTCGCAT ATTGGCACAG
    ACCCTAACAG ATGGCGGAGT CATGGATGAG CTAATCAATG AGGAACTTGA GACATTTAAT
    TCTCGTTGGA GGGAACTACA TGAAGAGGCT GTAAGGAGGC AAAAGTTGCT TGAACAGAGC
    ATCCAGTCTG CCCAGGAGAC TGAAAAATCC TTACACTTAA TCCAGGAGTC CCTCACATTC
    ATTGACAAGC AGTTGGCAGC TTATATTGCA GACAAGGTGG ACGCAGCTCA AATGCCTCAG
    GAAGCCCAGA AAATCCAATC TGATTTGACA AGTCATGAGA TCAGTTTAGA AGAAATGAAG
    AAACATAATC AGGGGAAGGA GGCTGCCCAA AGAGTCCTGT CTCAGATTGA TGTTGCACAG
    AAAAAATTAC AAGATGTCTC CATGAAGTTT CGATTATTCC AGAAACCAGC CAATTTTGAG
    CAGCGTCTAC AAGAAAGTAA GATGATTTTA GATGAAGTGA AGATGCACTT GCCTGCATTG
    GAAACAAAGA GTGTGGAACA GGAAGTAGTA CAGTCACAGC TAAATCATTG TGTGAACTTG
    TATAAAAGTC TGAGTGAAGT GAAGTCTGAA GTGGAAATGG TGATAAAGAC TGGACGTCAG
    ATTGTACAGA AAAAGCAGAC GGAAAATCCC AAAGAACTTG ATGAAAGAGT AACAGCTTTG
    AAATTGCATT ATAATGAGCT GGGAGCAAAG GTAACAGAAA GAAAGCAACA GTTGGAGAAA
    TGCTTGAAAT TGTCCCGTAA GATGCGAAAG GAAATGAATG TCTTGACAGA ATGGCTGGCA
    GCTACAGATA TGGAATTGAC AAAGAGATCA GCAGTTGAAG GAATGCCTAG TAATTTGGAT
    TCTGAAGTTG CCTGGGGAAA GGCTACTCAA AAAGAGATTG AGAAACAGAA GGTGCACCTG
    AAGAGTATCA CAGAGGTAGG AGAGGCCTTG AAAACAGTTT TGGGCAAGAA GGAGACGTTG
    GTGGAAGATA AACTCAGTCT TCTGAATAGT AACTGGATAG CTGTCACCTC CCGAGCAGAA
    GAGTGGTTAA ATCTTTTGTT GGAATACCAG AAACACATGG AAACTTTTGA CCAGAATGTG
    GACCACATCA CAAAGTGGAT CATTCAGGCT GACACACTTT TGGATGAATC AGAGAAAAAG
    AAACCCCAGC AAAAAGAAGA CGTGCTTAAG CGTTTAAAGG CAGAACTGAA TGACATACGC
    CCAAAGGTGG ACTCTACACG TGACCAAGCA GCAAACTTGA TGGCAAACCG CGGTGACCAC
    TGCAGGAAAT TAGTAGAGCC CCAAATCTCA GAGCTCAACC ATCGATTTGC AGCCATTTCA
    CACAGAATTA AGACTGGAAA GGCCTCCATT CCTTTGAAGG AATTGGAGCA GTTTAACTCA
    GATATACAAA AATTGCTTGA ACCACTGGAG GCTGAAATTC AGCAGGGGGT GAATCTGAAA
    GAGGAAGACT TCAATAAAGA TATGAATGAA GACAATGAGG GTACTGTAAA AGAATTGTTG
    CAAAGAGGAG ACAACTTACA ACAAAGAATC ACAGATGAGA GAAAGCGAGA GGAAATAAAG
    ATAAAACAGC AGCTGTTACA GACAAAACAT AATGCTCTCA AGGATTTGAG GTCTCAAAGA
    AGAAAAAAGG CTCTAGAAAT TTCTCATCAG TGGTATCAGT ACAAGAGGCA GGCTGATGAT
    CTCCTGAAAT GCTTGGATGA CATTGAAAAA AAATTAGCCA GCCTACCTGA GCCCAGAGAT
    GAAAGGAAAA TAAAGGAAAT TGATCGGGAA TTGCAGAAGA AGAAAGAGGA GCTGAATGCA
    GTGCGTAGGC AAGCTGAGGG CTTGTCTGAG GATGGGGCCG CAATGGCAGT GGAGCCAACT
    CAGATCCAGC TCAGCAAGCG CTGGCGGGAA ATTGAGAGCA AATTTGCTCA GTTTCGAAGA
    CTCAACTTTG CACAAATTCA CACTGTCCGT GAAGAAACGA TGATGGTGAT GACTGAAGAC
    ATGCCTTTGG AAATTTCTTA TGTGCCTTCT ACTTATTTGA CTGAAATCAC TCATGTCTCA
    CAAGCCCTAT TAGAAGTGGA ACAACTTCTC AATGCTCCTG ACCTCTGTGC TAAGGACTTT
    GAAGATCTCT TTAAGCAAGA GGAGTCTCTG AAGAATATAA AAGATAGTCT ACAACAAAGC
    TCAGGTCGGA TTGACATTAT TCATAGCAAG AAGACAGCAG CATTGCAAAG TGCAACGCCT
    GTGGAAAGGG TGAAGCTACA GGAAGCTCTC TCCCAGCTTG ATTTCCAATG GGAAAAAGTT
    AACAAAATGT ACAAGGACCG ACAAGGGCGA TTTGACAGAT CTGTTGAGAA ATGGCGGCGT
    TTTCATTATG ATATAAAGAT ATTTAATCAG TGGCTAACAG AAGCTGAACA GTTTCTCAGA
    AAGACACAAA TTCCTGAGAA TTGGGAACAT GCTAAATACA AATGGTATCT TAAGGAACTC
    CAGGATGGCA TTGGGCAGCG GCAAACTGTT GTCAGAACAT TGAATGCAAC TGGGGAAGAA
    ATAATTCAGC AATCCTCAAA AACAGATGCC AGTATTCTAC AGGAAAAATT GGGAAGCCTG
    AATCTGCGGT GGCAGGAGGT CTGCAAACAG CTGTCAGACA GAAAAAAGAG GCTAGAAGAA
    CAAAAGAATA TCTTGTCAGA ATTTCAAAGA GATTTAAATG AATTTGTTTT ATGGTTGGAG
    GAAGCAGATA ACATTGCTAG TATCCCACTT GAACCTGGAA AAGAGCAGCA ACTAAAAGAA
    AAGCTTGAGC AAGTCAAGTT ACTGGTGGAA GAGTTGCCCC TGCGCCAGGG AATTCTCAAA
    CAATTAAATG AAACTGGAGG ACCCGTGCTT GTAAGTGCTC CCATAAGCCC AGAAGAGCAA
    GATAAACTTG AAAATAAGCT CAAGCAGACA AATCTCCAGT GGATAAAGGT TTCCAGAGCT
    TTACCTGAGA AACAAGGAGA AATTGAAGCT CAAATAAAAG ACCTTGGGCA GCTTGAAAAA
    AAGCTTGAAG ACCTTGAAGA GCAGTTAAAT CATCTGCTGC TGTGGTTATC TCCTATTAGG
    AATCAGTTGG AAATTTATAA CCAACCAAAC CAAGAAGGAC CATTTGACGT TCAGGAAACT
    GAAATAGCAG TTCAAGCTAA ACAACCGGAT GTGGAAGAGA TTTTGTCTAA AGGGCAGCAT
    TTGTACAAGG AAAAACCAGC CACTCAGCCA GTGAAGAGGA AGTTAGAAGA TCTGAGCTCT
    GAGTGGAAGG CGGTAAACCG TTTACTTCAA GAGCTGAGGG CAAAGCAGCC TGACCTAGCT
    CCTGGACTGA CCACTATTGG AGCCTCTCCT ACTCAGACTG TTACTCTGGT GACACAACCT
    GTGGTTACTA AGGAAACTGC CATCTCCAAA CTAGAAATGC CATCTTCCTT GATGTTGGAG
    GTACCTGCTC TGGCAGATTT CAACCGGGCT TGGACAGAAC TTACCGACTG GCTTTCTCTG
    CTTGATCAAG TTATAAAATC ACAGAGGGTG ATGGTGGGTG ACCTTGAGGA TATCAACGAG
    ATGATCATCA AGCAGAAGGC AACAATGCAG GATTTGGAAC AGAGGCGTCC CCAGTTGGAA
    GAACTCATTA CCGCTGCCCA AAATTTGAAA AACAAGACCA GCAATCAAGA GGCTAGAACA
    ATCATTACGG ATCGAATTGA AAGAATTCAG AATCAGTGGG ATGAAGTACA AGAACACCTT
    CAGAACCGGA GGCAACAGTT GAATGAAATG TTAAAGGATT CAACACAATG GCTGGAAGCT
    AAGGAAGAAG CTGAGCAGGT CTTAGGACAG GCCAGAGCCA AGCTTGAGTC ATGGAAGGAG
    GGTCCCTATA CAGTAGATGC AATCCAAAAG AAAATCACAG AAACCAAGCA GTTGGCCAAA
    GACCTCCGCC AGTGGCAGAC AAATGTAGAT GTGGCAAATG ACTTGGCCCT GAAACTTCTC
    CGGGATTATT CTGCAGATGA TACCAGAAAA GTCCACATGA TAACAGAGAA TATCAATGCC
    TCTTGGAGAA GCATTCATAA AAGGGTGAGT GAGCGAGAGG CTGCTTTGGA AGAAACTCAT
    AGATTACTGC AACAGTTCCC CCTGGACCTG GAAAAGTTTC TTGCCTGGCT TACAGAAGCT
    GAAACAACTG CCAATGTCCT ACAGGATGCT ACCCGTAAGG AAAGGCTCCT AGAAGACTCC
    AAGGGAGTAA AAGAGCTGAT GAAACAATGG CAAGACCTCC AAGGTGAAAT TGAAGCTCAC
    ACAGATGTTT ATCACAACCT GGATGAAAAC AGCCAAAAAA TCCTGAGATC CCTGGAAGGT
    TCCGATGATG CAGTCCTGTT ACAAAGACGT TTGGATAACA TGAACTTCAA GTGGAGTGAA
    CTTCGGAAAA AGTCTCTCAA CATTAGGTCC CATTTGGAAG CCAGTTCTGA CCAGTGGAAG
    CGTCTGCACC TTTCTCTGCA GGAACTTCTG GTGTGGCTAC AGCTGAAAGA TGATGAATTA
    AGCCGGCAGG CACCTATTGG AGGCGACTTT CCAGCAGTTC AGAAGCAGAA CGATGTACAT
    AGGGCCTTCA AGAGGGAATT GAAAACTAAA GAACCTGTAA TCATGAGTAC TCTTGAGACT
    GTACGAATAT TTCTGACAGA GCAGCCTTTG GAAGGACTAG AGAAACTCTA CCAGGAGCCC
    AGAGAGCTGC CTCCTGAGGA GAGAGCCCAG AATGTCACTC GGCTTCTACG AAAGCAGGCT
    GAGGAGGTCA ATACTGAGTG GGAAAAATTG AACCTGCACT CCGCTGACTG GCAGAGAAAA
    ATAGATGAGA CCCTTGAAAG ACTCCAGGAA CTTCAAGAGG CCACGGATGA GCTGGACCTC
    AAGCTGCGCC AAGCTGAGGT GATCAAGGGA TCCTGGCAGC CCGTGGGCGA TCTCCTCATT
    GACTCTCTCC AAGATCACCT CGAGAAAGTC AAGGCACTTC GAGGAGAAAT TGCGCCTCTG
    AAAGAGAACG TGAGCCACGT CAATGACCTT GCTCGCCAGC TTACCACTTT GGGCATTCAG
    CTCTCACCGT ATAACCTCAG CACTCTGGAA GACCTGAACA CCAGATGGAA GCTTCTGCAG
    GTGGCCGTCG AGGACCGAGT CAGGCAGCTG CATGAAGCCC ACAGGGACTT TGGTCCAGCA
    TCTCAGCACT TTCTTTCCAC GTCTGTCCAG GGTCCCTGGG AGAGAGCCAT CTCGCCAAAC
    AAAGTGCCCT ACTATATCAA CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GAAGAAATAC CCCTGGAAAG CCAATGAGAG AGGACACAAT GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu24058
    Clone ID Related Accession (Same CDS sequence) NM_004010.3
    Accession Version NM_004010.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 10689bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-26
    Organism Homo sapiens(human)
    Product dystrophin isoform Dp427p2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL049643.12, S64152.1, M18533.1, AL109609.5 and BC028720.1. On May 24, 2009 this sequence version replaced NM_004010.2. Transcript Variant: transcript Dp427p2 has an additional 82 nt directly after exon 1 which introduces a translational stop codon 24 bp downstream of the same ATG codon included in the Dp427p1 transcript. This transcript has unknown coding capacity. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    ATGAAAAATA TCATGGCTGG ATTGCAACAA ACCAACAGTG AAAAGATTCT CCTGAGCTGG 
    GTCCGACAAT CAACTCGTAA TTATCCACAG GTTAATGTAA TCAACTTCAC CACCAGCTGG
    TCTGATGGCC TGGCTTTGAA TGCTCTCATC CATAGTCATA GGCCAGACCT ATTTGACTGG
    AATAGTGTGG TTTGCCAGCA GTCAGCCACA CAACGACTGG AACATGCATT CAACATCGCC
    AGATATCAAT TAGGCATAGA GAAACTACTC GATCCTGAAG ATGTTGATAC CACCTATCCA
    GATAAGAAGT CCATCTTAAT GTACATCACA TCACTCTTCC AAGTTTTGCC TCAACAAGTG
    AGCATTGAAG CCATCCAGGA AGTGGAAATG TTGCCAAGGC CACCTAAAGT GACTAAAGAA
    GAACATTTTC AGTTACATCA TCAAATGCAC TATTCTCAAC AGATCACGGT CAGTCTAGCA
    CAGGGATATG AGAGAACTTC TTCCCCTAAG CCTCGATTCA AGAGCTATGC CTACACACAG
    GCTGCTTATG TCACCACCTC TGACCCTACA CGGAGCCCAT TTCCTTCACA GCATTTGGAA
    GCTCCTGAAG ACAAGTCATT TGGCAGTTCA TTGATGGAGA GTGAAGTAAA CCTGGACCGT
    TATCAAACAG CTTTAGAAGA AGTATTATCG TGGCTTCTTT CTGCTGAGGA CACATTGCAA
    GCACAAGGAG AGATTTCTAA TGATGTGGAA GTGGTGAAAG ACCAGTTTCA TACTCATGAG
    GGGTACATGA TGGATTTGAC AGCCCATCAG GGCCGGGTTG GTAATATTCT ACAATTGGGA
    AGTAAGCTGA TTGGAACAGG AAAATTATCA GAAGATGAAG AAACTGAAGT ACAAGAGCAG
    ATGAATCTCC TAAATTCAAG ATGGGAATGC CTCAGGGTAG CTAGCATGGA AAAACAAAGC
    AATTTACATA GAGTTTTAAT GGATCTCCAG AATCAGAAAC TGAAAGAGTT GAATGACTGG
    CTAACAAAAA CAGAAGAAAG AACAAGGAAA ATGGAGGAAG AGCCTCTTGG ACCTGATCTT
    GAAGACCTAA AACGCCAAGT ACAACAACAT AAGGTGCTTC AAGAAGATCT AGAACAAGAA
    CAAGTCAGGG TCAATTCTCT CACTCACATG GTGGTGGTAG TTGATGAATC TAGTGGAGAT
    CACGCAACTG CTGCTTTGGA AGAACAACTT AAGGTATTGG GAGATCGATG GGCAAACATC
    TGTAGATGGA CAGAAGACCG CTGGGTTCTT TTACAAGACA TCCTTCTCAA ATGGCAACGT
    CTTACTGAAG AACAGTGCCT TTTTAGTGCA TGGCTTTCAG AAAAAGAAGA TGCAGTGAAC
    AAGATTCACA CAACTGGCTT TAAAGATCAA AATGAAATGT TATCAAGTCT TCAAAAACTG
    GCCGTTTTAA AAGCGGATCT AGAAAAGAAA AAGCAATCCA TGGGCAAACT GTATTCACTC
    AAACAAGATC TTCTTTCAAC ACTGAAGAAT AAGTCAGTGA CCCAGAAGAC GGAAGCATGG
    CTGGATAACT TTGCCCGGTG TTGGGATAAT TTAGTCCAAA AACTTGAAAA GAGTACAGCA
    CAGATTTCAC AGGCTGTCAC CACCACTCAG CCATCACTAA CACAGACAAC TGTAATGGAA
    ACAGTAACTA CGGTGACCAC AAGGGAACAG ATCCTGGTAA AGCATGCTCA AGAGGAACTT
    CCACCACCAC CTCCCCAAAA GAAGAGGCAG ATTACTGTGG ATTCTGAAAT TAGGAAAAGG
    TTGGATGTTG ATATAACTGA ACTTCACAGC TGGATTACTC GCTCAGAAGC TGTGTTGCAG
    AGTCCTGAAT TTGCAATCTT TCGGAAGGAA GGCAACTTCT CAGACTTAAA AGAAAAAGTC
    AATGCCATAG AGCGAGAAAA AGCTGAGAAG TTCAGAAAAC TGCAAGATGC CAGCAGATCA
    GCTCAGGCCC TGGTGGAACA GATGGTGAAT GAGGGTGTTA ATGCAGATAG CATCAAACAA
    GCCTCAGAAC AACTGAACAG CCGGTGGATC GAATTCTGCC AGTTGCTAAG TGAGAGACTT
    AACTGGCTGG AGTATCAGAA CAACATCATC GCTTTCTATA ATCAGCTACA ACAATTGGAG
    CAGATGACAA CTACTGCTGA AAACTGGTTG AAAATCCAAC CCACCACCCC ATCAGAGCCA
    ACAGCAATTA AAAGTCAGTT AAAAATTTGT AAGGATGAAG TCAACCGGCT ATCAGGTCTT
    CAACCTCAAA TTGAACGATT AAAAATTCAA AGCATAGCCC TGAAAGAGAA AGGACAAGGA
    CCCATGTTCC TGGATGCAGA CTTTGTGGCC TTTACAAATC ATTTTAAGCA AGTCTTTTCT
    GATGTGCAGG CCAGAGAGAA AGAGCTACAG ACAATTTTTG ACACTTTGCC ACCAATGCGC
    TATCAGGAGA CCATGAGTGC CATCAGGACA TGGGTCCAGC AGTCAGAAAC CAAACTCTCC
    ATACCTCAAC TTAGTGTCAC CGACTATGAA ATCATGGAGC AGAGACTCGG GGAATTGCAG
    GCTTTACAAA GTTCTCTGCA AGAGCAACAA AGTGGCCTAT ACTATCTCAG CACCACTGTG
    AAAGAGATGT CGAAGAAAGC GCCCTCTGAA ATTAGCCGGA AATATCAATC AGAATTTGAA
    GAAATTGAGG GACGCTGGAA GAAGCTCTCC TCCCAGCTGG TTGAGCATTG TCAAAAGCTA
    GAGGAGCAAA TGAATAAACT CCGAAAAATT CAGAATCACA TACAAACCCT GAAGAAATGG
    ATGGCTGAAG TTGATGTTTT TCTGAAGGAG GAATGGCCTG CCCTTGGGGA TTCAGAAATT
    CTAAAAAAGC AGCTGAAACA GTGCAGACTT TTAGTCAGTG ATATTCAGAC AATTCAGCCC
    AGTCTAAACA GTGTCAATGA AGGTGGGCAG AAGATAAAGA ATGAAGCAGA GCCAGAGTTT
    GCTTCGAGAC TTGAGACAGA ACTCAAAGAA CTTAACACTC AGTGGGATCA CATGTGCCAA
    CAGGTCTATG CCAGAAAGGA GGCCTTGAAG GGAGGTTTGG AGAAAACTGT AAGCCTCCAG
    AAAGATCTAT CAGAGATGCA CGAATGGATG ACACAAGCTG AAGAAGAGTA TCTTGAGAGA
    GATTTTGAAT ATAAAACTCC AGATGAATTA CAGAAAGCAG TTGAAGAGAT GAAGAGAGCT
    AAAGAAGAGG CCCAACAAAA AGAAGCGAAA GTGAAACTCC TTACTGAGTC TGTAAATAGT
    GTCATAGCTC AAGCTCCACC TGTAGCACAA GAGGCCTTAA AAAAGGAACT TGAAACTCTA
    ACCACCAACT ACCAGTGGCT CTGCACTAGG CTGAATGGGA AATGCAAGAC TTTGGAAGAA
    GTTTGGGCAT GTTGGCATGA GTTATTGTCA TACTTGGAGA AAGCAAACAA GTGGCTAAAT
    GAAGTAGAAT TTAAACTTAA AACCACTGAA AACATTCCTG GCGGAGCTGA GGAAATCTCT
    GAGGTGCTAG ATTCACTTGA AAATTTGATG CGACATTCAG AGGATAACCC AAATCAGATT
    CGCATATTGG CACAGACCCT AACAGATGGC GGAGTCATGG ATGAGCTAAT CAATGAGGAA
    CTTGAGACAT TTAATTCTCG TTGGAGGGAA CTACATGAAG AGGCTGTAAG GAGGCAAAAG
    TTGCTTGAAC AGAGCATCCA GTCTGCCCAG GAGACTGAAA AATCCTTACA CTTAATCCAG
    GAGTCCCTCA CATTCATTGA CAAGCAGTTG GCAGCTTATA TTGCAGACAA GGTGGACGCA
    GCTCAAATGC CTCAGGAAGC CCAGAAAATC CAATCTGATT TGACAAGTCA TGAGATCAGT
    TTAGAAGAAA TGAAGAAACA TAATCAGGGG AAGGAGGCTG CCCAAAGAGT CCTGTCTCAG
    ATTGATGTTG CACAGAAAAA ATTACAAGAT GTCTCCATGA AGTTTCGATT ATTCCAGAAA
    CCAGCCAATT TTGAGCAGCG TCTACAAGAA AGTAAGATGA TTTTAGATGA AGTGAAGATG
    CACTTGCCTG CATTGGAAAC AAAGAGTGTG GAACAGGAAG TAGTACAGTC ACAGCTAAAT
    CATTGTGTGA ACTTGTATAA AAGTCTGAGT GAAGTGAAGT CTGAAGTGGA AATGGTGATA
    AAGACTGGAC GTCAGATTGT ACAGAAAAAG CAGACGGAAA ATCCCAAAGA ACTTGATGAA
    AGAGTAACAG CTTTGAAATT GCATTATAAT GAGCTGGGAG CAAAGGTAAC AGAAAGAAAG
    CAACAGTTGG AGAAATGCTT GAAATTGTCC CGTAAGATGC GAAAGGAAAT GAATGTCTTG
    ACAGAATGGC TGGCAGCTAC AGATATGGAA TTGACAAAGA GATCAGCAGT TGAAGGAATG
    CCTAGTAATT TGGATTCTGA AGTTGCCTGG GGAAAGGCTA CTCAAAAAGA GATTGAGAAA
    CAGAAGGTGC ACCTGAAGAG TATCACAGAG GTAGGAGAGG CCTTGAAAAC AGTTTTGGGC
    AAGAAGGAGA CGTTGGTGGA AGATAAACTC AGTCTTCTGA ATAGTAACTG GATAGCTGTC
    ACCTCCCGAG CAGAAGAGTG GTTAAATCTT TTGTTGGAAT ACCAGAAACA CATGGAAACT
    TTTGACCAGA ATGTGGACCA CATCACAAAG TGGATCATTC AGGCTGACAC ACTTTTGGAT
    GAATCAGAGA AAAAGAAACC CCAGCAAAAA GAAGACGTGC TTAAGCGTTT AAAGGCAGAA
    CTGAATGACA TACGCCCAAA GGTGGACTCT ACACGTGACC AAGCAGCAAA CTTGATGGCA
    AACCGCGGTG ACCACTGCAG GAAATTAGTA GAGCCCCAAA TCTCAGAGCT CAACCATCGA
    TTTGCAGCCA TTTCACACAG AATTAAGACT GGAAAGGCCT CCATTCCTTT GAAGGAATTG
    GAGCAGTTTA ACTCAGATAT ACAAAAATTG CTTGAACCAC TGGAGGCTGA AATTCAGCAG
    GGGGTGAATC TGAAAGAGGA AGACTTCAAT AAAGATATGA ATGAAGACAA TGAGGGTACT
    GTAAAAGAAT TGTTGCAAAG AGGAGACAAC TTACAACAAA GAATCACAGA TGAGAGAAAG
    CGAGAGGAAA TAAAGATAAA ACAGCAGCTG TTACAGACAA AACATAATGC TCTCAAGGAT
    TTGAGGTCTC AAAGAAGAAA AAAGGCTCTA GAAATTTCTC ATCAGTGGTA TCAGTACAAG
    AGGCAGGCTG ATGATCTCCT GAAATGCTTG GATGACATTG AAAAAAAATT AGCCAGCCTA
    CCTGAGCCCA GAGATGAAAG GAAAATAAAG GAAATTGATC GGGAATTGCA GAAGAAGAAA
    GAGGAGCTGA ATGCAGTGCG TAGGCAAGCT GAGGGCTTGT CTGAGGATGG GGCCGCAATG
    GCAGTGGAGC CAACTCAGAT CCAGCTCAGC AAGCGCTGGC GGGAAATTGA GAGCAAATTT
    GCTCAGTTTC GAAGACTCAA CTTTGCACAA ATTCACACTG TCCGTGAAGA AACGATGATG
    GTGATGACTG AAGACATGCC TTTGGAAATT TCTTATGTGC CTTCTACTTA TTTGACTGAA
    ATCACTCATG TCTCACAAGC CCTATTAGAA GTGGAACAAC TTCTCAATGC TCCTGACCTC
    TGTGCTAAGG ACTTTGAAGA TCTCTTTAAG CAAGAGGAGT CTCTGAAGAA TATAAAAGAT
    AGTCTACAAC AAAGCTCAGG TCGGATTGAC ATTATTCATA GCAAGAAGAC AGCAGCATTG
    CAAAGTGCAA CGCCTGTGGA AAGGGTGAAG CTACAGGAAG CTCTCTCCCA GCTTGATTTC
    CAATGGGAAA AAGTTAACAA AATGTACAAG GACCGACAAG GGCGATTTGA CAGATCTGTT
    GAGAAATGGC GGCGTTTTCA TTATGATATA AAGATATTTA ATCAGTGGCT AACAGAAGCT
    GAACAGTTTC TCAGAAAGAC ACAAATTCCT GAGAATTGGG AACATGCTAA ATACAAATGG
    TATCTTAAGG AACTCCAGGA TGGCATTGGG CAGCGGCAAA CTGTTGTCAG AACATTGAAT
    GCAACTGGGG AAGAAATAAT TCAGCAATCC TCAAAAACAG ATGCCAGTAT TCTACAGGAA
    AAATTGGGAA GCCTGAATCT GCGGTGGCAG GAGGTCTGCA AACAGCTGTC AGACAGAAAA
    AAGAGGCTAG AAGAACAAAA GAATATCTTG TCAGAATTTC AAAGAGATTT AAATGAATTT
    GTTTTATGGT TGGAGGAAGC AGATAACATT GCTAGTATCC CACTTGAACC TGGAAAAGAG
    CAGCAACTAA AAGAAAAGCT TGAGCAAGTC AAGTTACTGG TGGAAGAGTT GCCCCTGCGC
    CAGGGAATTC TCAAACAATT AAATGAAACT GGAGGACCCG TGCTTGTAAG TGCTCCCATA
    AGCCCAGAAG AGCAAGATAA ACTTGAAAAT AAGCTCAAGC AGACAAATCT CCAGTGGATA
    AAGGTTTCCA GAGCTTTACC TGAGAAACAA GGAGAAATTG AAGCTCAAAT AAAAGACCTT
    GGGCAGCTTG AAAAAAAGCT TGAAGACCTT GAAGAGCAGT TAAATCATCT GCTGCTGTGG
    TTATCTCCTA TTAGGAATCA GTTGGAAATT TATAACCAAC CAAACCAAGA AGGACCATTT
    GACGTTCAGG AAACTGAAAT AGCAGTTCAA GCTAAACAAC CGGATGTGGA AGAGATTTTG
    TCTAAAGGGC AGCATTTGTA CAAGGAAAAA CCAGCCACTC AGCCAGTGAA GAGGAAGTTA
    GAAGATCTGA GCTCTGAGTG GAAGGCGGTA AACCGTTTAC TTCAAGAGCT GAGGGCAAAG
    CAGCCTGACC TAGCTCCTGG ACTGACCACT ATTGGAGCCT CTCCTACTCA GACTGTTACT
    CTGGTGACAC AACCTGTGGT TACTAAGGAA ACTGCCATCT CCAAACTAGA AATGCCATCT
    TCCTTGATGT TGGAGGTACC TGCTCTGGCA GATTTCAACC GGGCTTGGAC AGAACTTACC
    GACTGGCTTT CTCTGCTTGA TCAAGTTATA AAATCACAGA GGGTGATGGT GGGTGACCTT
    GAGGATATCA ACGAGATGAT CATCAAGCAG AAGGCAACAA TGCAGGATTT GGAACAGAGG
    CGTCCCCAGT TGGAAGAACT CATTACCGCT GCCCAAAATT TGAAAAACAA GACCAGCAAT
    CAAGAGGCTA GAACAATCAT TACGGATCGA ATTGAAAGAA TTCAGAATCA GTGGGATGAA
    GTACAAGAAC ACCTTCAGAA CCGGAGGCAA CAGTTGAATG AAATGTTAAA GGATTCAACA
    CAATGGCTGG AAGCTAAGGA AGAAGCTGAG CAGGTCTTAG GACAGGCCAG AGCCAAGCTT
    GAGTCATGGA AGGAGGGTCC CTATACAGTA GATGCAATCC AAAAGAAAAT CACAGAAACC
    AAGCAGTTGG CCAAAGACCT CCGCCAGTGG CAGACAAATG TAGATGTGGC AAATGACTTG
    GCCCTGAAAC TTCTCCGGGA TTATTCTGCA GATGATACCA GAAAAGTCCA CATGATAACA
    GAGAATATCA ATGCCTCTTG GAGAAGCATT CATAAAAGGG TGAGTGAGCG AGAGGCTGCT
    TTGGAAGAAA CTCATAGATT ACTGCAACAG TTCCCCCTGG ACCTGGAAAA GTTTCTTGCC
    TGGCTTACAG AAGCTGAAAC AACTGCCAAT GTCCTACAGG ATGCTACCCG TAAGGAAAGG
    CTCCTAGAAG ACTCCAAGGG AGTAAAAGAG CTGATGAAAC AATGGCAAGA CCTCCAAGGT
    GAAATTGAAG CTCACACAGA TGTTTATCAC AACCTGGATG AAAACAGCCA AAAAATCCTG
    AGATCCCTGG AAGGTTCCGA TGATGCAGTC CTGTTACAAA GACGTTTGGA TAACATGAAC
    TTCAAGTGGA GTGAACTTCG GAAAAAGTCT CTCAACATTA GGTCCCATTT GGAAGCCAGT
    TCTGACCAGT GGAAGCGTCT GCACCTTTCT CTGCAGGAAC TTCTGGTGTG GCTACAGCTG
    AAAGATGATG AATTAAGCCG GCAGGCACCT ATTGGAGGCG ACTTTCCAGC AGTTCAGAAG
    CAGAACGATG TACATAGGGC CTTCAAGAGG GAATTGAAAA CTAAAGAACC TGTAATCATG
    AGTACTCTTG AGACTGTACG AATATTTCTG ACAGAGCAGC CTTTGGAAGG ACTAGAGAAA
    CTCTACCAGG AGCCCAGAGA GCTGCCTCCT GAGGAGAGAG CCCAGAATGT CACTCGGCTT
    CTACGAAAGC AGGCTGAGGA GGTCAATACT GAGTGGGAAA AATTGAACCT GCACTCCGCT
    GACTGGCAGA GAAAAATAGA TGAGACCCTT GAAAGACTCC AGGAACTTCA AGAGGCCACG
    GATGAGCTGG ACCTCAAGCT GCGCCAAGCT GAGGTGATCA AGGGATCCTG GCAGCCCGTG
    GGCGATCTCC TCATTGACTC TCTCCAAGAT CACCTCGAGA AAGTCAAGGC ACTTCGAGGA
    GAAATTGCGC CTCTGAAAGA GAACGTGAGC CACGTCAATG ACCTTGCTCG CCAGCTTACC
    ACTTTGGGCA TTCAGCTCTC ACCGTATAAC CTCAGCACTC TGGAAGACCT GAACACCAGA
    TGGAAGCTTC TGCAGGTGGC CGTCGAGGAC CGAGTCAGGC AGCTGCATGA AGCCCACAGG
    GACTTTGGTC CAGCATCTCA GCACTTTCTT TCCACGTCTG TCCAGGGTCC CTGGGAGAGA
    GCCATCTCGC CAAACAAAGT GCCCTACTAT ATCAACCACG AGACTCAAAC AACTTGCTGG
    GACCATCCCA AAATGACAGA GCTCTACCAG TCTTTAGCTG ACCTGAATAA TGTCAGATTC
    TCAGCTTATA GGACTGCCAT GAAACTCCGA AGACTGCAGA AGGCCCTTTG CTTGGATCTC
    TTGAGCCTGT CAGCTGCATG TGATGCCTTG GACCAGCACA ACCTCAAGCA AAATGACCAG
    CCCATGGATA TCCTGCAGAT TATTAATTGT TTGACCACTA TTTATGACCG CCTGGAGCAA
    GAGCACAACA ATTTGGTCAA CGTCCCTCTC TGCGTGGATA TGTGTCTGAA CTGGCTGCTG
    AATGTTTATG ATACGGGACG AACAGGGAGG ATCCGTGTCC TGTCTTTTAA AACTGGCATC
    ATTTCCCTGT GTAAAGCACA TTTGGAAGAC AAGTACAGAT ACCTTTTCAA GCAAGTGGCA
    AGTTCAACAG GATTTTGTGA CCAGCGCAGG CTGGGCCTCC TTCTGCATGA TTCTATCCAA
    ATTCCAAGAC AGTTGGGTGA AGTTGCATCC TTTGGGGGCA GTAACATTGA GCCAAGTGTC
    CGGAGCTGCT TCCAATTTGC TAATAATAAG CCAGAGATCG AAGCGGCCCT CTTCCTAGAC
    TGGATGAGAC TGGAACCCCA GTCCATGGTG TGGCTGCCCG TCCTGCACAG AGTGGCTGCT
    GCAGAAACTG CCAAGCATCA GGCCAAATGT AACATCTGCA AAGAGTGTCC AATCATTGGA
    TTCAGGTACA GGAGTCTAAA GCACTTTAAT TATGACATCT GCCAAAGCTG CTTTTTTTCT
    GGTCGAGTTG CAAAAGGCCA TAAAATGCAC TATCCCATGG TGGAATATTG CACTCCGACT
    ACATCAGGAG AAGATGTTCG AGACTTTGCC AAGGTACTAA AAAACAAATT TCGAACCAAA
    AGGTATTTTG CGAAGCATCC CCGAATGGGC TACCTGCCAG TGCAGACTGT CTTAGAGGGG
    GACAACATGG AAACTCCCGT TACTCTGATC AACTTCTGGC CAGTAGATTC TGCGCCTGCC
    TCGTCCCCTC AGCTTTCACA CGATGATACT CATTCACGCA TTGAACATTA TGCTAGCAGG
    CTAGCAGAAA TGGAAAACAG CAATGGATCT TATCTAAATG ATAGCATCTC TCCTAATGAG
    AGCATAGATG ATGAACATTT GTTAATCCAG CATTACTGCC AAAGTTTGAA CCAGGACTCC
    CCCCTGAGCC AGCCTCGTAG TCCTGCCCAG ATCTTGATTT CCTTAGAGAG TGAGGAAAGA
    GGGGAGCTAG AGAGAATCCT AGCAGATCTT GAGGAAGAAA ACAGGAATCT GCAAGCAGAA
    TATGACCGTC TAAAGCAGCA GCACGAACAT AAAGGCCTGT CCCCACTGCC GTCCCCTCCT
    GAAATGATGC CCACCTCTCC CCAGAGTCCC CGGGATGCTG AGCTCATTGC TGAGGCCAAG
    CTACTGCGTC AACACAAAGG CCGCCTGGAA GCCAGGATGC AAATCCTGGA AGACCACAAT
    AAACAGCTGG AGTCACAGTT ACACAGGCTA AGGCAGCTGC TGGAGCAACC CCAGGCAGAG
    GCCAAAGTGA ATGGCACAAC GGTGTCCTCT CCTTCTACCT CTCTACAGAG GTCCGACAGC
    AGTCAGCCTA TGCTGCTCCG AGTGGTTGGC AGTCAAACTT CGGACTCCAT GGGTGAGGAA
    GATCTTCTCA GTCCTCCCCA GGACACAAGC ACAGGGTTAG AGGAGGTGAT GGAGCAACTC
    AACAACTCCT TCCCTAGTTC AAGAGGAAGA AATACCCCTG GAAAGCCAAT GAGAGAGGAC
    ACAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_004001.1
    CDS704..11392
    Translation

    Target ORF information:

    RefSeq Version NM_004010.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant Dp427p2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_004010.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    ATGAAAAATA TCATGGCTGG ATTGCAACAA ACCAACAGTG AAAAGATTCT CCTGAGCTGG 
    GTCCGACAAT CAACTCGTAA TTATCCACAG GTTAATGTAA TCAACTTCAC CACCAGCTGG
    TCTGATGGCC TGGCTTTGAA TGCTCTCATC CATAGTCATA GGCCAGACCT ATTTGACTGG
    AATAGTGTGG TTTGCCAGCA GTCAGCCACA CAACGACTGG AACATGCATT CAACATCGCC
    AGATATCAAT TAGGCATAGA GAAACTACTC GATCCTGAAG ATGTTGATAC CACCTATCCA
    GATAAGAAGT CCATCTTAAT GTACATCACA TCACTCTTCC AAGTTTTGCC TCAACAAGTG
    AGCATTGAAG CCATCCAGGA AGTGGAAATG TTGCCAAGGC CACCTAAAGT GACTAAAGAA
    GAACATTTTC AGTTACATCA TCAAATGCAC TATTCTCAAC AGATCACGGT CAGTCTAGCA
    CAGGGATATG AGAGAACTTC TTCCCCTAAG CCTCGATTCA AGAGCTATGC CTACACACAG
    GCTGCTTATG TCACCACCTC TGACCCTACA CGGAGCCCAT TTCCTTCACA GCATTTGGAA
    GCTCCTGAAG ACAAGTCATT TGGCAGTTCA TTGATGGAGA GTGAAGTAAA CCTGGACCGT
    TATCAAACAG CTTTAGAAGA AGTATTATCG TGGCTTCTTT CTGCTGAGGA CACATTGCAA
    GCACAAGGAG AGATTTCTAA TGATGTGGAA GTGGTGAAAG ACCAGTTTCA TACTCATGAG
    GGGTACATGA TGGATTTGAC AGCCCATCAG GGCCGGGTTG GTAATATTCT ACAATTGGGA
    AGTAAGCTGA TTGGAACAGG AAAATTATCA GAAGATGAAG AAACTGAAGT ACAAGAGCAG
    ATGAATCTCC TAAATTCAAG ATGGGAATGC CTCAGGGTAG CTAGCATGGA AAAACAAAGC
    AATTTACATA GAGTTTTAAT GGATCTCCAG AATCAGAAAC TGAAAGAGTT GAATGACTGG
    CTAACAAAAA CAGAAGAAAG AACAAGGAAA ATGGAGGAAG AGCCTCTTGG ACCTGATCTT
    GAAGACCTAA AACGCCAAGT ACAACAACAT AAGGTGCTTC AAGAAGATCT AGAACAAGAA
    CAAGTCAGGG TCAATTCTCT CACTCACATG GTGGTGGTAG TTGATGAATC TAGTGGAGAT
    CACGCAACTG CTGCTTTGGA AGAACAACTT AAGGTATTGG GAGATCGATG GGCAAACATC
    TGTAGATGGA CAGAAGACCG CTGGGTTCTT TTACAAGACA TCCTTCTCAA ATGGCAACGT
    CTTACTGAAG AACAGTGCCT TTTTAGTGCA TGGCTTTCAG AAAAAGAAGA TGCAGTGAAC
    AAGATTCACA CAACTGGCTT TAAAGATCAA AATGAAATGT TATCAAGTCT TCAAAAACTG
    GCCGTTTTAA AAGCGGATCT AGAAAAGAAA AAGCAATCCA TGGGCAAACT GTATTCACTC
    AAACAAGATC TTCTTTCAAC ACTGAAGAAT AAGTCAGTGA CCCAGAAGAC GGAAGCATGG
    CTGGATAACT TTGCCCGGTG TTGGGATAAT TTAGTCCAAA AACTTGAAAA GAGTACAGCA
    CAGATTTCAC AGGCTGTCAC CACCACTCAG CCATCACTAA CACAGACAAC TGTAATGGAA
    ACAGTAACTA CGGTGACCAC AAGGGAACAG ATCCTGGTAA AGCATGCTCA AGAGGAACTT
    CCACCACCAC CTCCCCAAAA GAAGAGGCAG ATTACTGTGG ATTCTGAAAT TAGGAAAAGG
    TTGGATGTTG ATATAACTGA ACTTCACAGC TGGATTACTC GCTCAGAAGC TGTGTTGCAG
    AGTCCTGAAT TTGCAATCTT TCGGAAGGAA GGCAACTTCT CAGACTTAAA AGAAAAAGTC
    AATGCCATAG AGCGAGAAAA AGCTGAGAAG TTCAGAAAAC TGCAAGATGC CAGCAGATCA
    GCTCAGGCCC TGGTGGAACA GATGGTGAAT GAGGGTGTTA ATGCAGATAG CATCAAACAA
    GCCTCAGAAC AACTGAACAG CCGGTGGATC GAATTCTGCC AGTTGCTAAG TGAGAGACTT
    AACTGGCTGG AGTATCAGAA CAACATCATC GCTTTCTATA ATCAGCTACA ACAATTGGAG
    CAGATGACAA CTACTGCTGA AAACTGGTTG AAAATCCAAC CCACCACCCC ATCAGAGCCA
    ACAGCAATTA AAAGTCAGTT AAAAATTTGT AAGGATGAAG TCAACCGGCT ATCAGGTCTT
    CAACCTCAAA TTGAACGATT AAAAATTCAA AGCATAGCCC TGAAAGAGAA AGGACAAGGA
    CCCATGTTCC TGGATGCAGA CTTTGTGGCC TTTACAAATC ATTTTAAGCA AGTCTTTTCT
    GATGTGCAGG CCAGAGAGAA AGAGCTACAG ACAATTTTTG ACACTTTGCC ACCAATGCGC
    TATCAGGAGA CCATGAGTGC CATCAGGACA TGGGTCCAGC AGTCAGAAAC CAAACTCTCC
    ATACCTCAAC TTAGTGTCAC CGACTATGAA ATCATGGAGC AGAGACTCGG GGAATTGCAG
    GCTTTACAAA GTTCTCTGCA AGAGCAACAA AGTGGCCTAT ACTATCTCAG CACCACTGTG
    AAAGAGATGT CGAAGAAAGC GCCCTCTGAA ATTAGCCGGA AATATCAATC AGAATTTGAA
    GAAATTGAGG GACGCTGGAA GAAGCTCTCC TCCCAGCTGG TTGAGCATTG TCAAAAGCTA
    GAGGAGCAAA TGAATAAACT CCGAAAAATT CAGAATCACA TACAAACCCT GAAGAAATGG
    ATGGCTGAAG TTGATGTTTT TCTGAAGGAG GAATGGCCTG CCCTTGGGGA TTCAGAAATT
    CTAAAAAAGC AGCTGAAACA GTGCAGACTT TTAGTCAGTG ATATTCAGAC AATTCAGCCC
    AGTCTAAACA GTGTCAATGA AGGTGGGCAG AAGATAAAGA ATGAAGCAGA GCCAGAGTTT
    GCTTCGAGAC TTGAGACAGA ACTCAAAGAA CTTAACACTC AGTGGGATCA CATGTGCCAA
    CAGGTCTATG CCAGAAAGGA GGCCTTGAAG GGAGGTTTGG AGAAAACTGT AAGCCTCCAG
    AAAGATCTAT CAGAGATGCA CGAATGGATG ACACAAGCTG AAGAAGAGTA TCTTGAGAGA
    GATTTTGAAT ATAAAACTCC AGATGAATTA CAGAAAGCAG TTGAAGAGAT GAAGAGAGCT
    AAAGAAGAGG CCCAACAAAA AGAAGCGAAA GTGAAACTCC TTACTGAGTC TGTAAATAGT
    GTCATAGCTC AAGCTCCACC TGTAGCACAA GAGGCCTTAA AAAAGGAACT TGAAACTCTA
    ACCACCAACT ACCAGTGGCT CTGCACTAGG CTGAATGGGA AATGCAAGAC TTTGGAAGAA
    GTTTGGGCAT GTTGGCATGA GTTATTGTCA TACTTGGAGA AAGCAAACAA GTGGCTAAAT
    GAAGTAGAAT TTAAACTTAA AACCACTGAA AACATTCCTG GCGGAGCTGA GGAAATCTCT
    GAGGTGCTAG ATTCACTTGA AAATTTGATG CGACATTCAG AGGATAACCC AAATCAGATT
    CGCATATTGG CACAGACCCT AACAGATGGC GGAGTCATGG ATGAGCTAAT CAATGAGGAA
    CTTGAGACAT TTAATTCTCG TTGGAGGGAA CTACATGAAG AGGCTGTAAG GAGGCAAAAG
    TTGCTTGAAC AGAGCATCCA GTCTGCCCAG GAGACTGAAA AATCCTTACA CTTAATCCAG
    GAGTCCCTCA CATTCATTGA CAAGCAGTTG GCAGCTTATA TTGCAGACAA GGTGGACGCA
    GCTCAAATGC CTCAGGAAGC CCAGAAAATC CAATCTGATT TGACAAGTCA TGAGATCAGT
    TTAGAAGAAA TGAAGAAACA TAATCAGGGG AAGGAGGCTG CCCAAAGAGT CCTGTCTCAG
    ATTGATGTTG CACAGAAAAA ATTACAAGAT GTCTCCATGA AGTTTCGATT ATTCCAGAAA
    CCAGCCAATT TTGAGCAGCG TCTACAAGAA AGTAAGATGA TTTTAGATGA AGTGAAGATG
    CACTTGCCTG CATTGGAAAC AAAGAGTGTG GAACAGGAAG TAGTACAGTC ACAGCTAAAT
    CATTGTGTGA ACTTGTATAA AAGTCTGAGT GAAGTGAAGT CTGAAGTGGA AATGGTGATA
    AAGACTGGAC GTCAGATTGT ACAGAAAAAG CAGACGGAAA ATCCCAAAGA ACTTGATGAA
    AGAGTAACAG CTTTGAAATT GCATTATAAT GAGCTGGGAG CAAAGGTAAC AGAAAGAAAG
    CAACAGTTGG AGAAATGCTT GAAATTGTCC CGTAAGATGC GAAAGGAAAT GAATGTCTTG
    ACAGAATGGC TGGCAGCTAC AGATATGGAA TTGACAAAGA GATCAGCAGT TGAAGGAATG
    CCTAGTAATT TGGATTCTGA AGTTGCCTGG GGAAAGGCTA CTCAAAAAGA GATTGAGAAA
    CAGAAGGTGC ACCTGAAGAG TATCACAGAG GTAGGAGAGG CCTTGAAAAC AGTTTTGGGC
    AAGAAGGAGA CGTTGGTGGA AGATAAACTC AGTCTTCTGA ATAGTAACTG GATAGCTGTC
    ACCTCCCGAG CAGAAGAGTG GTTAAATCTT TTGTTGGAAT ACCAGAAACA CATGGAAACT
    TTTGACCAGA ATGTGGACCA CATCACAAAG TGGATCATTC AGGCTGACAC ACTTTTGGAT
    GAATCAGAGA AAAAGAAACC CCAGCAAAAA GAAGACGTGC TTAAGCGTTT AAAGGCAGAA
    CTGAATGACA TACGCCCAAA GGTGGACTCT ACACGTGACC AAGCAGCAAA CTTGATGGCA
    AACCGCGGTG ACCACTGCAG GAAATTAGTA GAGCCCCAAA TCTCAGAGCT CAACCATCGA
    TTTGCAGCCA TTTCACACAG AATTAAGACT GGAAAGGCCT CCATTCCTTT GAAGGAATTG
    GAGCAGTTTA ACTCAGATAT ACAAAAATTG CTTGAACCAC TGGAGGCTGA AATTCAGCAG
    GGGGTGAATC TGAAAGAGGA AGACTTCAAT AAAGATATGA ATGAAGACAA TGAGGGTACT
    GTAAAAGAAT TGTTGCAAAG AGGAGACAAC TTACAACAAA GAATCACAGA TGAGAGAAAG
    CGAGAGGAAA TAAAGATAAA ACAGCAGCTG TTACAGACAA AACATAATGC TCTCAAGGAT
    TTGAGGTCTC AAAGAAGAAA AAAGGCTCTA GAAATTTCTC ATCAGTGGTA TCAGTACAAG
    AGGCAGGCTG ATGATCTCCT GAAATGCTTG GATGACATTG AAAAAAAATT AGCCAGCCTA
    CCTGAGCCCA GAGATGAAAG GAAAATAAAG GAAATTGATC GGGAATTGCA GAAGAAGAAA
    GAGGAGCTGA ATGCAGTGCG TAGGCAAGCT GAGGGCTTGT CTGAGGATGG GGCCGCAATG
    GCAGTGGAGC CAACTCAGAT CCAGCTCAGC AAGCGCTGGC GGGAAATTGA GAGCAAATTT
    GCTCAGTTTC GAAGACTCAA CTTTGCACAA ATTCACACTG TCCGTGAAGA AACGATGATG
    GTGATGACTG AAGACATGCC TTTGGAAATT TCTTATGTGC CTTCTACTTA TTTGACTGAA
    ATCACTCATG TCTCACAAGC CCTATTAGAA GTGGAACAAC TTCTCAATGC TCCTGACCTC
    TGTGCTAAGG ACTTTGAAGA TCTCTTTAAG CAAGAGGAGT CTCTGAAGAA TATAAAAGAT
    AGTCTACAAC AAAGCTCAGG TCGGATTGAC ATTATTCATA GCAAGAAGAC AGCAGCATTG
    CAAAGTGCAA CGCCTGTGGA AAGGGTGAAG CTACAGGAAG CTCTCTCCCA GCTTGATTTC
    CAATGGGAAA AAGTTAACAA AATGTACAAG GACCGACAAG GGCGATTTGA CAGATCTGTT
    GAGAAATGGC GGCGTTTTCA TTATGATATA AAGATATTTA ATCAGTGGCT AACAGAAGCT
    GAACAGTTTC TCAGAAAGAC ACAAATTCCT GAGAATTGGG AACATGCTAA ATACAAATGG
    TATCTTAAGG AACTCCAGGA TGGCATTGGG CAGCGGCAAA CTGTTGTCAG AACATTGAAT
    GCAACTGGGG AAGAAATAAT TCAGCAATCC TCAAAAACAG ATGCCAGTAT TCTACAGGAA
    AAATTGGGAA GCCTGAATCT GCGGTGGCAG GAGGTCTGCA AACAGCTGTC AGACAGAAAA
    AAGAGGCTAG AAGAACAAAA GAATATCTTG TCAGAATTTC AAAGAGATTT AAATGAATTT
    GTTTTATGGT TGGAGGAAGC AGATAACATT GCTAGTATCC CACTTGAACC TGGAAAAGAG
    CAGCAACTAA AAGAAAAGCT TGAGCAAGTC AAGTTACTGG TGGAAGAGTT GCCCCTGCGC
    CAGGGAATTC TCAAACAATT AAATGAAACT GGAGGACCCG TGCTTGTAAG TGCTCCCATA
    AGCCCAGAAG AGCAAGATAA ACTTGAAAAT AAGCTCAAGC AGACAAATCT CCAGTGGATA
    AAGGTTTCCA GAGCTTTACC TGAGAAACAA GGAGAAATTG AAGCTCAAAT AAAAGACCTT
    GGGCAGCTTG AAAAAAAGCT TGAAGACCTT GAAGAGCAGT TAAATCATCT GCTGCTGTGG
    TTATCTCCTA TTAGGAATCA GTTGGAAATT TATAACCAAC CAAACCAAGA AGGACCATTT
    GACGTTCAGG AAACTGAAAT AGCAGTTCAA GCTAAACAAC CGGATGTGGA AGAGATTTTG
    TCTAAAGGGC AGCATTTGTA CAAGGAAAAA CCAGCCACTC AGCCAGTGAA GAGGAAGTTA
    GAAGATCTGA GCTCTGAGTG GAAGGCGGTA AACCGTTTAC TTCAAGAGCT GAGGGCAAAG
    CAGCCTGACC TAGCTCCTGG ACTGACCACT ATTGGAGCCT CTCCTACTCA GACTGTTACT
    CTGGTGACAC AACCTGTGGT TACTAAGGAA ACTGCCATCT CCAAACTAGA AATGCCATCT
    TCCTTGATGT TGGAGGTACC TGCTCTGGCA GATTTCAACC GGGCTTGGAC AGAACTTACC
    GACTGGCTTT CTCTGCTTGA TCAAGTTATA AAATCACAGA GGGTGATGGT GGGTGACCTT
    GAGGATATCA ACGAGATGAT CATCAAGCAG AAGGCAACAA TGCAGGATTT GGAACAGAGG
    CGTCCCCAGT TGGAAGAACT CATTACCGCT GCCCAAAATT TGAAAAACAA GACCAGCAAT
    CAAGAGGCTA GAACAATCAT TACGGATCGA ATTGAAAGAA TTCAGAATCA GTGGGATGAA
    GTACAAGAAC ACCTTCAGAA CCGGAGGCAA CAGTTGAATG AAATGTTAAA GGATTCAACA
    CAATGGCTGG AAGCTAAGGA AGAAGCTGAG CAGGTCTTAG GACAGGCCAG AGCCAAGCTT
    GAGTCATGGA AGGAGGGTCC CTATACAGTA GATGCAATCC AAAAGAAAAT CACAGAAACC
    AAGCAGTTGG CCAAAGACCT CCGCCAGTGG CAGACAAATG TAGATGTGGC AAATGACTTG
    GCCCTGAAAC TTCTCCGGGA TTATTCTGCA GATGATACCA GAAAAGTCCA CATGATAACA
    GAGAATATCA ATGCCTCTTG GAGAAGCATT CATAAAAGGG TGAGTGAGCG AGAGGCTGCT
    TTGGAAGAAA CTCATAGATT ACTGCAACAG TTCCCCCTGG ACCTGGAAAA GTTTCTTGCC
    TGGCTTACAG AAGCTGAAAC AACTGCCAAT GTCCTACAGG ATGCTACCCG TAAGGAAAGG
    CTCCTAGAAG ACTCCAAGGG AGTAAAAGAG CTGATGAAAC AATGGCAAGA CCTCCAAGGT
    GAAATTGAAG CTCACACAGA TGTTTATCAC AACCTGGATG AAAACAGCCA AAAAATCCTG
    AGATCCCTGG AAGGTTCCGA TGATGCAGTC CTGTTACAAA GACGTTTGGA TAACATGAAC
    TTCAAGTGGA GTGAACTTCG GAAAAAGTCT CTCAACATTA GGTCCCATTT GGAAGCCAGT
    TCTGACCAGT GGAAGCGTCT GCACCTTTCT CTGCAGGAAC TTCTGGTGTG GCTACAGCTG
    AAAGATGATG AATTAAGCCG GCAGGCACCT ATTGGAGGCG ACTTTCCAGC AGTTCAGAAG
    CAGAACGATG TACATAGGGC CTTCAAGAGG GAATTGAAAA CTAAAGAACC TGTAATCATG
    AGTACTCTTG AGACTGTACG AATATTTCTG ACAGAGCAGC CTTTGGAAGG ACTAGAGAAA
    CTCTACCAGG AGCCCAGAGA GCTGCCTCCT GAGGAGAGAG CCCAGAATGT CACTCGGCTT
    CTACGAAAGC AGGCTGAGGA GGTCAATACT GAGTGGGAAA AATTGAACCT GCACTCCGCT
    GACTGGCAGA GAAAAATAGA TGAGACCCTT GAAAGACTCC AGGAACTTCA AGAGGCCACG
    GATGAGCTGG ACCTCAAGCT GCGCCAAGCT GAGGTGATCA AGGGATCCTG GCAGCCCGTG
    GGCGATCTCC TCATTGACTC TCTCCAAGAT CACCTCGAGA AAGTCAAGGC ACTTCGAGGA
    GAAATTGCGC CTCTGAAAGA GAACGTGAGC CACGTCAATG ACCTTGCTCG CCAGCTTACC
    ACTTTGGGCA TTCAGCTCTC ACCGTATAAC CTCAGCACTC TGGAAGACCT GAACACCAGA
    TGGAAGCTTC TGCAGGTGGC CGTCGAGGAC CGAGTCAGGC AGCTGCATGA AGCCCACAGG
    GACTTTGGTC CAGCATCTCA GCACTTTCTT TCCACGTCTG TCCAGGGTCC CTGGGAGAGA
    GCCATCTCGC CAAACAAAGT GCCCTACTAT ATCAACCACG AGACTCAAAC AACTTGCTGG
    GACCATCCCA AAATGACAGA GCTCTACCAG TCTTTAGCTG ACCTGAATAA TGTCAGATTC
    TCAGCTTATA GGACTGCCAT GAAACTCCGA AGACTGCAGA AGGCCCTTTG CTTGGATCTC
    TTGAGCCTGT CAGCTGCATG TGATGCCTTG GACCAGCACA ACCTCAAGCA AAATGACCAG
    CCCATGGATA TCCTGCAGAT TATTAATTGT TTGACCACTA TTTATGACCG CCTGGAGCAA
    GAGCACAACA ATTTGGTCAA CGTCCCTCTC TGCGTGGATA TGTGTCTGAA CTGGCTGCTG
    AATGTTTATG ATACGGGACG AACAGGGAGG ATCCGTGTCC TGTCTTTTAA AACTGGCATC
    ATTTCCCTGT GTAAAGCACA TTTGGAAGAC AAGTACAGAT ACCTTTTCAA GCAAGTGGCA
    AGTTCAACAG GATTTTGTGA CCAGCGCAGG CTGGGCCTCC TTCTGCATGA TTCTATCCAA
    ATTCCAAGAC AGTTGGGTGA AGTTGCATCC TTTGGGGGCA GTAACATTGA GCCAAGTGTC
    CGGAGCTGCT TCCAATTTGC TAATAATAAG CCAGAGATCG AAGCGGCCCT CTTCCTAGAC
    TGGATGAGAC TGGAACCCCA GTCCATGGTG TGGCTGCCCG TCCTGCACAG AGTGGCTGCT
    GCAGAAACTG CCAAGCATCA GGCCAAATGT AACATCTGCA AAGAGTGTCC AATCATTGGA
    TTCAGGTACA GGAGTCTAAA GCACTTTAAT TATGACATCT GCCAAAGCTG CTTTTTTTCT
    GGTCGAGTTG CAAAAGGCCA TAAAATGCAC TATCCCATGG TGGAATATTG CACTCCGACT
    ACATCAGGAG AAGATGTTCG AGACTTTGCC AAGGTACTAA AAAACAAATT TCGAACCAAA
    AGGTATTTTG CGAAGCATCC CCGAATGGGC TACCTGCCAG TGCAGACTGT CTTAGAGGGG
    GACAACATGG AAACTCCCGT TACTCTGATC AACTTCTGGC CAGTAGATTC TGCGCCTGCC
    TCGTCCCCTC AGCTTTCACA CGATGATACT CATTCACGCA TTGAACATTA TGCTAGCAGG
    CTAGCAGAAA TGGAAAACAG CAATGGATCT TATCTAAATG ATAGCATCTC TCCTAATGAG
    AGCATAGATG ATGAACATTT GTTAATCCAG CATTACTGCC AAAGTTTGAA CCAGGACTCC
    CCCCTGAGCC AGCCTCGTAG TCCTGCCCAG ATCTTGATTT CCTTAGAGAG TGAGGAAAGA
    GGGGAGCTAG AGAGAATCCT AGCAGATCTT GAGGAAGAAA ACAGGAATCT GCAAGCAGAA
    TATGACCGTC TAAAGCAGCA GCACGAACAT AAAGGCCTGT CCCCACTGCC GTCCCCTCCT
    GAAATGATGC CCACCTCTCC CCAGAGTCCC CGGGATGCTG AGCTCATTGC TGAGGCCAAG
    CTACTGCGTC AACACAAAGG CCGCCTGGAA GCCAGGATGC AAATCCTGGA AGACCACAAT
    AAACAGCTGG AGTCACAGTT ACACAGGCTA AGGCAGCTGC TGGAGCAACC CCAGGCAGAG
    GCCAAAGTGA ATGGCACAAC GGTGTCCTCT CCTTCTACCT CTCTACAGAG GTCCGACAGC
    AGTCAGCCTA TGCTGCTCCG AGTGGTTGGC AGTCAAACTT CGGACTCCAT GGGTGAGGAA
    GATCTTCTCA GTCCTCCCCA GGACACAAGC ACAGGGTTAG AGGAGGTGAT GGAGCAACTC
    AACAACTCCT TCCCTAGTTC AAGAGGAAGA AATACCCCTG GAAAGCCAAT GAGAGAGGAC
    ACAATGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu53866
    Clone ID Related Accession (Same CDS sequence) XM_006724468.2
    Accession Version XM_006724468.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 11112bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product dystrophin isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000023.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_006724468.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    11101
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGGA ACTCCAGGAT GGCATTGGGC AGCGGCAAAC TGTTGTCAGA
    ACATTGAATG CAACTGGGGA AGAAATAATT CAGCAATCCT CAAAAACAGA TGCCAGTATT
    CTACAGGAAA AATTGGGAAG CCTGAATCTG CGGTGGCAGG AGGTCTGCAA ACAGCTGTCA
    GACAGAAAAA AGAGGCTAGA AGAACAAAAG AATATCTTGT CAGAATTTCA AAGAGATTTA
    AATGAATTTG TTTTATGGTT GGAGGAAGCA GATAACATTG CTAGTATCCC ACTTGAACCT
    GGAAAAGAGC AGCAACTAAA AGAAAAGCTT GAGCAAGTCA AGTTACTGGT GGAAGAGTTG
    CCCCTGCGCC AGGGAATTCT CAAACAATTA AATGAAACTG GAGGACCCGT GCTTGTAAGT
    GCTCCCATAA GCCCAGAAGA GCAAGATAAA CTTGAAAATA AGCTCAAGCA GACAAATCTC
    CAGTGGATAA AGGTTTCCAG AGCTTTACCT GAGAAACAAG GAGAAATTGA AGCTCAAATA
    AAAGACCTTG GGCAGCTTGA AAAAAAGCTT GAAGACCTTG AAGAGCAGTT AAATCATCTG
    CTGCTGTGGT TATCTCCTAT TAGGAATCAG TTGGAAATTT ATAACCAACC AAACCAAGAA
    GGACCATTTG ACGTTAAGGA AACTGAAATA GCAGTTCAAG CTAAACAACC GGATGTGGAA
    GAGATTTTGT CTAAAGGGCA GCATTTGTAC AAGGAAAAAC CAGCCACTCA GCCAGTGAAG
    AGGAAGTTAG AAGATCTGAG CTCTGAGTGG AAGGCGGTAA ACCGTTTACT TCAAGAGCTG
    AGGGCAAAGC AGCCTGACCT AGCTCCTGGA CTGACCACTA TTGGAGCCTC TCCTACTCAG
    ACTGTTACTC TGGTGACACA ACCTGTGGTT ACTAAGGAAA CTGCCATCTC CAAACTAGAA
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCG GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGACACA ATGTAGGAAG TCTTTTCCAC
    ATGGCAGATG ATTTGGGCAG AGCGATGGAG TCCTTAGTAT CAGTCATGAC AGATGAAGAA
    GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006724531.1
    CDS198..11309
    Translation

    Target ORF information:

    RefSeq Version XM_006724468.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006724468.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    11101
    ATGCTTTGGT GGGAAGAAGT AGAGGACTGT TATGAAAGAG AAGATGTTCA AAAGAAAACA 
    TTCACAAAAT GGGTAAATGC ACAATTTTCT AAGTTTGGGA AGCAGCATAT TGAGAACCTC
    TTCAGTGACC TACAGGATGG GAGGCGCCTC CTAGACCTCC TCGAAGGCCT GACAGGGCAA
    AAACTGCCAA AAGAAAAAGG ATCCACAAGA GTTCATGCCC TGAACAATGT CAACAAGGCA
    CTGCGGGTTT TGCAGAACAA TAATGTTGAT TTAGTGAATA TTGGAAGTAC TGACATCGTA
    GATGGAAATC ATAAACTGAC TCTTGGTTTG ATTTGGAATA TAATCCTCCA CTGGCAGGTC
    AAAAATGTAA TGAAAAATAT CATGGCTGGA TTGCAACAAA CCAACAGTGA AAAGATTCTC
    CTGAGCTGGG TCCGACAATC AACTCGTAAT TATCCACAGG TTAATGTAAT CAACTTCACC
    ACCAGCTGGT CTGATGGCCT GGCTTTGAAT GCTCTCATCC ATAGTCATAG GCCAGACCTA
    TTTGACTGGA ATAGTGTGGT TTGCCAGCAG TCAGCCACAC AACGACTGGA ACATGCATTC
    AACATCGCCA GATATCAATT AGGCATAGAG AAACTACTCG ATCCTGAAGA TGTTGATACC
    ACCTATCCAG ATAAGAAGTC CATCTTAATG TACATCACAT CACTCTTCCA AGTTTTGCCT
    CAACAAGTGA GCATTGAAGC CATCCAGGAA GTGGAAATGT TGCCAAGGCC ACCTAAAGTG
    ACTAAAGAAG AACATTTTCA GTTACATCAT CAAATGCACT ATTCTCAACA GATCACGGTC
    AGTCTAGCAC AGGGATATGA GAGAACTTCT TCCCCTAAGC CTCGATTCAA GAGCTATGCC
    TACACACAGG CTGCTTATGT CACCACCTCT GACCCTACAC GGAGCCCATT TCCTTCACAG
    CATTTGGAAG CTCCTGAAGA CAAGTCATTT GGCAGTTCAT TGATGGAGAG TGAAGTAAAC
    CTGGACCGTT ATCAAACAGC TTTAGAAGAA GTATTATCGT GGCTTCTTTC TGCTGAGGAC
    ACATTGCAAG CACAAGGAGA GATTTCTAAT GATGTGGAAG TGGTGAAAGA CCAGTTTCAT
    ACTCATGAGG GGTACATGAT GGATTTGACA GCCCATCAGG GCCGGGTTGG TAATATTCTA
    CAATTGGGAA GTAAGCTGAT TGGAACAGGA AAATTATCAG AAGATGAAGA AACTGAAGTA
    CAAGAGCAGA TGAATCTCCT AAATTCAAGA TGGGAATGCC TCAGGGTAGC TAGCATGGAA
    AAACAAAGCA ATTTACATAG AGTTTTAATG GATCTCCAGA ATCAGAAACT GAAAGAGTTG
    AATGACTGGC TAACAAAAAC AGAAGAAAGA ACAAGGAAAA TGGAGGAAGA GCCTCTTGGA
    CCTGATCTTG AAGACCTAAA ACGCCAAGTA CAACAACATA AGGTGCTTCA AGAAGATCTA
    GAACAAGAAC AAGTCAGGGT CAATTCTCTC ACTCACATGG TGGTGGTAGT TGATGAATCT
    AGTGGAGATC ACGCAACTGC TGCTTTGGAA GAACAACTTA AGGTATTGGG AGATCGATGG
    GCAAACATCT GTAGATGGAC AGAAGACCGC TGGGTTCTTT TACAAGACAT CCTTCTCAAA
    TGGCAACGTC TTACTGAAGA ACAGTGCCTT TTTAGTGCAT GGCTTTCAGA AAAAGAAGAT
    GCAGTGAACA AGATTCACAC AACTGGCTTT AAAGATCAAA ATGAAATGTT ATCAAGTCTT
    CAAAAACTGG CCGTTTTAAA AGCGGATCTA GAAAAGAAAA AGCAATCCAT GGGCAAACTG
    TATTCACTCA AACAAGATCT TCTTTCAACA CTGAAGAATA AGTCAGTGAC CCAGAAGACG
    GAAGCATGGC TGGATAACTT TGCCCGGTGT TGGGATAATT TAGTCCAAAA ACTTGAAAAG
    AGTACAGCAC AGATTTCACA GGCTGTCACC ACCACTCAGC CATCACTAAC ACAGACAACT
    GTAATGGAAA CAGTAACTAC GGTGACCACA AGGGAACAGA TCCTGGTAAA GCATGCTCAA
    GAGGAACTTC CACCACCACC TCCCCAAAAG AAGAGGCAGA TTACTGTGGA TTCTGAAATT
    AGGAAAAGGT TGGATGTTGA TATAACTGAA CTTCACAGCT GGATTACTCG CTCAGAAGCT
    GTGTTGCAGA GTCCTGAATT TGCAATCTTT CGGAAGGAAG GCAACTTCTC AGACTTAAAA
    GAAAAAGTCA ATGCCATAGA GCGAGAAAAA GCTGAGAAGT TCAGAAAACT GCAAGATGCC
    AGCAGATCAG CTCAGGCCCT GGTGGAACAG ATGGTGAATG AGGGTGTTAA TGCAGATAGC
    ATCAAACAAG CCTCAGAACA ACTGAACAGC CGGTGGATCG AATTCTGCCA GTTGCTAAGT
    GAGAGACTTA ACTGGCTGGA GTATCAGAAC AACATCATCG CTTTCTATAA TCAGCTACAA
    CAATTGGAGC AGATGACAAC TACTGCTGAA AACTGGTTGA AAATCCAACC CACCACCCCA
    TCAGAGCCAA CAGCAATTAA AAGTCAGTTA AAAATTTGTA AGGATGAAGT CAACCGGCTA
    TCAGATCTTC AACCTCAAAT TGAACGATTA AAAATTCAAA GCATAGCCCT GAAAGAGAAA
    GGACAAGGAC CCATGTTCCT GGATGCAGAC TTTGTGGCCT TTACAAATCA TTTTAAGCAA
    GTCTTTTCTG ATGTGCAGGC CAGAGAGAAA GAGCTACAGA CAATTTTTGA CACTTTGCCA
    CCAATGCGCT ATCAGGAGAC CATGAGTGCC ATCAGGACAT GGGTCCAGCA GTCAGAAACC
    AAACTCTCCA TACCTCAACT TAGTGTCACC GACTATGAAA TCATGGAGCA GAGACTCGGG
    GAATTGCAGG CTTTACAAAG TTCTCTGCAA GAGCAACAAA GTGGCCTATA CTATCTCAGC
    ACCACTGTGA AAGAGATGTC GAAGAAAGCG CCCTCTGAAA TTAGCCGGAA ATATCAATCA
    GAATTTGAAG AAATTGAGGG ACGCTGGAAG AAGCTCTCCT CCCAGCTGGT TGAGCATTGT
    CAAAAGCTAG AGGAGCAAAT GAATAAACTC CGAAAAATTC AGAATCACAT ACAAACCCTG
    AAGAAATGGA TGGCTGAAGT TGATGTTTTT CTGAAGGAGG AATGGCCTGC CCTTGGGGAT
    TCAGAAATTC TAAAAAAGCA GCTGAAACAG TGCAGACTTT TAGTCAGTGA TATTCAGACA
    ATTCAGCCCA GTCTAAACAG TGTCAATGAA GGTGGGCAGA AGATAAAGAA TGAAGCAGAG
    CCAGAGTTTG CTTCGAGACT TGAGACAGAA CTCAAAGAAC TTAACACTCA GTGGGATCAC
    ATGTGCCAAC AGGTCTATGC CAGAAAGGAG GCCTTGAAGG GAGGTTTGGA GAAAACTGTA
    AGCCTCCAGA AAGATCTATC AGAGATGCAC GAATGGATGA CACAAGCTGA AGAAGAGTAT
    CTTGAGAGAG ATTTTGAATA TAAAACTCCA GATGAATTAC AGAAAGCAGT TGAAGAGATG
    AAGAGAGCTA AAGAAGAGGC CCAACAAAAA GAAGCGAAAG TGAAACTCCT TACTGAGTCT
    GTAAATAGTG TCATAGCTCA AGCTCCACCT GTAGCACAAG AGGCCTTAAA AAAGGAACTT
    GAAACTCTAA CCACCAACTA CCAGTGGCTC TGCACTAGGC TGAATGGGAA ATGCAAGACT
    TTGGAAGAAG TTTGGGCATG TTGGCATGAG TTATTGTCAT ACTTGGAGAA AGCAAACAAG
    TGGCTAAATG AAGTAGAATT TAAACTTAAA ACCACTGAAA ACATTCCTGG CGGAGCTGAG
    GAAATCTCTG AGGTGCTAGA TTCACTTGAA AATTTGATGC GACATTCAGA GGATAACCCA
    AATCAGATTC GCATATTGGC ACAGACCCTA ACAGATGGCG GAGTCATGGA TGAGCTAATC
    AATGAGGAAC TTGAGACATT TAATTCTCGT TGGAGGGAAC TACATGAAGA GGCTGTAAGG
    AGGCAAAAGT TGCTTGAACA GAGCATCCAG TCTGCCCAGG AGACTGAAAA ATCCTTACAC
    TTAATCCAGG AGTCCCTCAC ATTCATTGAC AAGCAGTTGG CAGCTTATAT TGCAGACAAG
    GTGGACGCAG CTCAAATGCC TCAGGAAGCC CAGAAAATCC AATCTGATTT GACAAGTCAT
    GAGATCAGTT TAGAAGAAAT GAAGAAACAT AATCAGGGGA AGGAGGCTGC CCAAAGAGTC
    CTGTCTCAGA TTGATGTTGC ACAGAAAAAA TTACAAGATG TCTCCATGAA GTTTCGATTA
    TTCCAGAAAC CAGCCAATTT TGAGCAGCGT CTACAAGAAA GTAAGATGAT TTTAGATGAA
    GTGAAGATGC ACTTGCCTGC ATTGGAAACA AAGAGTGTGG AACAGGAAGT AGTACAGTCA
    CAGCTAAATC ATTGTGTGAA CTTGTATAAA AGTCTGAGTG AAGTGAAGTC TGAAGTGGAA
    ATGGTGATAA AGACTGGACG TCAGATTGTA CAGAAAAAGC AGACGGAAAA TCCCAAAGAA
    CTTGATGAAA GAGTAACAGC TTTGAAATTG CATTATAATG AGCTGGGAGC AAAGGTAACA
    GAAAGAAAGC AACAGTTGGA GAAATGCTTG AAATTGTCCC GTAAGATGCG AAAGGAAATG
    AATGTCTTGA CAGAATGGCT GGCAGCTACA GATATGGAAT TGACAAAGAG ATCAGCAGTT
    GAAGGAATGC CTAGTAATTT GGATTCTGAA GTTGCCTGGG GAAAGGCTAC TCAAAAAGAG
    ATTGAGAAAC AGAAGGTGCA CCTGAAGAGT ATCACAGAGG TAGGAGAGGC CTTGAAAACA
    GTTTTGGGCA AGAAGGAGAC GTTGGTGGAA GATAAACTCA GTCTTCTGAA TAGTAACTGG
    ATAGCTGTCA CCTCCCGAGC AGAAGAGTGG TTAAATCTTT TGTTGGAATA CCAGAAACAC
    ATGGAAACTT TTGACCAGAA TGTGGACCAC ATCACAAAGT GGATCATTCA GGCTGACACA
    CTTTTGGATG AATCAGAGAA AAAGAAACCC CAGCAAAAAG AAGACGTGCT TAAGCGTTTA
    AAGGCAGAAC TGAATGACAT ACGCCCAAAG GTGGACTCTA CACGTGACCA AGCAGCAAAC
    TTGATGGCAA ACCGCGGTGA CCACTGCAGG AAATTAGTAG AGCCCCAAAT CTCAGAGCTC
    AACCATCGAT TTGCAGCCAT TTCACACAGA ATTAAGACTG GAAAGGCCTC CATTCCTTTG
    AAGGAATTGG AGCAGTTTAA CTCAGATATA CAAAAATTGC TTGAACCACT GGAGGCTGAA
    ATTCAGCAGG GGGTGAATCT GAAAGAGGAA GACTTCAATA AAGATATGAA TGAAGACAAT
    GAGGGTACTG TAAAAGAATT GTTGCAAAGA GGAGACAACT TACAACAAAG AATCACAGAT
    GAGAGAAAGC GAGAGGAAAT AAAGATAAAA CAGCAGCTGT TACAGACAAA ACATAATGCT
    CTCAAGGATT TGAGGTCTCA AAGAAGAAAA AAGGCTCTAG AAATTTCTCA TCAGTGGTAT
    CAGTACAAGA GGCAGGCTGA TGATCTCCTG AAATGCTTGG ATGACATTGA AAAAAAATTA
    GCCAGCCTAC CTGAGCCCAG AGATGAAAGG AAAATAAAGG AAATTGATCG GGAATTGCAG
    AAGAAGAAAG AGGAGCTGAA TGCAGTGCGT AGGCAAGCTG AGGGCTTGTC TGAGGATGGG
    GCCGCAATGG CAGTGGAGCC AACTCAGATC CAGCTCAGCA AGCGCTGGCG GGAAATTGAG
    AGCAAATTTG CTCAGTTTCG AAGACTCAAC TTTGCACAAA TTCACACTGT CCGTGAAGAA
    ACGATGATGG TGATGACTGA AGACATGCCT TTGGAAATTT CTTATGTGCC TTCTACTTAT
    TTGACTGAAA TCACTCATGT CTCACAAGCC CTATTAGAAG TGGAACAACT TCTCAATGCT
    CCTGACCTCT GTGCTAAGGA CTTTGAAGAT CTCTTTAAGC AAGAGGAGTC TCTGAAGAAT
    ATAAAAGATA GTCTACAACA AAGCTCAGGT CGGATTGACA TTATTCATAG CAAGAAGACA
    GCAGCATTGC AAAGTGCAAC GCCTGTGGAA AGGGTGAAGC TACAGGAAGC TCTCTCCCAG
    CTTGATTTCC AATGGGAAAA AGTTAACAAA ATGTACAAGG ACCGACAAGG GCGATTTGAC
    AGATCTGTTG AGAAATGGCG GCGTTTTCAT TATGATATAA AGATATTTAA TCAGTGGCTA
    ACAGAAGCTG AACAGTTTCT CAGAAAGACA CAAATTCCTG AGAATTGGGA ACATGCTAAA
    TACAAATGGT ATCTTAAGGA ACTCCAGGAT GGCATTGGGC AGCGGCAAAC TGTTGTCAGA
    ACATTGAATG CAACTGGGGA AGAAATAATT CAGCAATCCT CAAAAACAGA TGCCAGTATT
    CTACAGGAAA AATTGGGAAG CCTGAATCTG CGGTGGCAGG AGGTCTGCAA ACAGCTGTCA
    GACAGAAAAA AGAGGCTAGA AGAACAAAAG AATATCTTGT CAGAATTTCA AAGAGATTTA
    AATGAATTTG TTTTATGGTT GGAGGAAGCA GATAACATTG CTAGTATCCC ACTTGAACCT
    GGAAAAGAGC AGCAACTAAA AGAAAAGCTT GAGCAAGTCA AGTTACTGGT GGAAGAGTTG
    CCCCTGCGCC AGGGAATTCT CAAACAATTA AATGAAACTG GAGGACCCGT GCTTGTAAGT
    GCTCCCATAA GCCCAGAAGA GCAAGATAAA CTTGAAAATA AGCTCAAGCA GACAAATCTC
    CAGTGGATAA AGGTTTCCAG AGCTTTACCT GAGAAACAAG GAGAAATTGA AGCTCAAATA
    AAAGACCTTG GGCAGCTTGA AAAAAAGCTT GAAGACCTTG AAGAGCAGTT AAATCATCTG
    CTGCTGTGGT TATCTCCTAT TAGGAATCAG TTGGAAATTT ATAACCAACC AAACCAAGAA
    GGACCATTTG ACGTTAAGGA AACTGAAATA GCAGTTCAAG CTAAACAACC GGATGTGGAA
    GAGATTTTGT CTAAAGGGCA GCATTTGTAC AAGGAAAAAC CAGCCACTCA GCCAGTGAAG
    AGGAAGTTAG AAGATCTGAG CTCTGAGTGG AAGGCGGTAA ACCGTTTACT TCAAGAGCTG
    AGGGCAAAGC AGCCTGACCT AGCTCCTGGA CTGACCACTA TTGGAGCCTC TCCTACTCAG
    ACTGTTACTC TGGTGACACA ACCTGTGGTT ACTAAGGAAA CTGCCATCTC CAAACTAGAA
    ATGCCATCTT CCTTGATGTT GGAGGTACCT GCTCTGGCAG ATTTCAACCG GGCTTGGACA
    GAACTTACCG ACTGGCTTTC TCTGCTTGAT CAAGTTATAA AATCACAGAG GGTGATGGTG
    GGTGACCTTG AGGATATCAA CGAGATGATC ATCAAGCAGA AGGCAACAAT GCAGGATTTG
    GAACAGAGGC GTCCCCAGTT GGAAGAACTC ATTACCGCTG CCCAAAATTT GAAAAACAAG
    ACCAGCAATC AAGAGGCTAG AACAATCATT ACGGATCGAA TTGAAAGAAT TCAGAATCAG
    TGGGATGAAG TACAAGAACA CCTTCAGAAC CGGAGGCAAC AGTTGAATGA AATGTTAAAG
    GATTCAACAC AATGGCTGGA AGCTAAGGAA GAAGCTGAGC AGGTCTTAGG ACAGGCCAGA
    GCCAAGCTTG AGTCATGGAA GGAGGGTCCC TATACAGTAG ATGCAATCCA AAAGAAAATC
    ACAGAAACCA AGCAGTTGGC CAAAGACCTC CGCCAGTGGC AGACAAATGT AGATGTGGCA
    AATGACTTGG CCCTGAAACT TCTCCGGGAT TATTCTGCAG ATGATACCAG AAAAGTCCAC
    ATGATAACAG AGAATATCAA TGCCTCTTGG AGAAGCATTC ATAAAAGGGT GAGTGAGCGA
    GAGGCTGCTT TGGAAGAAAC TCATAGATTA CTGCAACAGT TCCCCCTGGA CCTGGAAAAG
    TTTCTTGCCT GGCTTACAGA AGCTGAAACA ACTGCCAATG TCCTACAGGA TGCTACCCGT
    AAGGAAAGGC TCCTAGAAGA CTCCAAGGGA GTAAAAGAGC TGATGAAACA ATGGCAAGAC
    CTCCAAGGTG AAATTGAAGC TCACACAGAT GTTTATCACA ACCTGGATGA AAACAGCCAA
    AAAATCCTGA GATCCCTGGA AGGTTCCGAT GATGCAGTCC TGTTACAAAG ACGTTTGGAT
    AACATGAACT TCAAGTGGAG TGAACTTCGG AAAAAGTCTC TCAACATTAG GTCCCATTTG
    GAAGCCAGTT CTGACCAGTG GAAGCGTCTG CACCTTTCTC TGCAGGAACT TCTGGTGTGG
    CTACAGCTGA AAGATGATGA ATTAAGCCGG CAGGCACCTA TTGGAGGCGA CTTTCCAGCA
    GTTCAGAAGC AGAACGATGT ACATAGGGCC TTCAAGAGGG AATTGAAAAC TAAAGAACCT
    GTAATCATGA GTACTCTTGA GACTGTACGA ATATTTCTGA CAGAGCAGCC TTTGGAAGGA
    CTAGAGAAAC TCTACCAGGA GCCCAGAGAG CTGCCTCCTG AGGAGAGAGC CCAGAATGTC
    ACTCGGCTTC TACGAAAGCA GGCTGAGGAG GTCAATACTG AGTGGGAAAA ATTGAACCTG
    CACTCCGCTG ACTGGCAGAG AAAAATAGAT GAGACCCTTG AAAGACTCCG GGAACTTCAA
    GAGGCCACGG ATGAGCTGGA CCTCAAGCTG CGCCAAGCTG AGGTGATCAA GGGATCCTGG
    CAGCCCGTGG GCGATCTCCT CATTGACTCT CTCCAAGATC ACCTCGAGAA AGTCAAGGCA
    CTTCGAGGAG AAATTGCGCC TCTGAAAGAG AACGTGAGCC ACGTCAATGA CCTTGCTCGC
    CAGCTTACCA CTTTGGGCAT TCAGCTCTCA CCGTATAACC TCAGCACTCT GGAAGACCTG
    AACACCAGAT GGAAGCTTCT GCAGGTGGCC GTCGAGGACC GAGTCAGGCA GCTGCATGAA
    GCCCACAGGG ACTTTGGTCC AGCATCTCAG CACTTTCTTT CCACGTCTGT CCAGGGTCCC
    TGGGAGAGAG CCATCTCGCC AAACAAAGTG CCCTACTATA TCAACCACGA GACTCAAACA
    ACTTGCTGGG ACCATCCCAA AATGACAGAG CTCTACCAGT CTTTAGCTGA CCTGAATAAT
    GTCAGATTCT CAGCTTATAG GACTGCCATG AAACTCCGAA GACTGCAGAA GGCCCTTTGC
    TTGGATCTCT TGAGCCTGTC AGCTGCATGT GATGCCTTGG ACCAGCACAA CCTCAAGCAA
    AATGACCAGC CCATGGATAT CCTGCAGATT ATTAATTGTT TGACCACTAT TTATGACCGC
    CTGGAGCAAG AGCACAACAA TTTGGTCAAC GTCCCTCTCT GCGTGGATAT GTGTCTGAAC
    TGGCTGCTGA ATGTTTATGA TACGGGACGA ACAGGGAGGA TCCGTGTCCT GTCTTTTAAA
    ACTGGCATCA TTTCCCTGTG TAAAGCACAT TTGGAAGACA AGTACAGATA CCTTTTCAAG
    CAAGTGGCAA GTTCAACAGG ATTTTGTGAC CAGCGCAGGC TGGGCCTCCT TCTGCATGAT
    TCTATCCAAA TTCCAAGACA GTTGGGTGAA GTTGCATCCT TTGGGGGCAG TAACATTGAG
    CCAAGTGTCC GGAGCTGCTT CCAATTTGCT AATAATAAGC CAGAGATCGA AGCGGCCCTC
    TTCCTAGACT GGATGAGACT GGAACCCCAG TCCATGGTGT GGCTGCCCGT CCTGCACAGA
    GTGGCTGCTG CAGAAACTGC CAAGCATCAG GCCAAATGTA ACATCTGCAA AGAGTGTCCA
    ATCATTGGAT TCAGGTACAG GAGTCTAAAG CACTTTAATT ATGACATCTG CCAAAGCTGC
    TTTTTTTCTG GTCGAGTTGC AAAAGGCCAT AAAATGCACT ATCCCATGGT GGAATATTGC
    ACTCCGACTA CATCAGGAGA AGATGTTCGA GACTTTGCCA AGGTACTAAA AAACAAATTT
    CGAACCAAAA GGTATTTTGC GAAGCATCCC CGAATGGGCT ACCTGCCAGT GCAGACTGTC
    TTAGAGGGGG ACAACATGGA AACTCCCGTT ACTCTGATCA ACTTCTGGCC AGTAGATTCT
    GCGCCTGCCT CGTCCCCTCA GCTTTCACAC GATGATACTC ATTCACGCAT TGAACATTAT
    GCTAGCAGGC TAGCAGAAAT GGAAAACAGC AATGGATCTT ATCTAAATGA TAGCATCTCT
    CCTAATGAGA GCATAGATGA TGAACATTTG TTAATCCAGC ATTACTGCCA AAGTTTGAAC
    CAGGACTCCC CCCTGAGCCA GCCTCGTAGT CCTGCCCAGA TCTTGATTTC CTTAGAGAGT
    GAGGAAAGAG GGGAGCTAGA GAGAATCCTA GCAGATCTTG AGGAAGAAAA CAGGAATCTG
    CAAGCAGAAT ATGACCGTCT AAAGCAGCAG CACGAACATA AAGGCCTGTC CCCACTGCCG
    TCCCCTCCTG AAATGATGCC CACCTCTCCC CAGAGTCCCC GGGATGCTGA GCTCATTGCT
    GAGGCCAAGC TACTGCGTCA ACACAAAGGC CGCCTGGAAG CCAGGATGCA AATCCTGGAA
    GACCACAATA AACAGCTGGA GTCACAGTTA CACAGGCTAA GGCAGCTGCT GGAGCAACCC
    CAGGCAGAGG CCAAAGTGAA TGGCACAACG GTGTCCTCTC CTTCTACCTC TCTACAGAGG
    TCCGACAGCA GTCAGCCTAT GCTGCTCCGA GTGGTTGGCA GTCAAACTTC GGACTCCATG
    GGTGAGGAAG ATCTTCTCAG TCCTCCCCAG GACACAAGCA CAGGGTTAGA GGAGGTGATG
    GAGCAACTCA ACAACTCCTT CCCTAGTTCA AGAGGACACA ATGTAGGAAG TCTTTTCCAC
    ATGGCAGATG ATTTGGGCAG AGCGATGGAG TCCTTAGTAT CAGTCATGAC AGATGAAGAA
    GGAGCAGAAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu53867
    Clone ID Related Accession (Same CDS sequence) XM_006724469.3
    Accession Version XM_006724469.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 11088bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product dystrophin isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000023.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006724469.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

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    10501
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    10861
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    11041
    ATGGAAGATG AAAGAGAAGA TGTTCAAAAG AAAACATTCA CAAAATGGGT AAATGCACAA 
    TTTTCTAAGT TTGGGAAGCA GCATATTGAG AACCTCTTCA GTGACCTACA GGATGGGAGG
    CGCCTCCTAG ACCTCCTCGA AGGCCTGACA GGGCAAAAAC TGCCAAAAGA AAAAGGATCC
    ACAAGAGTTC ATGCCCTGAA CAATGTCAAC AAGGCACTGC GGGTTTTGCA GAACAATAAT
    GTTGATTTAG TGAATATTGG AAGTACTGAC ATCGTAGATG GAAATCATAA ACTGACTCTT
    GGTTTGATTT GGAATATAAT CCTCCACTGG CAGGTCAAAA ATGTAATGAA AAATATCATG
    GCTGGATTGC AACAAACCAA CAGTGAAAAG ATTCTCCTGA GCTGGGTCCG ACAATCAACT
    CGTAATTATC CACAGGTTAA TGTAATCAAC TTCACCACCA GCTGGTCTGA TGGCCTGGCT
    TTGAATGCTC TCATCCATAG TCATAGGCCA GACCTATTTG ACTGGAATAG TGTGGTTTGC
    CAGCAGTCAG CCACACAACG ACTGGAACAT GCATTCAACA TCGCCAGATA TCAATTAGGC
    ATAGAGAAAC TACTCGATCC TGAAGATGTT GATACCACCT ATCCAGATAA GAAGTCCATC
    TTAATGTACA TCACATCACT CTTCCAAGTT TTGCCTCAAC AAGTGAGCAT TGAAGCCATC
    CAGGAAGTGG AAATGTTGCC AAGGCCACCT AAAGTGACTA AAGAAGAACA TTTTCAGTTA
    CATCATCAAA TGCACTATTC TCAACAGATC ACGGTCAGTC TAGCACAGGG ATATGAGAGA
    ACTTCTTCCC CTAAGCCTCG ATTCAAGAGC TATGCCTACA CACAGGCTGC TTATGTCACC
    ACCTCTGACC CTACACGGAG CCCATTTCCT TCACAGCATT TGGAAGCTCC TGAAGACAAG
    TCATTTGGCA GTTCATTGAT GGAGAGTGAA GTAAACCTGG ACCGTTATCA AACAGCTTTA
    GAAGAAGTAT TATCGTGGCT TCTTTCTGCT GAGGACACAT TGCAAGCACA AGGAGAGATT
    TCTAATGATG TGGAAGTGGT GAAAGACCAG TTTCATACTC ATGAGGGGTA CATGATGGAT
    TTGACAGCCC ATCAGGGCCG GGTTGGTAAT ATTCTACAAT TGGGAAGTAA GCTGATTGGA
    ACAGGAAAAT TATCAGAAGA TGAAGAAACT GAAGTACAAG AGCAGATGAA TCTCCTAAAT
    TCAAGATGGG AATGCCTCAG GGTAGCTAGC ATGGAAAAAC AAAGCAATTT ACATAGAGTT
    TTAATGGATC TCCAGAATCA GAAACTGAAA GAGTTGAATG ACTGGCTAAC AAAAACAGAA
    GAAAGAACAA GGAAAATGGA GGAAGAGCCT CTTGGACCTG ATCTTGAAGA CCTAAAACGC
    CAAGTACAAC AACATAAGGT GCTTCAAGAA GATCTAGAAC AAGAACAAGT CAGGGTCAAT
    TCTCTCACTC ACATGGTGGT GGTAGTTGAT GAATCTAGTG GAGATCACGC AACTGCTGCT
    TTGGAAGAAC AACTTAAGGT ATTGGGAGAT CGATGGGCAA ACATCTGTAG ATGGACAGAA
    GACCGCTGGG TTCTTTTACA AGACATCCTT CTCAAATGGC AACGTCTTAC TGAAGAACAG
    TGCCTTTTTA GTGCATGGCT TTCAGAAAAA GAAGATGCAG TGAACAAGAT TCACACAACT
    GGCTTTAAAG ATCAAAATGA AATGTTATCA AGTCTTCAAA AACTGGCCGT TTTAAAAGCG
    GATCTAGAAA AGAAAAAGCA ATCCATGGGC AAACTGTATT CACTCAAACA AGATCTTCTT
    TCAACACTGA AGAATAAGTC AGTGACCCAG AAGACGGAAG CATGGCTGGA TAACTTTGCC
    CGGTGTTGGG ATAATTTAGT CCAAAAACTT GAAAAGAGTA CAGCACAGAT TTCACAGGCT
    GTCACCACCA CTCAGCCATC ACTAACACAG ACAACTGTAA TGGAAACAGT AACTACGGTG
    ACCACAAGGG AACAGATCCT GGTAAAGCAT GCTCAAGAGG AACTTCCACC ACCACCTCCC
    CAAAAGAAGA GGCAGATTAC TGTGGATTCT GAAATTAGGA AAAGGTTGGA TGTTGATATA
    ACTGAACTTC ACAGCTGGAT TACTCGCTCA GAAGCTGTGT TGCAGAGTCC TGAATTTGCA
    ATCTTTCGGA AGGAAGGCAA CTTCTCAGAC TTAAAAGAAA AAGTCAATGC CATAGAGCGA
    GAAAAAGCTG AGAAGTTCAG AAAACTGCAA GATGCCAGCA GATCAGCTCA GGCCCTGGTG
    GAACAGATGG TGAATGAGGG TGTTAATGCA GATAGCATCA AACAAGCCTC AGAACAACTG
    AACAGCCGGT GGATCGAATT CTGCCAGTTG CTAAGTGAGA GACTTAACTG GCTGGAGTAT
    CAGAACAACA TCATCGCTTT CTATAATCAG CTACAACAAT TGGAGCAGAT GACAACTACT
    GCTGAAAACT GGTTGAAAAT CCAACCCACC ACCCCATCAG AGCCAACAGC AATTAAAAGT
    CAGTTAAAAA TTTGTAAGGA TGAAGTCAAC CGGCTATCAG ATCTTCAACC TCAAATTGAA
    CGATTAAAAA TTCAAAGCAT AGCCCTGAAA GAGAAAGGAC AAGGACCCAT GTTCCTGGAT
    GCAGACTTTG TGGCCTTTAC AAATCATTTT AAGCAAGTCT TTTCTGATGT GCAGGCCAGA
    GAGAAAGAGC TACAGACAAT TTTTGACACT TTGCCACCAA TGCGCTATCA GGAGACCATG
    AGTGCCATCA GGACATGGGT CCAGCAGTCA GAAACCAAAC TCTCCATACC TCAACTTAGT
    GTCACCGACT ATGAAATCAT GGAGCAGAGA CTCGGGGAAT TGCAGGCTTT ACAAAGTTCT
    CTGCAAGAGC AACAAAGTGG CCTATACTAT CTCAGCACCA CTGTGAAAGA GATGTCGAAG
    AAAGCGCCCT CTGAAATTAG CCGGAAATAT CAATCAGAAT TTGAAGAAAT TGAGGGACGC
    TGGAAGAAGC TCTCCTCCCA GCTGGTTGAG CATTGTCAAA AGCTAGAGGA GCAAATGAAT
    AAACTCCGAA AAATTCAGAA TCACATACAA ACCCTGAAGA AATGGATGGC TGAAGTTGAT
    GTTTTTCTGA AGGAGGAATG GCCTGCCCTT GGGGATTCAG AAATTCTAAA AAAGCAGCTG
    AAACAGTGCA GACTTTTAGT CAGTGATATT CAGACAATTC AGCCCAGTCT AAACAGTGTC
    AATGAAGGTG GGCAGAAGAT AAAGAATGAA GCAGAGCCAG AGTTTGCTTC GAGACTTGAG
    ACAGAACTCA AAGAACTTAA CACTCAGTGG GATCACATGT GCCAACAGGT CTATGCCAGA
    AAGGAGGCCT TGAAGGGAGG TTTGGAGAAA ACTGTAAGCC TCCAGAAAGA TCTATCAGAG
    ATGCACGAAT GGATGACACA AGCTGAAGAA GAGTATCTTG AGAGAGATTT TGAATATAAA
    ACTCCAGATG AATTACAGAA AGCAGTTGAA GAGATGAAGA GAGCTAAAGA AGAGGCCCAA
    CAAAAAGAAG CGAAAGTGAA ACTCCTTACT GAGTCTGTAA ATAGTGTCAT AGCTCAAGCT
    CCACCTGTAG CACAAGAGGC CTTAAAAAAG GAACTTGAAA CTCTAACCAC CAACTACCAG
    TGGCTCTGCA CTAGGCTGAA TGGGAAATGC AAGACTTTGG AAGAAGTTTG GGCATGTTGG
    CATGAGTTAT TGTCATACTT GGAGAAAGCA AACAAGTGGC TAAATGAAGT AGAATTTAAA
    CTTAAAACCA CTGAAAACAT TCCTGGCGGA GCTGAGGAAA TCTCTGAGGT GCTAGATTCA
    CTTGAAAATT TGATGCGACA TTCAGAGGAT AACCCAAATC AGATTCGCAT ATTGGCACAG
    ACCCTAACAG ATGGCGGAGT CATGGATGAG CTAATCAATG AGGAACTTGA GACATTTAAT
    TCTCGTTGGA GGGAACTACA TGAAGAGGCT GTAAGGAGGC AAAAGTTGCT TGAACAGAGC
    ATCCAGTCTG CCCAGGAGAC TGAAAAATCC TTACACTTAA TCCAGGAGTC CCTCACATTC
    ATTGACAAGC AGTTGGCAGC TTATATTGCA GACAAGGTGG ACGCAGCTCA AATGCCTCAG
    GAAGCCCAGA AAATCCAATC TGATTTGACA AGTCATGAGA TCAGTTTAGA AGAAATGAAG
    AAACATAATC AGGGGAAGGA GGCTGCCCAA AGAGTCCTGT CTCAGATTGA TGTTGCACAG
    AAAAAATTAC AAGATGTCTC CATGAAGTTT CGATTATTCC AGAAACCAGC CAATTTTGAG
    CAGCGTCTAC AAGAAAGTAA GATGATTTTA GATGAAGTGA AGATGCACTT GCCTGCATTG
    GAAACAAAGA GTGTGGAACA GGAAGTAGTA CAGTCACAGC TAAATCATTG TGTGAACTTG
    TATAAAAGTC TGAGTGAAGT GAAGTCTGAA GTGGAAATGG TGATAAAGAC TGGACGTCAG
    ATTGTACAGA AAAAGCAGAC GGAAAATCCC AAAGAACTTG ATGAAAGAGT AACAGCTTTG
    AAATTGCATT ATAATGAGCT GGGAGCAAAG GTAACAGAAA GAAAGCAACA GTTGGAGAAA
    TGCTTGAAAT TGTCCCGTAA GATGCGAAAG GAAATGAATG TCTTGACAGA ATGGCTGGCA
    GCTACAGATA TGGAATTGAC AAAGAGATCA GCAGTTGAAG GAATGCCTAG TAATTTGGAT
    TCTGAAGTTG CCTGGGGAAA GGCTACTCAA AAAGAGATTG AGAAACAGAA GGTGCACCTG
    AAGAGTATCA CAGAGGTAGG AGAGGCCTTG AAAACAGTTT TGGGCAAGAA GGAGACGTTG
    GTGGAAGATA AACTCAGTCT TCTGAATAGT AACTGGATAG CTGTCACCTC CCGAGCAGAA
    GAGTGGTTAA ATCTTTTGTT GGAATACCAG AAACACATGG AAACTTTTGA CCAGAATGTG
    GACCACATCA CAAAGTGGAT CATTCAGGCT GACACACTTT TGGATGAATC AGAGAAAAAG
    AAACCCCAGC AAAAAGAAGA CGTGCTTAAG CGTTTAAAGG CAGAACTGAA TGACATACGC
    CCAAAGGTGG ACTCTACACG TGACCAAGCA GCAAACTTGA TGGCAAACCG CGGTGACCAC
    TGCAGGAAAT TAGTAGAGCC CCAAATCTCA GAGCTCAACC ATCGATTTGC AGCCATTTCA
    CACAGAATTA AGACTGGAAA GGCCTCCATT CCTTTGAAGG AATTGGAGCA GTTTAACTCA
    GATATACAAA AATTGCTTGA ACCACTGGAG GCTGAAATTC AGCAGGGGGT GAATCTGAAA
    GAGGAAGACT TCAATAAAGA TATGAATGAA GACAATGAGG GTACTGTAAA AGAATTGTTG
    CAAAGAGGAG ACAACTTACA ACAAAGAATC ACAGATGAGA GAAAGCGAGA GGAAATAAAG
    ATAAAACAGC AGCTGTTACA GACAAAACAT AATGCTCTCA AGGATTTGAG GTCTCAAAGA
    AGAAAAAAGG CTCTAGAAAT TTCTCATCAG TGGTATCAGT ACAAGAGGCA GGCTGATGAT
    CTCCTGAAAT GCTTGGATGA CATTGAAAAA AAATTAGCCA GCCTACCTGA GCCCAGAGAT
    GAAAGGAAAA TAAAGGAAAT TGATCGGGAA TTGCAGAAGA AGAAAGAGGA GCTGAATGCA
    GTGCGTAGGC AAGCTGAGGG CTTGTCTGAG GATGGGGCCG CAATGGCAGT GGAGCCAACT
    CAGATCCAGC TCAGCAAGCG CTGGCGGGAA ATTGAGAGCA AATTTGCTCA GTTTCGAAGA
    CTCAACTTTG CACAAATTCA CACTGTCCGT GAAGAAACGA TGATGGTGAT GACTGAAGAC
    ATGCCTTTGG AAATTTCTTA TGTGCCTTCT ACTTATTTGA CTGAAATCAC TCATGTCTCA
    CAAGCCCTAT TAGAAGTGGA ACAACTTCTC AATGCTCCTG ACCTCTGTGC TAAGGACTTT
    GAAGATCTCT TTAAGCAAGA GGAGTCTCTG AAGAATATAA AAGATAGTCT ACAACAAAGC
    TCAGGTCGGA TTGACATTAT TCATAGCAAG AAGACAGCAG CATTGCAAAG TGCAACGCCT
    GTGGAAAGGG TGAAGCTACA GGAAGCTCTC TCCCAGCTTG ATTTCCAATG GGAAAAAGTT
    AACAAAATGT ACAAGGACCG ACAAGGGCGA TTTGACAGAT CTGTTGAGAA ATGGCGGCGT
    TTTCATTATG ATATAAAGAT ATTTAATCAG TGGCTAACAG AAGCTGAACA GTTTCTCAGA
    AAGACACAAA TTCCTGAGAA TTGGGAACAT GCTAAATACA AATGGTATCT TAAGGAACTC
    CAGGATGGCA TTGGGCAGCG GCAAACTGTT GTCAGAACAT TGAATGCAAC TGGGGAAGAA
    ATAATTCAGC AATCCTCAAA AACAGATGCC AGTATTCTAC AGGAAAAATT GGGAAGCCTG
    AATCTGCGGT GGCAGGAGGT CTGCAAACAG CTGTCAGACA GAAAAAAGAG GCTAGAAGAA
    CAAAAGAATA TCTTGTCAGA ATTTCAAAGA GATTTAAATG AATTTGTTTT ATGGTTGGAG
    GAAGCAGATA ACATTGCTAG TATCCCACTT GAACCTGGAA AAGAGCAGCA ACTAAAAGAA
    AAGCTTGAGC AAGTCAAGTT ACTGGTGGAA GAGTTGCCCC TGCGCCAGGG AATTCTCAAA
    CAATTAAATG AAACTGGAGG ACCCGTGCTT GTAAGTGCTC CCATAAGCCC AGAAGAGCAA
    GATAAACTTG AAAATAAGCT CAAGCAGACA AATCTCCAGT GGATAAAGGT TTCCAGAGCT
    TTACCTGAGA AACAAGGAGA AATTGAAGCT CAAATAAAAG ACCTTGGGCA GCTTGAAAAA
    AAGCTTGAAG ACCTTGAAGA GCAGTTAAAT CATCTGCTGC TGTGGTTATC TCCTATTAGG
    AATCAGTTGG AAATTTATAA CCAACCAAAC CAAGAAGGAC CATTTGACGT TAAGGAAACT
    GAAATAGCAG TTCAAGCTAA ACAACCGGAT GTGGAAGAGA TTTTGTCTAA AGGGCAGCAT
    TTGTACAAGG AAAAACCAGC CACTCAGCCA GTGAAGAGGA AGTTAGAAGA TCTGAGCTCT
    GAGTGGAAGG CGGTAAACCG TTTACTTCAA GAGCTGAGGG CAAAGCAGCC TGACCTAGCT
    CCTGGACTGA CCACTATTGG AGCCTCTCCT ACTCAGACTG TTACTCTGGT GACACAACCT
    GTGGTTACTA AGGAAACTGC CATCTCCAAA CTAGAAATGC CATCTTCCTT GATGTTGGAG
    GTACCTGCTC TGGCAGATTT CAACCGGGCT TGGACAGAAC TTACCGACTG GCTTTCTCTG
    CTTGATCAAG TTATAAAATC ACAGAGGGTG ATGGTGGGTG ACCTTGAGGA TATCAACGAG
    ATGATCATCA AGCAGAAGGC AACAATGCAG GATTTGGAAC AGAGGCGTCC CCAGTTGGAA
    GAACTCATTA CCGCTGCCCA AAATTTGAAA AACAAGACCA GCAATCAAGA GGCTAGAACA
    ATCATTACGG ATCGAATTGA AAGAATTCAG AATCAGTGGG ATGAAGTACA AGAACACCTT
    CAGAACCGGA GGCAACAGTT GAATGAAATG TTAAAGGATT CAACACAATG GCTGGAAGCT
    AAGGAAGAAG CTGAGCAGGT CTTAGGACAG GCCAGAGCCA AGCTTGAGTC ATGGAAGGAG
    GGTCCCTATA CAGTAGATGC AATCCAAAAG AAAATCACAG AAACCAAGCA GTTGGCCAAA
    GACCTCCGCC AGTGGCAGAC AAATGTAGAT GTGGCAAATG ACTTGGCCCT GAAACTTCTC
    CGGGATTATT CTGCAGATGA TACCAGAAAA GTCCACATGA TAACAGAGAA TATCAATGCC
    TCTTGGAGAA GCATTCATAA AAGGGTGAGT GAGCGAGAGG CTGCTTTGGA AGAAACTCAT
    AGATTACTGC AACAGTTCCC CCTGGACCTG GAAAAGTTTC TTGCCTGGCT TACAGAAGCT
    GAAACAACTG CCAATGTCCT ACAGGATGCT ACCCGTAAGG AAAGGCTCCT AGAAGACTCC
    AAGGGAGTAA AAGAGCTGAT GAAACAATGG CAAGACCTCC AAGGTGAAAT TGAAGCTCAC
    ACAGATGTTT ATCACAACCT GGATGAAAAC AGCCAAAAAA TCCTGAGATC CCTGGAAGGT
    TCCGATGATG CAGTCCTGTT ACAAAGACGT TTGGATAACA TGAACTTCAA GTGGAGTGAA
    CTTCGGAAAA AGTCTCTCAA CATTAGGTCC CATTTGGAAG CCAGTTCTGA CCAGTGGAAG
    CGTCTGCACC TTTCTCTGCA GGAACTTCTG GTGTGGCTAC AGCTGAAAGA TGATGAATTA
    AGCCGGCAGG CACCTATTGG AGGCGACTTT CCAGCAGTTC AGAAGCAGAA CGATGTACAT
    AGGGCCTTCA AGAGGGAATT GAAAACTAAA GAACCTGTAA TCATGAGTAC TCTTGAGACT
    GTACGAATAT TTCTGACAGA GCAGCCTTTG GAAGGACTAG AGAAACTCTA CCAGGAGCCC
    AGAGAGCTGC CTCCTGAGGA GAGAGCCCAG AATGTCACTC GGCTTCTACG AAAGCAGGCT
    GAGGAGGTCA ATACTGAGTG GGAAAAATTG AACCTGCACT CCGCTGACTG GCAGAGAAAA
    ATAGATGAGA CCCTTGAAAG ACTCCGGGAA CTTCAAGAGG CCACGGATGA GCTGGACCTC
    AAGCTGCGCC AAGCTGAGGT GATCAAGGGA TCCTGGCAGC CCGTGGGCGA TCTCCTCATT
    GACTCTCTCC AAGATCACCT CGAGAAAGTC AAGGCACTTC GAGGAGAAAT TGCGCCTCTG
    AAAGAGAACG TGAGCCACGT CAATGACCTT GCTCGCCAGC TTACCACTTT GGGCATTCAG
    CTCTCACCGT ATAACCTCAG CACTCTGGAA GACCTGAACA CCAGATGGAA GCTTCTGCAG
    GTGGCCGTCG AGGACCGAGT CAGGCAGCTG CATGAAGCCC ACAGGGACTT TGGTCCAGCA
    TCTCAGCACT TTCTTTCCAC GTCTGTCCAG GGTCCCTGGG AGAGAGCCAT CTCGCCAAAC
    AAAGTGCCCT ACTATATCAA CCACGAGACT CAAACAACTT GCTGGGACCA TCCCAAAATG
    ACAGAGCTCT ACCAGTCTTT AGCTGACCTG AATAATGTCA GATTCTCAGC TTATAGGACT
    GCCATGAAAC TCCGAAGACT GCAGAAGGCC CTTTGCTTGG ATCTCTTGAG CCTGTCAGCT
    GCATGTGATG CCTTGGACCA GCACAACCTC AAGCAAAATG ACCAGCCCAT GGATATCCTG
    CAGATTATTA ATTGTTTGAC CACTATTTAT GACCGCCTGG AGCAAGAGCA CAACAATTTG
    GTCAACGTCC CTCTCTGCGT GGATATGTGT CTGAACTGGC TGCTGAATGT TTATGATACG
    GGACGAACAG GGAGGATCCG TGTCCTGTCT TTTAAAACTG GCATCATTTC CCTGTGTAAA
    GCACATTTGG AAGACAAGTA CAGATACCTT TTCAAGCAAG TGGCAAGTTC AACAGGATTT
    TGTGACCAGC GCAGGCTGGG CCTCCTTCTG CATGATTCTA TCCAAATTCC AAGACAGTTG
    GGTGAAGTTG CATCCTTTGG GGGCAGTAAC ATTGAGCCAA GTGTCCGGAG CTGCTTCCAA
    TTTGCTAATA ATAAGCCAGA GATCGAAGCG GCCCTCTTCC TAGACTGGAT GAGACTGGAA
    CCCCAGTCCA TGGTGTGGCT GCCCGTCCTG CACAGAGTGG CTGCTGCAGA AACTGCCAAG
    CATCAGGCCA AATGTAACAT CTGCAAAGAG TGTCCAATCA TTGGATTCAG GTACAGGAGT
    CTAAAGCACT TTAATTATGA CATCTGCCAA AGCTGCTTTT TTTCTGGTCG AGTTGCAAAA
    GGCCATAAAA TGCACTATCC CATGGTGGAA TATTGCACTC CGACTACATC AGGAGAAGAT
    GTTCGAGACT TTGCCAAGGT ACTAAAAAAC AAATTTCGAA CCAAAAGGTA TTTTGCGAAG
    CATCCCCGAA TGGGCTACCT GCCAGTGCAG ACTGTCTTAG AGGGGGACAA CATGGAAACT
    CCCGTTACTC TGATCAACTT CTGGCCAGTA GATTCTGCGC CTGCCTCGTC CCCTCAGCTT
    TCACACGATG ATACTCATTC ACGCATTGAA CATTATGCTA GCAGGCTAGC AGAAATGGAA
    AACAGCAATG GATCTTATCT AAATGATAGC ATCTCTCCTA ATGAGAGCAT AGATGATGAA
    CATTTGTTAA TCCAGCATTA CTGCCAAAGT TTGAACCAGG ACTCCCCCCT GAGCCAGCCT
    CGTAGTCCTG CCCAGATCTT GATTTCCTTA GAGAGTGAGG AAAGAGGGGA GCTAGAGAGA
    ATCCTAGCAG ATCTTGAGGA AGAAAACAGG AATCTGCAAG CAGAATATGA CCGTCTAAAG
    CAGCAGCACG AACATAAAGG CCTGTCCCCA CTGCCGTCCC CTCCTGAAAT GATGCCCACC
    TCTCCCCAGA GTCCCCGGGA TGCTGAGCTC ATTGCTGAGG CCAAGCTACT GCGTCAACAC
    AAAGGCCGCC TGGAAGCCAG GATGCAAATC CTGGAAGACC ACAATAAACA GCTGGAGTCA
    CAGTTACACA GGCTAAGGCA GCTGCTGGAG CAACCCCAGG CAGAGGCCAA AGTGAATGGC
    ACAACGGTGT CCTCTCCTTC TACCTCTCTA CAGAGGTCCG ACAGCAGTCA GCCTATGCTG
    CTCCGAGTGG TTGGCAGTCA AACTTCGGAC TCCATGGGTG AGGAAGATCT TCTCAGTCCT
    CCCCAGGACA CAAGCACAGG GTTAGAGGAG GTGATGGAGC AACTCAACAA CTCCTTCCCT
    AGTTCAAGAG GACACAATGT AGGAAGTCTT TTCCACATGG CAGATGATTT GGGCAGAGCG
    ATGGAGTCCT TAGTATCAGT CATGACAGAT GAAGAAGGAG CAGAATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006724532.1
    CDS196..11283
    Translation

    Target ORF information:

    RefSeq Version XM_006724469.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dystrophin (DMD), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006724469.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    10441
    10501
    10561
    10621
    10681
    10741
    10801
    10861
    10921
    10981
    11041
    ATGGAAGATG AAAGAGAAGA TGTTCAAAAG AAAACATTCA CAAAATGGGT AAATGCACAA 
    TTTTCTAAGT TTGGGAAGCA GCATATTGAG AACCTCTTCA GTGACCTACA GGATGGGAGG
    CGCCTCCTAG ACCTCCTCGA AGGCCTGACA GGGCAAAAAC TGCCAAAAGA AAAAGGATCC
    ACAAGAGTTC ATGCCCTGAA CAATGTCAAC AAGGCACTGC GGGTTTTGCA GAACAATAAT
    GTTGATTTAG TGAATATTGG AAGTACTGAC ATCGTAGATG GAAATCATAA ACTGACTCTT
    GGTT