ehmt1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following ehmt1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ehmt1 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.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OXa63378 XM_031906832.1
Latest version!
Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa63379 XM_031906833.1
Latest version!
Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa63380 XM_031906834.1
Latest version!
Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa63381 XM_031906837.1
Latest version!
Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa63382 XM_031906838.1
Latest version!
Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa01844 NM_001102698.1
Latest version!
Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00

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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 OXa63378
    Clone ID Related Accession (Same CDS sequence) XM_031906832.1
    Accession Version XM_031906832.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3834bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product histone-lysine N-methyltransferase EHMT1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGCCACAC TGGATGCTGA GCGTGTCGAT ACAAGCCAGA CGGAGTCCAG GAACGACTTA 
    TTCCTGAAGA CGGACTTGTT GAAGGCGATA GCCAACAGCC AAGAGGAAGT ATCTGAAGCC
    ATGGCCGGCG ACGAAAACTT GTCGGACAAG CAGGTCGGTG AAACGAATGG ATCTTGTGAA
    AAGAACGAGT CCAAGGAGCT CGGTTTATTG ACGCTTGCCA CCCCAGACAG CACAAAACTC
    CCTCACCAGG ACTGTGTTTT TAAAACTTTT CGTGTGGCAG AGAACGGGGT GTACGACCGA
    GACACGGAGG GGCAGTACCC CTTTAAAGCG AGCAACCCCA CACAGACATC CGTAACGGGA
    AGTAATGGGT ACATTTTAAA CAAACCTGCC ATTTTGGAGC AGCCATTAAG GACTTCAAGC
    TTGTCACCTC TGAGTGGCCA TGCTGCTAAA ACTCTACCGG TTGCTGCCAG CAAACCCAAA
    GCAGCTTCTA ATGTCTACGT CCCTCCTGCC CCTTCTCCTG TCCCTCCGAA CCCTGGGGAT
    CCGGGGCGGG TTGAGAACAC AAAGCAACAG GACAGCGCTT TACCTGATCT GAAAGTTCAC
    CGTGCAAGGA AAACTCTACC GAAGACAAGC GGCAGTTCGC CCATCCATAA AGAGCCCAAA
    GAACCATCCG AGCAGGACGA AACCAAGGAC GAGAGTGCAC CCAAAAATGG TTTAGATGAC
    GAGAAAGAGG AACCCCAGTC TCCCTCCTCT GCCCCTCAAC AGCTGCTACC TCAGGGTCAA
    AACTCTGCCA AGTCGCTCTC AGCTGCACTG GTGTGTCGGA AGAAGAAACG GCGGATGGGC
    ATGTACAGCC TCGTACCCAA GAAGAAGACC AAAGTGCCAA AGCAAAGAAG CGTGCTGGAG
    ATGTTCCGGA ACATCACCTA CACCTCTTCC AGTCCCAAGA GCGAGAAAGA GTCCGATGTT
    CCTCATGTTA ACGGGGAAAG CATGGAGATG GATTCCGAAG ACGAGGATTC GGAAGACATG
    GAAGAAGAGG ACTACCACAG TTCGGAGACG CCAGCCTCGG AGAGTCAGGA AGAGCCCGGT
    GTTCCTAAAG AGGCCACCTC AGAAGCCGAC AGTTCCAGAA AGGTCGATGA GGTTGATTCT
    GAAGGAGATG AAGACGTGGA GTCTGGGGAT TCTGTAGAGG AGGAAGATGA CGGAGCAGAG
    TCTGATTTAA GCTCAGAGTC CAGTTTAAGG AAGAAGCAAG AGAAGAAGAA GACCCTGGCC
    GAAAGCCCCT GGATGAAGGG TTCTAGGCGA CGGAAGAGAA AGAACAAGGA AAATCCCAAT
    CCGCTTCTAG CTTCATCGGG AGAGGCTCGG GAAGCCAGCA TGGAATACAC AGAGGTCTCA
    TTAGACTCCT TGGATCTGCG CGTCAAAGAG ATGTTATCTC CGCAGTCTAA CGATCTCTCT
    AATGGCTCGG AGGCCATGGA ACTGGACGGC CTTCAGGGGA TCCCCCTCTG CAGCTGCCGG
    ATGGAGACCC CCAAAGAAGA GGAGGTGTCG GCAAAGGCTG GAGAGCATTG CATGGCCATT
    GAGAGCACTG GCCAAGAGCA GCTGGGTCGC TGTACCAACA GGGTGGCAAA GTACGAGCTA
    ATGAGGCCTT CTAACAAGGT GCGTCATCTG GTGCTGTGTG AGGATCACCG GGGCAAGATG
    GTCAAACACC AGTGTTGTCC TGGCTGCGGT TACTTCTGCA CAGCGGGGAC CTTCATGGAA
    TGCCAGCCGG ACAGCACCAT CTCCCACCGA TTCCACAAGG ACTGCGCCAC CCGGGTCAAC
    AACTCGAGCT ACTGCCCACA CTGCGGGGAG GAGGCCTCCA AAGCGAAGGA GGTGACCATC
    GCCAAGGCCG ACACCACGTC CTCCCTGGCC CCAGTGACCG GCGAATGGGA GAAAGTCAGT
    GCGGCAGAGG GACAGGCGGA CACTACAACC GAGAGCGAGG CCATGGCTCT AAAGGCGCCA
    GAGGAGAATA AGCAAGAAGC AACATCTTCC CTCCCTGGAG GAACCCCTGA GCCTATAGAG
    ACCCCAAGTT TGGGCAAACC ACCCTCTCTG TCTCAGGGGC CCGTCAAGGA GACCTTGGAA
    AGCGCTCTAC TCGCTTTGGA CTCTGAAAAA CCCAAGAAAT TGCGGTTTCA CCCAAAGCAG
    CTGTATTTTT CTGCCCGGCA AGGAGAGCTG CAGAAAGTCC TGATGATGCT GGTGGACGGT
    ATTGACCCCA ACTACAAAAT GGAGCAGCAC AGTCGGAGAA CACCACTTCA CGCAGCGGCA
    GAGATGGGTT ACACGGACAT CTGCCACATG CTTATACAGG CCGGAGCCAA CCTAGACAGC
    TGCTCGGAGG ATCAACGCAC CCCCCTGATG GAGGCAGCTG AAAATAATCA TCTTGATACT
    GTGAAATACC TGGTGAAGGG CGGAGCTCTA ATTGACCCTA AGGACTCCGA GGGCTCCACT
    TGTCTTCATC TGGCGGCCAA GAAGGGTCAC TACGAAGTGG TGAAATATCT CCTCTCCTCC
    GAGAGAACCG ACGTCAACTG CCAGGACGAC GGGGGCTGGA CCCCGATGAT CTGGGCTACC
    GAGTACAAGC ACGTGGAGAT AGTCAAACTG TTACATTCCT CCCGCGCGGA CGTCAATATC
    CGCGATAATG AGGAGAACAT CTGCCTGCAC TGGGCCGCCT TCGCCGGTTC CGTCGAGATA
    GCGGAAATCC TCCTGGCTTC CAAATGTGAC CTCCGAGCTG TGAATATCCA CGGGGACTCC
    CCGCTCCATA TTGCCGCCCG CGAGAACCGC CACGAGTGCG TCATGCTGTT CCTGGGTCAC
    GGCTCGGAAG TGGGACTGAA GAACAAAGAG GGCGAGACGC CGCTGGAGTG CTCGGCGCCC
    AACTCCGACG TTTGGGCGGC CCTTAGCAAG TGCCAGGCCT TGCCCGAGAA GCCCACGCTG
    CAGGAAAAGG TGGTGGACAG GGATATATCC CGGGGGTACG AGAATATCCC CATCCCTTGC
    GTCAACGCCG AAGACTCCGA GCTGTGTCCC GTCAACTACA AATACGTCTC TCAGAACTGC
    GTGACCTCCC CGCTGAACAT CGACAGAAAC ATTACCCATC TGCAGTACTG TGTGTGCATC
    GATGACTGTT CCTCTAGTAA CTGTATGTGC GGCCAGCTGA GTATGAGGTG CTGGTACGAC
    AAGAACGGGC GCTTGTTACC AGAGTTCAAC ATGTTGGAGC CCCCACTGAT CTTCGAATGC
    AACCACGCCT GCTCCTGCTG GCGCAACTGC CGCAACCGTG TGGTTCAAAA TGGCTTGAAG
    ATTAGATTGC AACTGTTCCG CACCAAAAGC AAAGGCTGGG GGGTGCGATC CCTGCAAGAC
    ATTCCCCAGG GGACCTTCGT ATGCGAGTAT GTGGGGGAGC TGATTTCGGA CGCAGAGGCT
    GACGTTCGAG AGGATGACAC CTACCTCTTT GATCTTGATA ACAAGGACCG AGAGGTTTAC
    TGCATCGACG CCCGTTTCTA CGGCAACATC AGTCGCTTTA TCAACCACCT CTGCGAGCCG
    AACCTGCTCC CCGTGCGAGT CTTTATGTCC CACCAGGATC TGCGCTTTCC CCGCATCGGC
    TTCTTCAGCA GCCGGCACAT CGGCGCGGGG GAGGAGATCG GGTTTGATTA CGGCGACCGA
    TTCTGGGACG TCAAGGGGAA GCTCTTCAGC TGCCAGTGCG GTTCCCCCAA GTGCAAGCAC
    CCAATCAAAG TCCTTTCCCC GAGCCAGTCA TTCACCCCCG CAGAAACTCC GTCGGAGATT
    GGCTTACCCG ACACCAGCTC GGCCACCCCC CCGAGCCCCT CGCAGCCGCA GTGA

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

    RefSeq XP_031762692.1
    CDS80..3913
    Translation

    Target ORF information:

    RefSeq Version XM_031906832.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031906832.1

    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
    ATGGCCACAC TGGATGCTGA GCGTGTCGAT ACAAGCCAGA CGGAGTCCAG GAACGACTTA 
    TTCCTGAAGA CGGACTTGTT GAAGGCGATA GCCAACAGCC AAGAGGAAGT ATCTGAAGCC
    ATGGCCGGCG ACGAAAACTT GTCGGACAAG CAGGTCGGTG AAACGAATGG ATCTTGTGAA
    AAGAACGAGT CCAAGGAGCT CGGTTTATTG ACGCTTGCCA CCCCAGACAG CACAAAACTC
    CCTCACCAGG ACTGTGTTTT TAAAACTTTT CGTGTGGCAG AGAACGGGGT GTACGACCGA
    GACACGGAGG GGCAGTACCC CTTTAAAGCG AGCAACCCCA CACAGACATC CGTAACGGGA
    AGTAATGGGT ACATTTTAAA CAAACCTGCC ATTTTGGAGC AGCCATTAAG GACTTCAAGC
    TTGTCACCTC TGAGTGGCCA TGCTGCTAAA ACTCTACCGG TTGCTGCCAG CAAACCCAAA
    GCAGCTTCTA ATGTCTACGT CCCTCCTGCC CCTTCTCCTG TCCCTCCGAA CCCTGGGGAT
    CCGGGGCGGG TTGAGAACAC AAAGCAACAG GACAGCGCTT TACCTGATCT GAAAGTTCAC
    CGTGCAAGGA AAACTCTACC GAAGACAAGC GGCAGTTCGC CCATCCATAA AGAGCCCAAA
    GAACCATCCG AGCAGGACGA AACCAAGGAC GAGAGTGCAC CCAAAAATGG TTTAGATGAC
    GAGAAAGAGG AACCCCAGTC TCCCTCCTCT GCCCCTCAAC AGCTGCTACC TCAGGGTCAA
    AACTCTGCCA AGTCGCTCTC AGCTGCACTG GTGTGTCGGA AGAAGAAACG GCGGATGGGC
    ATGTACAGCC TCGTACCCAA GAAGAAGACC AAAGTGCCAA AGCAAAGAAG CGTGCTGGAG
    ATGTTCCGGA ACATCACCTA CACCTCTTCC AGTCCCAAGA GCGAGAAAGA GTCCGATGTT
    CCTCATGTTA ACGGGGAAAG CATGGAGATG GATTCCGAAG ACGAGGATTC GGAAGACATG
    GAAGAAGAGG ACTACCACAG TTCGGAGACG CCAGCCTCGG AGAGTCAGGA AGAGCCCGGT
    GTTCCTAAAG AGGCCACCTC AGAAGCCGAC AGTTCCAGAA AGGTCGATGA GGTTGATTCT
    GAAGGAGATG AAGACGTGGA GTCTGGGGAT TCTGTAGAGG AGGAAGATGA CGGAGCAGAG
    TCTGATTTAA GCTCAGAGTC CAGTTTAAGG AAGAAGCAAG AGAAGAAGAA GACCCTGGCC
    GAAAGCCCCT GGATGAAGGG TTCTAGGCGA CGGAAGAGAA AGAACAAGGA AAATCCCAAT
    CCGCTTCTAG CTTCATCGGG AGAGGCTCGG GAAGCCAGCA TGGAATACAC AGAGGTCTCA
    TTAGACTCCT TGGATCTGCG CGTCAAAGAG ATGTTATCTC CGCAGTCTAA CGATCTCTCT
    AATGGCTCGG AGGCCATGGA ACTGGACGGC CTTCAGGGGA TCCCCCTCTG CAGCTGCCGG
    ATGGAGACCC CCAAAGAAGA GGAGGTGTCG GCAAAGGCTG GAGAGCATTG CATGGCCATT
    GAGAGCACTG GCCAAGAGCA GCTGGGTCGC TGTACCAACA GGGTGGCAAA GTACGAGCTA
    ATGAGGCCTT CTAACAAGGT GCGTCATCTG GTGCTGTGTG AGGATCACCG GGGCAAGATG
    GTCAAACACC AGTGTTGTCC TGGCTGCGGT TACTTCTGCA CAGCGGGGAC CTTCATGGAA
    TGCCAGCCGG ACAGCACCAT CTCCCACCGA TTCCACAAGG ACTGCGCCAC CCGGGTCAAC
    AACTCGAGCT ACTGCCCACA CTGCGGGGAG GAGGCCTCCA AAGCGAAGGA GGTGACCATC
    GCCAAGGCCG ACACCACGTC CTCCCTGGCC CCAGTGACCG GCGAATGGGA GAAAGTCAGT
    GCGGCAGAGG GACAGGCGGA CACTACAACC GAGAGCGAGG CCATGGCTCT AAAGGCGCCA
    GAGGAGAATA AGCAAGAAGC AACATCTTCC CTCCCTGGAG GAACCCCTGA GCCTATAGAG
    ACCCCAAGTT TGGGCAAACC ACCCTCTCTG TCTCAGGGGC CCGTCAAGGA GACCTTGGAA
    AGCGCTCTAC TCGCTTTGGA CTCTGAAAAA CCCAAGAAAT TGCGGTTTCA CCCAAAGCAG
    CTGTATTTTT CTGCCCGGCA AGGAGAGCTG CAGAAAGTCC TGATGATGCT GGTGGACGGT
    ATTGACCCCA ACTACAAAAT GGAGCAGCAC AGTCGGAGAA CACCACTTCA CGCAGCGGCA
    GAGATGGGTT ACACGGACAT CTGCCACATG CTTATACAGG CCGGAGCCAA CCTAGACAGC
    TGCTCGGAGG ATCAACGCAC CCCCCTGATG GAGGCAGCTG AAAATAATCA TCTTGATACT
    GTGAAATACC TGGTGAAGGG CGGAGCTCTA ATTGACCCTA AGGACTCCGA GGGCTCCACT
    TGTCTTCATC TGGCGGCCAA GAAGGGTCAC TACGAAGTGG TGAAATATCT CCTCTCCTCC
    GAGAGAACCG ACGTCAACTG CCAGGACGAC GGGGGCTGGA CCCCGATGAT CTGGGCTACC
    GAGTACAAGC ACGTGGAGAT AGTCAAACTG TTACATTCCT CCCGCGCGGA CGTCAATATC
    CGCGATAATG AGGAGAACAT CTGCCTGCAC TGGGCCGCCT TCGCCGGTTC CGTCGAGATA
    GCGGAAATCC TCCTGGCTTC CAAATGTGAC CTCCGAGCTG TGAATATCCA CGGGGACTCC
    CCGCTCCATA TTGCCGCCCG CGAGAACCGC CACGAGTGCG TCATGCTGTT CCTGGGTCAC
    GGCTCGGAAG TGGGACTGAA GAACAAAGAG GGCGAGACGC CGCTGGAGTG CTCGGCGCCC
    AACTCCGACG TTTGGGCGGC CCTTAGCAAG TGCCAGGCCT TGCCCGAGAA GCCCACGCTG
    CAGGAAAAGG TGGTGGACAG GGATATATCC CGGGGGTACG AGAATATCCC CATCCCTTGC
    GTCAACGCCG AAGACTCCGA GCTGTGTCCC GTCAACTACA AATACGTCTC TCAGAACTGC
    GTGACCTCCC CGCTGAACAT CGACAGAAAC ATTACCCATC TGCAGTACTG TGTGTGCATC
    GATGACTGTT CCTCTAGTAA CTGTATGTGC GGCCAGCTGA GTATGAGGTG CTGGTACGAC
    AAGAACGGGC GCTTGTTACC AGAGTTCAAC ATGTTGGAGC CCCCACTGAT CTTCGAATGC
    AACCACGCCT GCTCCTGCTG GCGCAACTGC CGCAACCGTG TGGTTCAAAA TGGCTTGAAG
    ATTAGATTGC AACTGTTCCG CACCAAAAGC AAAGGCTGGG GGGTGCGATC CCTGCAAGAC
    ATTCCCCAGG GGACCTTCGT ATGCGAGTAT GTGGGGGAGC TGATTTCGGA CGCAGAGGCT
    GACGTTCGAG AGGATGACAC CTACCTCTTT GATCTTGATA ACAAGGACCG AGAGGTTTAC
    TGCATCGACG CCCGTTTCTA CGGCAACATC AGTCGCTTTA TCAACCACCT CTGCGAGCCG
    AACCTGCTCC CCGTGCGAGT CTTTATGTCC CACCAGGATC TGCGCTTTCC CCGCATCGGC
    TTCTTCAGCA GCCGGCACAT CGGCGCGGGG GAGGAGATCG GGTTTGATTA CGGCGACCGA
    TTCTGGGACG TCAAGGGGAA GCTCTTCAGC TGCCAGTGCG GTTCCCCCAA GTGCAAGCAC
    CCAATCAAAG TCCTTTCCCC GAGCCAGTCA TTCACCCCCG CAGAAACTCC GTCGGAGATT
    GGCTTACCCG ACACCAGCTC GGCCACCCCC CCGAGCCCCT CGCAGCCGCA GTGA

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

    CloneID OXa63379
    Clone ID Related Accession (Same CDS sequence) XM_031906833.1
    Accession Version XM_031906833.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3831bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product histone-lysine N-methyltransferase EHMT1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGCCACAC TGGATGCTGA GCGTGTCGAT ACAAGCCAGA CGGAGTCCAG GAACGACTTA 
    TTCCTGAAGA CGGACTTGTT GAAGGCGATA GCCAACAGCC AAGAGGAAGT ATCTGAAGCC
    ATGGCCGGCG ACGAAAACTT GTCGGACAAG CAGGTCGGTG AAACGAATGG ATCTTGTGAA
    AAGAACGAGT CCAAGGAGCT CGGTTTATTG ACGCTTGCCA CCCCAGACAG CACAAAACTC
    CCTCACCAGG ACTGTGTTTT TAAAACTTTT CGTGTGGCAG AGAACGGGGT GTACGACCGA
    GACACGGAGG GGCAGTACCC CTTTAAAGCG AGCAACCCCA CACAGACATC CGTAACGGGA
    AGTAATGGGT ACATTTTAAA CAAACCTGCC ATTTTGGAGC AGCCATTAAG GACTTCAAGC
    TTGTCACCTC TGAGTGGCCA TGCTGCTAAA ACTCTACCGG TTGCTGCCAG CAAACCCAAA
    GCAGCTTCTA ATGTCTACGT CCCTCCTGCC CCTTCTCCTG TCCCTCCGAA CCCTGGGGAT
    CCGGGGCGGG TTGAGAACAC AAAGCAACAG GACAGCGCTT TACCTGATCT GAAAGTTCAC
    CGTGCAAGGA AAACTCTACC GAAGACAAGC GGCAGTTCGC CCATCCATAA AGAGCCCAAA
    GAACCATCCG AGCAGGACGA AACCAAGGAC GAGAGTGCAC CCAAAAATGG TTTAGATGAC
    GAGAAAGAGG AACCCCAGTC TCCCTCCTCT GCCCCTCAAC AGCTGCTACC TCAGGGTCAA
    AACTCTGCCA AGTCGCTCTC AGCTGCACTG GTGTGTCGGA AGAAGAAACG GCGGATGGGC
    ATGTACAGCC TCGTACCCAA GAAGAAGACC AAAGTGCCAA AGCAAAGAAG CGTGCTGGAG
    ATGTTCCGGA ACATCACCTA CACCTCTTCC AGTCCCAAGA GCGAGAAAGA GTCCGATGTT
    CCTCATGTTA ACGGGGAAAG CATGGAGATG GATTCCGAAG ACGAGGATTC GGAAGACATG
    GAAGAAGAGG ACTACCACAG TTCGGAGACG CCAGCCTCGG AGAGTCAGGA AGAGCCCGGT
    GTTCCTAAAG AGGCCACCTC AGAAGCCGAC AGTTCCAGAA AGGTCGATGA GGTTGATTCT
    GAAGGAGATG AAGACGTGGA GTCTGGGGAT TCTGTAGAGG AGGAAGATGA CGGAGCAGAG
    TCTGATTTAA GCTCAGAGTC CAGTTTAAGG AAGAAGCAAG AGAAGAAGAA GACCCTGGCC
    GAAAGCCCCT GGATGAAGGG TTCTAGGCGA CGGAAGAGAA AGAACAAGGA AAATCCCAAT
    CCGCTTCTAG CTTCATCGGG AGAGGCTCGG GAAGCCAGCA TGGAATACAC AGAGGTCTCA
    TTAGACTCCT TGGATCTGCG CGTCAAAGAG ATGTTATCTC CGCAGTCTAA CGATCTCTCT
    AATGGCTCGG AGGCCATGGA ACTGGACGGC CTTCAGGGGA TCCCCCTCTG CAGCTGCCGG
    ATGGAGACCC CCAAAGAAGA GGAGGTGTCG GCAAAGGCTG GAGAGCATTG CATGGCCATT
    GAGAGCACTG GCCAAGAGCT GGGTCGCTGT ACCAACAGGG TGGCAAAGTA CGAGCTAATG
    AGGCCTTCTA ACAAGGTGCG TCATCTGGTG CTGTGTGAGG ATCACCGGGG CAAGATGGTC
    AAACACCAGT GTTGTCCTGG CTGCGGTTAC TTCTGCACAG CGGGGACCTT CATGGAATGC
    CAGCCGGACA GCACCATCTC CCACCGATTC CACAAGGACT GCGCCACCCG GGTCAACAAC
    TCGAGCTACT GCCCACACTG CGGGGAGGAG GCCTCCAAAG CGAAGGAGGT GACCATCGCC
    AAGGCCGACA CCACGTCCTC CCTGGCCCCA GTGACCGGCG AATGGGAGAA AGTCAGTGCG
    GCAGAGGGAC AGGCGGACAC TACAACCGAG AGCGAGGCCA TGGCTCTAAA GGCGCCAGAG
    GAGAATAAGC AAGAAGCAAC ATCTTCCCTC CCTGGAGGAA CCCCTGAGCC TATAGAGACC
    CCAAGTTTGG GCAAACCACC CTCTCTGTCT CAGGGGCCCG TCAAGGAGAC CTTGGAAAGC
    GCTCTACTCG CTTTGGACTC TGAAAAACCC AAGAAATTGC GGTTTCACCC AAAGCAGCTG
    TATTTTTCTG CCCGGCAAGG AGAGCTGCAG AAAGTCCTGA TGATGCTGGT GGACGGTATT
    GACCCCAACT ACAAAATGGA GCAGCACAGT CGGAGAACAC CACTTCACGC AGCGGCAGAG
    ATGGGTTACA CGGACATCTG CCACATGCTT ATACAGGCCG GAGCCAACCT AGACAGCTGC
    TCGGAGGATC AACGCACCCC CCTGATGGAG GCAGCTGAAA ATAATCATCT TGATACTGTG
    AAATACCTGG TGAAGGGCGG AGCTCTAATT GACCCTAAGG ACTCCGAGGG CTCCACTTGT
    CTTCATCTGG CGGCCAAGAA GGGTCACTAC GAAGTGGTGA AATATCTCCT CTCCTCCGAG
    AGAACCGACG TCAACTGCCA GGACGACGGG GGCTGGACCC CGATGATCTG GGCTACCGAG
    TACAAGCACG TGGAGATAGT CAAACTGTTA CATTCCTCCC GCGCGGACGT CAATATCCGC
    GATAATGAGG AGAACATCTG CCTGCACTGG GCCGCCTTCG CCGGTTCCGT CGAGATAGCG
    GAAATCCTCC TGGCTTCCAA ATGTGACCTC CGAGCTGTGA ATATCCACGG GGACTCCCCG
    CTCCATATTG CCGCCCGCGA GAACCGCCAC GAGTGCGTCA TGCTGTTCCT GGGTCACGGC
    TCGGAAGTGG GACTGAAGAA CAAAGAGGGC GAGACGCCGC TGGAGTGCTC GGCGCCCAAC
    TCCGACGTTT GGGCGGCCCT TAGCAAGTGC CAGGCCTTGC CCGAGAAGCC CACGCTGCAG
    GAAAAGGTGG TGGACAGGGA TATATCCCGG GGGTACGAGA ATATCCCCAT CCCTTGCGTC
    AACGCCGAAG ACTCCGAGCT GTGTCCCGTC AACTACAAAT ACGTCTCTCA GAACTGCGTG
    ACCTCCCCGC TGAACATCGA CAGAAACATT ACCCATCTGC AGTACTGTGT GTGCATCGAT
    GACTGTTCCT CTAGTAACTG TATGTGCGGC CAGCTGAGTA TGAGGTGCTG GTACGACAAG
    AACGGGCGCT TGTTACCAGA GTTCAACATG TTGGAGCCCC CACTGATCTT CGAATGCAAC
    CACGCCTGCT CCTGCTGGCG CAACTGCCGC AACCGTGTGG TTCAAAATGG CTTGAAGATT
    AGATTGCAAC TGTTCCGCAC CAAAAGCAAA GGCTGGGGGG TGCGATCCCT GCAAGACATT
    CCCCAGGGGA CCTTCGTATG CGAGTATGTG GGGGAGCTGA TTTCGGACGC AGAGGCTGAC
    GTTCGAGAGG ATGACACCTA CCTCTTTGAT CTTGATAACA AGGACCGAGA GGTTTACTGC
    ATCGACGCCC GTTTCTACGG CAACATCAGT CGCTTTATCA ACCACCTCTG CGAGCCGAAC
    CTGCTCCCCG TGCGAGTCTT TATGTCCCAC CAGGATCTGC GCTTTCCCCG CATCGGCTTC
    TTCAGCAGCC GGCACATCGG CGCGGGGGAG GAGATCGGGT TTGATTACGG CGACCGATTC
    TGGGACGTCA AGGGGAAGCT CTTCAGCTGC CAGTGCGGTT CCCCCAAGTG CAAGCACCCA
    ATCAAAGTCC TTTCCCCGAG CCAGTCATTC ACCCCCGCAG AAACTCCGTC GGAGATTGGC
    TTACCCGACA CCAGCTCGGC CACCCCCCCG AGCCCCTCGC AGCCGCAGTG A

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

    RefSeq XP_031762693.1
    CDS80..3910
    Translation

    Target ORF information:

    RefSeq Version XM_031906833.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031906833.1

    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
    ATGGCCACAC TGGATGCTGA GCGTGTCGAT ACAAGCCAGA CGGAGTCCAG GAACGACTTA 
    TTCCTGAAGA CGGACTTGTT GAAGGCGATA GCCAACAGCC AAGAGGAAGT ATCTGAAGCC
    ATGGCCGGCG ACGAAAACTT GTCGGACAAG CAGGTCGGTG AAACGAATGG ATCTTGTGAA
    AAGAACGAGT CCAAGGAGCT CGGTTTATTG ACGCTTGCCA CCCCAGACAG CACAAAACTC
    CCTCACCAGG ACTGTGTTTT TAAAACTTTT CGTGTGGCAG AGAACGGGGT GTACGACCGA
    GACACGGAGG GGCAGTACCC CTTTAAAGCG AGCAACCCCA CACAGACATC CGTAACGGGA
    AGTAATGGGT ACATTTTAAA CAAACCTGCC ATTTTGGAGC AGCCATTAAG GACTTCAAGC
    TTGTCACCTC TGAGTGGCCA TGCTGCTAAA ACTCTACCGG TTGCTGCCAG CAAACCCAAA
    GCAGCTTCTA ATGTCTACGT CCCTCCTGCC CCTTCTCCTG TCCCTCCGAA CCCTGGGGAT
    CCGGGGCGGG TTGAGAACAC AAAGCAACAG GACAGCGCTT TACCTGATCT GAAAGTTCAC
    CGTGCAAGGA AAACTCTACC GAAGACAAGC GGCAGTTCGC CCATCCATAA AGAGCCCAAA
    GAACCATCCG AGCAGGACGA AACCAAGGAC GAGAGTGCAC CCAAAAATGG TTTAGATGAC
    GAGAAAGAGG AACCCCAGTC TCCCTCCTCT GCCCCTCAAC AGCTGCTACC TCAGGGTCAA
    AACTCTGCCA AGTCGCTCTC AGCTGCACTG GTGTGTCGGA AGAAGAAACG GCGGATGGGC
    ATGTACAGCC TCGTACCCAA GAAGAAGACC AAAGTGCCAA AGCAAAGAAG CGTGCTGGAG
    ATGTTCCGGA ACATCACCTA CACCTCTTCC AGTCCCAAGA GCGAGAAAGA GTCCGATGTT
    CCTCATGTTA ACGGGGAAAG CATGGAGATG GATTCCGAAG ACGAGGATTC GGAAGACATG
    GAAGAAGAGG ACTACCACAG TTCGGAGACG CCAGCCTCGG AGAGTCAGGA AGAGCCCGGT
    GTTCCTAAAG AGGCCACCTC AGAAGCCGAC AGTTCCAGAA AGGTCGATGA GGTTGATTCT
    GAAGGAGATG AAGACGTGGA GTCTGGGGAT TCTGTAGAGG AGGAAGATGA CGGAGCAGAG
    TCTGATTTAA GCTCAGAGTC CAGTTTAAGG AAGAAGCAAG AGAAGAAGAA GACCCTGGCC
    GAAAGCCCCT GGATGAAGGG TTCTAGGCGA CGGAAGAGAA AGAACAAGGA AAATCCCAAT
    CCGCTTCTAG CTTCATCGGG AGAGGCTCGG GAAGCCAGCA TGGAATACAC AGAGGTCTCA
    TTAGACTCCT TGGATCTGCG CGTCAAAGAG ATGTTATCTC CGCAGTCTAA CGATCTCTCT
    AATGGCTCGG AGGCCATGGA ACTGGACGGC CTTCAGGGGA TCCCCCTCTG CAGCTGCCGG
    ATGGAGACCC CCAAAGAAGA GGAGGTGTCG GCAAAGGCTG GAGAGCATTG CATGGCCATT
    GAGAGCACTG GCCAAGAGCT GGGTCGCTGT ACCAACAGGG TGGCAAAGTA CGAGCTAATG
    AGGCCTTCTA ACAAGGTGCG TCATCTGGTG CTGTGTGAGG ATCACCGGGG CAAGATGGTC
    AAACACCAGT GTTGTCCTGG CTGCGGTTAC TTCTGCACAG CGGGGACCTT CATGGAATGC
    CAGCCGGACA GCACCATCTC CCACCGATTC CACAAGGACT GCGCCACCCG GGTCAACAAC
    TCGAGCTACT GCCCACACTG CGGGGAGGAG GCCTCCAAAG CGAAGGAGGT GACCATCGCC
    AAGGCCGACA CCACGTCCTC CCTGGCCCCA GTGACCGGCG AATGGGAGAA AGTCAGTGCG
    GCAGAGGGAC AGGCGGACAC TACAACCGAG AGCGAGGCCA TGGCTCTAAA GGCGCCAGAG
    GAGAATAAGC AAGAAGCAAC ATCTTCCCTC CCTGGAGGAA CCCCTGAGCC TATAGAGACC
    CCAAGTTTGG GCAAACCACC CTCTCTGTCT CAGGGGCCCG TCAAGGAGAC CTTGGAAAGC
    GCTCTACTCG CTTTGGACTC TGAAAAACCC AAGAAATTGC GGTTTCACCC AAAGCAGCTG
    TATTTTTCTG CCCGGCAAGG AGAGCTGCAG AAAGTCCTGA TGATGCTGGT GGACGGTATT
    GACCCCAACT ACAAAATGGA GCAGCACAGT CGGAGAACAC CACTTCACGC AGCGGCAGAG
    ATGGGTTACA CGGACATCTG CCACATGCTT ATACAGGCCG GAGCCAACCT AGACAGCTGC
    TCGGAGGATC AACGCACCCC CCTGATGGAG GCAGCTGAAA ATAATCATCT TGATACTGTG
    AAATACCTGG TGAAGGGCGG AGCTCTAATT GACCCTAAGG ACTCCGAGGG CTCCACTTGT
    CTTCATCTGG CGGCCAAGAA GGGTCACTAC GAAGTGGTGA AATATCTCCT CTCCTCCGAG
    AGAACCGACG TCAACTGCCA GGACGACGGG GGCTGGACCC CGATGATCTG GGCTACCGAG
    TACAAGCACG TGGAGATAGT CAAACTGTTA CATTCCTCCC GCGCGGACGT CAATATCCGC
    GATAATGAGG AGAACATCTG CCTGCACTGG GCCGCCTTCG CCGGTTCCGT CGAGATAGCG
    GAAATCCTCC TGGCTTCCAA ATGTGACCTC CGAGCTGTGA ATATCCACGG GGACTCCCCG
    CTCCATATTG CCGCCCGCGA GAACCGCCAC GAGTGCGTCA TGCTGTTCCT GGGTCACGGC
    TCGGAAGTGG GACTGAAGAA CAAAGAGGGC GAGACGCCGC TGGAGTGCTC GGCGCCCAAC
    TCCGACGTTT GGGCGGCCCT TAGCAAGTGC CAGGCCTTGC CCGAGAAGCC CACGCTGCAG
    GAAAAGGTGG TGGACAGGGA TATATCCCGG GGGTACGAGA ATATCCCCAT CCCTTGCGTC
    AACGCCGAAG ACTCCGAGCT GTGTCCCGTC AACTACAAAT ACGTCTCTCA GAACTGCGTG
    ACCTCCCCGC TGAACATCGA CAGAAACATT ACCCATCTGC AGTACTGTGT GTGCATCGAT
    GACTGTTCCT CTAGTAACTG TATGTGCGGC CAGCTGAGTA TGAGGTGCTG GTACGACAAG
    AACGGGCGCT TGTTACCAGA GTTCAACATG TTGGAGCCCC CACTGATCTT CGAATGCAAC
    CACGCCTGCT CCTGCTGGCG CAACTGCCGC AACCGTGTGG TTCAAAATGG CTTGAAGATT
    AGATTGCAAC TGTTCCGCAC CAAAAGCAAA GGCTGGGGGG TGCGATCCCT GCAAGACATT
    CCCCAGGGGA CCTTCGTATG CGAGTATGTG GGGGAGCTGA TTTCGGACGC AGAGGCTGAC
    GTTCGAGAGG ATGACACCTA CCTCTTTGAT CTTGATAACA AGGACCGAGA GGTTTACTGC
    ATCGACGCCC GTTTCTACGG CAACATCAGT CGCTTTATCA ACCACCTCTG CGAGCCGAAC
    CTGCTCCCCG TGCGAGTCTT TATGTCCCAC CAGGATCTGC GCTTTCCCCG CATCGGCTTC
    TTCAGCAGCC GGCACATCGG CGCGGGGGAG GAGATCGGGT TTGATTACGG CGACCGATTC
    TGGGACGTCA AGGGGAAGCT CTTCAGCTGC CAGTGCGGTT CCCCCAAGTG CAAGCACCCA
    ATCAAAGTCC TTTCCCCGAG CCAGTCATTC ACCCCCGCAG AAACTCCGTC GGAGATTGGC
    TTACCCGACA CCAGCTCGGC CACCCCCCCG AGCCCCTCGC AGCCGCAGTG A

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

    CloneID OXa63380
    Clone ID Related Accession (Same CDS sequence) XM_031906834.1
    Accession Version XM_031906834.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product histone-lysine N-methyltransferase EHMT1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGAAATGC GTGTCGATAC AAGCCAGACG GAGTCCAGGA ACGACTTATT CCTGAAGACG 
    GACTTGTTGA AGGCGATAGC CAACAGCCAA GAGGAAGTAT CTGAAGCCAT GGCCGGCGAC
    GAAAACTTGT CGGACAAGCA GGTCGGTGAA ACGAATGGAT CTTGTGAAAA GAACGAGTCC
    AAGGAGCTCG GTTTATTGAC GCTTGCCACC CCAGACAGCA CAAAACTCCC TCACCAGGAC
    TGTGTTTTTA AAACTTTTCG TGTGGCAGAG AACGGGGTGT ACGACCGAGA CACGGAGGGG
    CAGTACCCCT TTAAAGCGAG CAACCCCACA CAGACATCCG TAACGGGAAG TAATGGGTAC
    ATTTTAAACA AACCTGCCAT TTTGGAGCAG CCATTAAGGA CTTCAAGCTT GTCACCTCTG
    AGTGGCCATG CTGCTAAAAC TCTACCGGTT GCTGCCAGCA AACCCAAAGC AGCTTCTAAT
    GTCTACGTCC CTCCTGCCCC TTCTCCTGTC CCTCCGAACC CTGGGGATCC GGGGCGGGTT
    GAGAACACAA AGCAACAGGA CAGCGCTTTA CCTGATCTGA AAGTTCACCG TGCAAGGAAA
    ACTCTACCGA AGACAAGCGG CAGTTCGCCC ATCCATAAAG AGCCCAAAGA ACCATCCGAG
    CAGGACGAAA CCAAGGACGA GAGTGCACCC AAAAATGGTT TAGATGACGA GAAAGAGGAA
    CCCCAGTCTC CCTCCTCTGC CCCTCAACAG CTGCTACCTC AGGGTCAAAA CTCTGCCAAG
    TCGCTCTCAG CTGCACTGGT GTGTCGGAAG AAGAAACGGC GGATGGGCAT GTACAGCCTC
    GTACCCAAGA AGAAGACCAA AGTGCCAAAG CAAAGAAGCG TGCTGGAGAT GTTCCGGAAC
    ATCACCTACA CCTCTTCCAG TCCCAAGAGC GAGAAAGAGT CCGATGTTCC TCATGTTAAC
    GGGGAAAGCA TGGAGATGGA TTCCGAAGAC GAGGATTCGG AAGACATGGA AGAAGAGGAC
    TACCACAGTT CGGAGACGCC AGCCTCGGAG AGTCAGGAAG AGCCCGGTGT TCCTAAAGAG
    GCCACCTCAG AAGCCGACAG TTCCAGAAAG GTCGATGAGG TTGATTCTGA AGGAGATGAA
    GACGTGGAGT CTGGGGATTC TGTAGAGGAG GAAGATGACG GAGCAGAGTC TGATTTAAGC
    TCAGAGTCCA GTTTAAGGAA GAAGCAAGAG AAGAAGAAGA CCCTGGCCGA AAGCCCCTGG
    ATGAAGGGTT CTAGGCGACG GAAGAGAAAG AACAAGGAAA ATCCCAATCC GCTTCTAGCT
    TCATCGGGAG AGGCTCGGGA AGCCAGCATG GAATACACAG AGGTCTCATT AGACTCCTTG
    GATCTGCGCG TCAAAGAGAT GTTATCTCCG CAGTCTAACG ATCTCTCTAA TGGCTCGGAG
    GCCATGGAAC TGGACGGCCT TCAGGGGATC CCCCTCTGCA GCTGCCGGAT GGAGACCCCC
    AAAGAAGAGG AGGTGTCGGC AAAGGCTGGA GAGCATTGCA TGGCCATTGA GAGCACTGGC
    CAAGAGCAGC TGGGTCGCTG TACCAACAGG GTGGCAAAGT ACGAGCTAAT GAGGCCTTCT
    AACAAGGTGC GTCATCTGGT GCTGTGTGAG GATCACCGGG GCAAGATGGT CAAACACCAG
    TGTTGTCCTG GCTGCGGTTA CTTCTGCACA GCGGGGACCT TCATGGAATG CCAGCCGGAC
    AGCACCATCT CCCACCGATT CCACAAGGAC TGCGCCACCC GGGTCAACAA CTCGAGCTAC
    TGCCCACACT GCGGGGAGGA GGCCTCCAAA GCGAAGGAGG TGACCATCGC CAAGGCCGAC
    ACCACGTCCT CCCTGGCCCC AGTGACCGGC GAATGGGAGA AAGTCAGTGC GGCAGAGGGA
    CAGGCGGACA CTACAACCGA GAGCGAGGCC ATGGCTCTAA AGGCGCCAGA GGAGAATAAG
    CAAGAAGCAA CATCTTCCCT CCCTGGAGGA ACCCCTGAGC CTATAGAGAC CCCAAGTTTG
    GGCAAACCAC CCTCTCTGTC TCAGGGGCCC GTCAAGGAGA CCTTGGAAAG CGCTCTACTC
    GCTTTGGACT CTGAAAAACC CAAGAAATTG CGGTTTCACC CAAAGCAGCT GTATTTTTCT
    GCCCGGCAAG GAGAGCTGCA GAAAGTCCTG ATGATGCTGG TGGACGGTAT TGACCCCAAC
    TACAAAATGG AGCAGCACAG TCGGAGAACA CCACTTCACG CAGCGGCAGA GATGGGTTAC
    ACGGACATCT GCCACATGCT TATACAGGCC GGAGCCAACC TAGACAGCTG CTCGGAGGAT
    CAACGCACCC CCCTGATGGA GGCAGCTGAA AATAATCATC TTGATACTGT GAAATACCTG
    GTGAAGGGCG GAGCTCTAAT TGACCCTAAG GACTCCGAGG GCTCCACTTG TCTTCATCTG
    GCGGCCAAGA AGGGTCACTA CGAAGTGGTG AAATATCTCC TCTCCTCCGA GAGAACCGAC
    GTCAACTGCC AGGACGACGG GGGCTGGACC CCGATGATCT GGGCTACCGA GTACAAGCAC
    GTGGAGATAG TCAAACTGTT ACATTCCTCC CGCGCGGACG TCAATATCCG CGATAATGAG
    GAGAACATCT GCCTGCACTG GGCCGCCTTC GCCGGTTCCG TCGAGATAGC GGAAATCCTC
    CTGGCTTCCA AATGTGACCT CCGAGCTGTG AATATCCACG GGGACTCCCC GCTCCATATT
    GCCGCCCGCG AGAACCGCCA CGAGTGCGTC ATGCTGTTCC TGGGTCACGG CTCGGAAGTG
    GGACTGAAGA ACAAAGAGGG CGAGACGCCG CTGGAGTGCT CGGCGCCCAA CTCCGACGTT
    TGGGCGGCCC TTAGCAAGTG CCAGGCCTTG CCCGAGAAGC CCACGCTGCA GGAAAAGGTG
    GTGGACAGGG ATATATCCCG GGGGTACGAG AATATCCCCA TCCCTTGCGT CAACGCCGAA
    GACTCCGAGC TGTGTCCCGT CAACTACAAA TACGTCTCTC AGAACTGCGT GACCTCCCCG
    CTGAACATCG ACAGAAACAT TACCCATCTG CAGTACTGTG TGTGCATCGA TGACTGTTCC
    TCTAGTAACT GTATGTGCGG CCAGCTGAGT ATGAGGTGCT GGTACGACAA GAACGGGCGC
    TTGTTACCAG AGTTCAACAT GTTGGAGCCC CCACTGATCT TCGAATGCAA CCACGCCTGC
    TCCTGCTGGC GCAACTGCCG CAACCGTGTG GTTCAAAATG GCTTGAAGAT TAGATTGCAA
    CTGTTCCGCA CCAAAAGCAA AGGCTGGGGG GTGCGATCCC TGCAAGACAT TCCCCAGGGG
    ACCTTCGTAT GCGAGTATGT GGGGGAGCTG ATTTCGGACG CAGAGGCTGA CGTTCGAGAG
    GATGACACCT ACCTCTTTGA TCTTGATAAC AAGGACCGAG AGGTTTACTG CATCGACGCC
    CGTTTCTACG GCAACATCAG TCGCTTTATC AACCACCTCT GCGAGCCGAA CCTGCTCCCC
    GTGCGAGTCT TTATGTCCCA CCAGGATCTG CGCTTTCCCC GCATCGGCTT CTTCAGCAGC
    CGGCACATCG GCGCGGGGGA GGAGATCGGG TTTGATTACG GCGACCGATT CTGGGACGTC
    AAGGGGAAGC TCTTCAGCTG CCAGTGCGGT TCCCCCAAGT GCAAGCACCC AATCAAAGTC
    CTTTCCCCGA GCCAGTCATT CACCCCCGCA GAAACTCCGT CGGAGATTGG CTTACCCGAC
    ACCAGCTCGG CCACCCCCCC GAGCCCCTCG CAGCCGCAGT GA

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

    RefSeq XP_031762694.1
    CDS16..3837
    Translation

    Target ORF information:

    RefSeq Version XM_031906834.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031906834.1

    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
    ATGGAAATGC GTGTCGATAC AAGCCAGACG GAGTCCAGGA ACGACTTATT CCTGAAGACG 
    GACTTGTTGA AGGCGATAGC CAACAGCCAA GAGGAAGTAT CTGAAGCCAT GGCCGGCGAC
    GAAAACTTGT CGGACAAGCA GGTCGGTGAA ACGAATGGAT CTTGTGAAAA GAACGAGTCC
    AAGGAGCTCG GTTTATTGAC GCTTGCCACC CCAGACAGCA CAAAACTCCC TCACCAGGAC
    TGTGTTTTTA AAACTTTTCG TGTGGCAGAG AACGGGGTGT ACGACCGAGA CACGGAGGGG
    CAGTACCCCT TTAAAGCGAG CAACCCCACA CAGACATCCG TAACGGGAAG TAATGGGTAC
    ATTTTAAACA AACCTGCCAT TTTGGAGCAG CCATTAAGGA CTTCAAGCTT GTCACCTCTG
    AGTGGCCATG CTGCTAAAAC TCTACCGGTT GCTGCCAGCA AACCCAAAGC AGCTTCTAAT
    GTCTACGTCC CTCCTGCCCC TTCTCCTGTC CCTCCGAACC CTGGGGATCC GGGGCGGGTT
    GAGAACACAA AGCAACAGGA CAGCGCTTTA CCTGATCTGA AAGTTCACCG TGCAAGGAAA
    ACTCTACCGA AGACAAGCGG CAGTTCGCCC ATCCATAAAG AGCCCAAAGA ACCATCCGAG
    CAGGACGAAA CCAAGGACGA GAGTGCACCC AAAAATGGTT TAGATGACGA GAAAGAGGAA
    CCCCAGTCTC CCTCCTCTGC CCCTCAACAG CTGCTACCTC AGGGTCAAAA CTCTGCCAAG
    TCGCTCTCAG CTGCACTGGT GTGTCGGAAG AAGAAACGGC GGATGGGCAT GTACAGCCTC
    GTACCCAAGA AGAAGACCAA AGTGCCAAAG CAAAGAAGCG TGCTGGAGAT GTTCCGGAAC
    ATCACCTACA CCTCTTCCAG TCCCAAGAGC GAGAAAGAGT CCGATGTTCC TCATGTTAAC
    GGGGAAAGCA TGGAGATGGA TTCCGAAGAC GAGGATTCGG AAGACATGGA AGAAGAGGAC
    TACCACAGTT CGGAGACGCC AGCCTCGGAG AGTCAGGAAG AGCCCGGTGT TCCTAAAGAG
    GCCACCTCAG AAGCCGACAG TTCCAGAAAG GTCGATGAGG TTGATTCTGA AGGAGATGAA
    GACGTGGAGT CTGGGGATTC TGTAGAGGAG GAAGATGACG GAGCAGAGTC TGATTTAAGC
    TCAGAGTCCA GTTTAAGGAA GAAGCAAGAG AAGAAGAAGA CCCTGGCCGA AAGCCCCTGG
    ATGAAGGGTT CTAGGCGACG GAAGAGAAAG AACAAGGAAA ATCCCAATCC GCTTCTAGCT
    TCATCGGGAG AGGCTCGGGA AGCCAGCATG GAATACACAG AGGTCTCATT AGACTCCTTG
    GATCTGCGCG TCAAAGAGAT GTTATCTCCG CAGTCTAACG ATCTCTCTAA TGGCTCGGAG
    GCCATGGAAC TGGACGGCCT TCAGGGGATC CCCCTCTGCA GCTGCCGGAT GGAGACCCCC
    AAAGAAGAGG AGGTGTCGGC AAAGGCTGGA GAGCATTGCA TGGCCATTGA GAGCACTGGC
    CAAGAGCAGC TGGGTCGCTG TACCAACAGG GTGGCAAAGT ACGAGCTAAT GAGGCCTTCT
    AACAAGGTGC GTCATCTGGT GCTGTGTGAG GATCACCGGG GCAAGATGGT CAAACACCAG
    TGTTGTCCTG GCTGCGGTTA CTTCTGCACA GCGGGGACCT TCATGGAATG CCAGCCGGAC
    AGCACCATCT CCCACCGATT CCACAAGGAC TGCGCCACCC GGGTCAACAA CTCGAGCTAC
    TGCCCACACT GCGGGGAGGA GGCCTCCAAA GCGAAGGAGG TGACCATCGC CAAGGCCGAC
    ACCACGTCCT CCCTGGCCCC AGTGACCGGC GAATGGGAGA AAGTCAGTGC GGCAGAGGGA
    CAGGCGGACA CTACAACCGA GAGCGAGGCC ATGGCTCTAA AGGCGCCAGA GGAGAATAAG
    CAAGAAGCAA CATCTTCCCT CCCTGGAGGA ACCCCTGAGC CTATAGAGAC CCCAAGTTTG
    GGCAAACCAC CCTCTCTGTC TCAGGGGCCC GTCAAGGAGA CCTTGGAAAG CGCTCTACTC
    GCTTTGGACT CTGAAAAACC CAAGAAATTG CGGTTTCACC CAAAGCAGCT GTATTTTTCT
    GCCCGGCAAG GAGAGCTGCA GAAAGTCCTG ATGATGCTGG TGGACGGTAT TGACCCCAAC
    TACAAAATGG AGCAGCACAG TCGGAGAACA CCACTTCACG CAGCGGCAGA GATGGGTTAC
    ACGGACATCT GCCACATGCT TATACAGGCC GGAGCCAACC TAGACAGCTG CTCGGAGGAT
    CAACGCACCC CCCTGATGGA GGCAGCTGAA AATAATCATC TTGATACTGT GAAATACCTG
    GTGAAGGGCG GAGCTCTAAT TGACCCTAAG GACTCCGAGG GCTCCACTTG TCTTCATCTG
    GCGGCCAAGA AGGGTCACTA CGAAGTGGTG AAATATCTCC TCTCCTCCGA GAGAACCGAC
    GTCAACTGCC AGGACGACGG GGGCTGGACC CCGATGATCT GGGCTACCGA GTACAAGCAC
    GTGGAGATAG TCAAACTGTT ACATTCCTCC CGCGCGGACG TCAATATCCG CGATAATGAG
    GAGAACATCT GCCTGCACTG GGCCGCCTTC GCCGGTTCCG TCGAGATAGC GGAAATCCTC
    CTGGCTTCCA AATGTGACCT CCGAGCTGTG AATATCCACG GGGACTCCCC GCTCCATATT
    GCCGCCCGCG AGAACCGCCA CGAGTGCGTC ATGCTGTTCC TGGGTCACGG CTCGGAAGTG
    GGACTGAAGA ACAAAGAGGG CGAGACGCCG CTGGAGTGCT CGGCGCCCAA CTCCGACGTT
    TGGGCGGCCC TTAGCAAGTG CCAGGCCTTG CCCGAGAAGC CCACGCTGCA GGAAAAGGTG
    GTGGACAGGG ATATATCCCG GGGGTACGAG AATATCCCCA TCCCTTGCGT CAACGCCGAA
    GACTCCGAGC TGTGTCCCGT CAACTACAAA TACGTCTCTC AGAACTGCGT GACCTCCCCG
    CTGAACATCG ACAGAAACAT TACCCATCTG CAGTACTGTG TGTGCATCGA TGACTGTTCC
    TCTAGTAACT GTATGTGCGG CCAGCTGAGT ATGAGGTGCT GGTACGACAA GAACGGGCGC
    TTGTTACCAG AGTTCAACAT GTTGGAGCCC CCACTGATCT TCGAATGCAA CCACGCCTGC
    TCCTGCTGGC GCAACTGCCG CAACCGTGTG GTTCAAAATG GCTTGAAGAT TAGATTGCAA
    CTGTTCCGCA CCAAAAGCAA AGGCTGGGGG GTGCGATCCC TGCAAGACAT TCCCCAGGGG
    ACCTTCGTAT GCGAGTATGT GGGGGAGCTG ATTTCGGACG CAGAGGCTGA CGTTCGAGAG
    GATGACACCT ACCTCTTTGA TCTTGATAAC AAGGACCGAG AGGTTTACTG CATCGACGCC
    CGTTTCTACG GCAACATCAG TCGCTTTATC AACCACCTCT GCGAGCCGAA CCTGCTCCCC
    GTGCGAGTCT TTATGTCCCA CCAGGATCTG CGCTTTCCCC GCATCGGCTT CTTCAGCAGC
    CGGCACATCG GCGCGGGGGA GGAGATCGGG TTTGATTACG GCGACCGATT CTGGGACGTC
    AAGGGGAAGC TCTTCAGCTG CCAGTGCGGT TCCCCCAAGT GCAAGCACCC AATCAAAGTC
    CTTTCCCCGA GCCAGTCATT CACCCCCGCA GAAACTCCGT CGGAGATTGG CTTACCCGAC
    ACCAGCTCGG CCACCCCCCC GAGCCCCTCG CAGCCGCAGT GA

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

    CloneID OXa63381
    Clone ID Related Accession (Same CDS sequence) XM_031906837.1
    Accession Version XM_031906837.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3816bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product histone-lysine N-methyltransferase EHMT1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCGTGTCG ATACAAGCCA GACGGAGTCC AGGAACGACT TATTCCTGAA GACGGACTTG 
    TTGAAGGCGA TAGCCAACAG CCAAGAGGAA GTATCTGAAG CCATGGCCGG CGACGAAAAC
    TTGTCGGACA AGCAGGTCGG TGAAACGAAT GGATCTTGTG AAAAGAACGA GTCCAAGGAG
    CTCGGTTTAT TGACGCTTGC CACCCCAGAC AGCACAAAAC TCCCTCACCA GGACTGTGTT
    TTTAAAACTT TTCGTGTGGC AGAGAACGGG GTGTACGACC GAGACACGGA GGGGCAGTAC
    CCCTTTAAAG CGAGCAACCC CACACAGACA TCCGTAACGG GAAGTAATGG GTACATTTTA
    AACAAACCTG CCATTTTGGA GCAGCCATTA AGGACTTCAA GCTTGTCACC TCTGAGTGGC
    CATGCTGCTA AAACTCTACC GGTTGCTGCC AGCAAACCCA AAGCAGCTTC TAATGTCTAC
    GTCCCTCCTG CCCCTTCTCC TGTCCCTCCG AACCCTGGGG ATCCGGGGCG GGTTGAGAAC
    ACAAAGCAAC AGGACAGCGC TTTACCTGAT CTGAAAGTTC ACCGTGCAAG GAAAACTCTA
    CCGAAGACAA GCGGCAGTTC GCCCATCCAT AAAGAGCCCA AAGAACCATC CGAGCAGGAC
    GAAACCAAGG ACGAGAGTGC ACCCAAAAAT GGTTTAGATG ACGAGAAAGA GGAACCCCAG
    TCTCCCTCCT CTGCCCCTCA ACAGCTGCTA CCTCAGGGTC AAAACTCTGC CAAGTCGCTC
    TCAGCTGCAC TGGTGTGTCG GAAGAAGAAA CGGCGGATGG GCATGTACAG CCTCGTACCC
    AAGAAGAAGA CCAAAGTGCC AAAGCAAAGA AGCGTGCTGG AGATGTTCCG GAACATCACC
    TACACCTCTT CCAGTCCCAA GAGCGAGAAA GAGTCCGATG TTCCTCATGT TAACGGGGAA
    AGCATGGAGA TGGATTCCGA AGACGAGGAT TCGGAAGACA TGGAAGAAGA GGACTACCAC
    AGTTCGGAGA CGCCAGCCTC GGAGAGTCAG GAAGAGCCCG GTGTTCCTAA AGAGGCCACC
    TCAGAAGCCG ACAGTTCCAG AAAGGTCGAT GAGGTTGATT CTGAAGGAGA TGAAGACGTG
    GAGTCTGGGG ATTCTGTAGA GGAGGAAGAT GACGGAGCAG AGTCTGATTT AAGCTCAGAG
    TCCAGTTTAA GGAAGAAGCA AGAGAAGAAG AAGACCCTGG CCGAAAGCCC CTGGATGAAG
    GGTTCTAGGC GACGGAAGAG AAAGAACAAG GAAAATCCCA ATCCGCTTCT AGCTTCATCG
    GGAGAGGCTC GGGAAGCCAG CATGGAATAC ACAGAGGTCT CATTAGACTC CTTGGATCTG
    CGCGTCAAAG AGATGTTATC TCCGCAGTCT AACGATCTCT CTAATGGCTC GGAGGCCATG
    GAACTGGACG GCCTTCAGGG GATCCCCCTC TGCAGCTGCC GGATGGAGAC CCCCAAAGAA
    GAGGAGGTGT CGGCAAAGGC TGGAGAGCAT TGCATGGCCA TTGAGAGCAC TGGCCAAGAG
    CAGCTGGGTC GCTGTACCAA CAGGGTGGCA AAGTACGAGC TAATGAGGCC TTCTAACAAG
    GTGCGTCATC TGGTGCTGTG TGAGGATCAC CGGGGCAAGA TGGTCAAACA CCAGTGTTGT
    CCTGGCTGCG GTTACTTCTG CACAGCGGGG ACCTTCATGG AATGCCAGCC GGACAGCACC
    ATCTCCCACC GATTCCACAA GGACTGCGCC ACCCGGGTCA ACAACTCGAG CTACTGCCCA
    CACTGCGGGG AGGAGGCCTC CAAAGCGAAG GAGGTGACCA TCGCCAAGGC CGACACCACG
    TCCTCCCTGG CCCCAGTGAC CGGCGAATGG GAGAAAGTCA GTGCGGCAGA GGGACAGGCG
    GACACTACAA CCGAGAGCGA GGCCATGGCT CTAAAGGCGC CAGAGGAGAA TAAGCAAGAA
    GCAACATCTT CCCTCCCTGG AGGAACCCCT GAGCCTATAG AGACCCCAAG TTTGGGCAAA
    CCACCCTCTC TGTCTCAGGG GCCCGTCAAG GAGACCTTGG AAAGCGCTCT ACTCGCTTTG
    GACTCTGAAA AACCCAAGAA ATTGCGGTTT CACCCAAAGC AGCTGTATTT TTCTGCCCGG
    CAAGGAGAGC TGCAGAAAGT CCTGATGATG CTGGTGGACG GTATTGACCC CAACTACAAA
    ATGGAGCAGC ACAGTCGGAG AACACCACTT CACGCAGCGG CAGAGATGGG TTACACGGAC
    ATCTGCCACA TGCTTATACA GGCCGGAGCC AACCTAGACA GCTGCTCGGA GGATCAACGC
    ACCCCCCTGA TGGAGGCAGC TGAAAATAAT CATCTTGATA CTGTGAAATA CCTGGTGAAG
    GGCGGAGCTC TAATTGACCC TAAGGACTCC GAGGGCTCCA CTTGTCTTCA TCTGGCGGCC
    AAGAAGGGTC ACTACGAAGT GGTGAAATAT CTCCTCTCCT CCGAGAGAAC CGACGTCAAC
    TGCCAGGACG ACGGGGGCTG GACCCCGATG ATCTGGGCTA CCGAGTACAA GCACGTGGAG
    ATAGTCAAAC TGTTACATTC CTCCCGCGCG GACGTCAATA TCCGCGATAA TGAGGAGAAC
    ATCTGCCTGC ACTGGGCCGC CTTCGCCGGT TCCGTCGAGA TAGCGGAAAT CCTCCTGGCT
    TCCAAATGTG ACCTCCGAGC TGTGAATATC CACGGGGACT CCCCGCTCCA TATTGCCGCC
    CGCGAGAACC GCCACGAGTG CGTCATGCTG TTCCTGGGTC ACGGCTCGGA AGTGGGACTG
    AAGAACAAAG AGGGCGAGAC GCCGCTGGAG TGCTCGGCGC CCAACTCCGA CGTTTGGGCG
    GCCCTTAGCA AGTGCCAGGC CTTGCCCGAG AAGCCCACGC TGCAGGAAAA GGTGGTGGAC
    AGGGATATAT CCCGGGGGTA CGAGAATATC CCCATCCCTT GCGTCAACGC CGAAGACTCC
    GAGCTGTGTC CCGTCAACTA CAAATACGTC TCTCAGAACT GCGTGACCTC CCCGCTGAAC
    ATCGACAGAA ACATTACCCA TCTGCAGTAC TGTGTGTGCA TCGATGACTG TTCCTCTAGT
    AACTGTATGT GCGGCCAGCT GAGTATGAGG TGCTGGTACG ACAAGAACGG GCGCTTGTTA
    CCAGAGTTCA ACATGTTGGA GCCCCCACTG ATCTTCGAAT GCAACCACGC CTGCTCCTGC
    TGGCGCAACT GCCGCAACCG TGTGGTTCAA AATGGCTTGA AGATTAGATT GCAACTGTTC
    CGCACCAAAA GCAAAGGCTG GGGGGTGCGA TCCCTGCAAG ACATTCCCCA GGGGACCTTC
    GTATGCGAGT ATGTGGGGGA GCTGATTTCG GACGCAGAGG CTGACGTTCG AGAGGATGAC
    ACCTACCTCT TTGATCTTGA TAACAAGGAC CGAGAGGTTT ACTGCATCGA CGCCCGTTTC
    TACGGCAACA TCAGTCGCTT TATCAACCAC CTCTGCGAGC CGAACCTGCT CCCCGTGCGA
    GTCTTTATGT CCCACCAGGA TCTGCGCTTT CCCCGCATCG GCTTCTTCAG CAGCCGGCAC
    ATCGGCGCGG GGGAGGAGAT CGGGTTTGAT TACGGCGACC GATTCTGGGA CGTCAAGGGG
    AAGCTCTTCA GCTGCCAGTG CGGTTCCCCC AAGTGCAAGC ACCCAATCAA AGTCCTTTCC
    CCGAGCCAGT CATTCACCCC CGCAGAAACT CCGTCGGAGA TTGGCTTACC CGACACCAGC
    TCGGCCACCC CCCCGAGCCC CTCGCAGCCG CAGTGA

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

    RefSeq XP_031762697.1
    CDS88..3903
    Translation

    Target ORF information:

    RefSeq Version XM_031906837.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031906837.1

    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
    ATGCGTGTCG ATACAAGCCA GACGGAGTCC AGGAACGACT TATTCCTGAA GACGGACTTG 
    TTGAAGGCGA TAGCCAACAG CCAAGAGGAA GTATCTGAAG CCATGGCCGG CGACGAAAAC
    TTGTCGGACA AGCAGGTCGG TGAAACGAAT GGATCTTGTG AAAAGAACGA GTCCAAGGAG
    CTCGGTTTAT TGACGCTTGC CACCCCAGAC AGCACAAAAC TCCCTCACCA GGACTGTGTT
    TTTAAAACTT TTCGTGTGGC AGAGAACGGG GTGTACGACC GAGACACGGA GGGGCAGTAC
    CCCTTTAAAG CGAGCAACCC CACACAGACA TCCGTAACGG GAAGTAATGG GTACATTTTA
    AACAAACCTG CCATTTTGGA GCAGCCATTA AGGACTTCAA GCTTGTCACC TCTGAGTGGC
    CATGCTGCTA AAACTCTACC GGTTGCTGCC AGCAAACCCA AAGCAGCTTC TAATGTCTAC
    GTCCCTCCTG CCCCTTCTCC TGTCCCTCCG AACCCTGGGG ATCCGGGGCG GGTTGAGAAC
    ACAAAGCAAC AGGACAGCGC TTTACCTGAT CTGAAAGTTC ACCGTGCAAG GAAAACTCTA
    CCGAAGACAA GCGGCAGTTC GCCCATCCAT AAAGAGCCCA AAGAACCATC CGAGCAGGAC
    GAAACCAAGG ACGAGAGTGC ACCCAAAAAT GGTTTAGATG ACGAGAAAGA GGAACCCCAG
    TCTCCCTCCT CTGCCCCTCA ACAGCTGCTA CCTCAGGGTC AAAACTCTGC CAAGTCGCTC
    TCAGCTGCAC TGGTGTGTCG GAAGAAGAAA CGGCGGATGG GCATGTACAG CCTCGTACCC
    AAGAAGAAGA CCAAAGTGCC AAAGCAAAGA AGCGTGCTGG AGATGTTCCG GAACATCACC
    TACACCTCTT CCAGTCCCAA GAGCGAGAAA GAGTCCGATG TTCCTCATGT TAACGGGGAA
    AGCATGGAGA TGGATTCCGA AGACGAGGAT TCGGAAGACA TGGAAGAAGA GGACTACCAC
    AGTTCGGAGA CGCCAGCCTC GGAGAGTCAG GAAGAGCCCG GTGTTCCTAA AGAGGCCACC
    TCAGAAGCCG ACAGTTCCAG AAAGGTCGAT GAGGTTGATT CTGAAGGAGA TGAAGACGTG
    GAGTCTGGGG ATTCTGTAGA GGAGGAAGAT GACGGAGCAG AGTCTGATTT AAGCTCAGAG
    TCCAGTTTAA GGAAGAAGCA AGAGAAGAAG AAGACCCTGG CCGAAAGCCC CTGGATGAAG
    GGTTCTAGGC GACGGAAGAG AAAGAACAAG GAAAATCCCA ATCCGCTTCT AGCTTCATCG
    GGAGAGGCTC GGGAAGCCAG CATGGAATAC ACAGAGGTCT CATTAGACTC CTTGGATCTG
    CGCGTCAAAG AGATGTTATC TCCGCAGTCT AACGATCTCT CTAATGGCTC GGAGGCCATG
    GAACTGGACG GCCTTCAGGG GATCCCCCTC TGCAGCTGCC GGATGGAGAC CCCCAAAGAA
    GAGGAGGTGT CGGCAAAGGC TGGAGAGCAT TGCATGGCCA TTGAGAGCAC TGGCCAAGAG
    CAGCTGGGTC GCTGTACCAA CAGGGTGGCA AAGTACGAGC TAATGAGGCC TTCTAACAAG
    GTGCGTCATC TGGTGCTGTG TGAGGATCAC CGGGGCAAGA TGGTCAAACA CCAGTGTTGT
    CCTGGCTGCG GTTACTTCTG CACAGCGGGG ACCTTCATGG AATGCCAGCC GGACAGCACC
    ATCTCCCACC GATTCCACAA GGACTGCGCC ACCCGGGTCA ACAACTCGAG CTACTGCCCA
    CACTGCGGGG AGGAGGCCTC CAAAGCGAAG GAGGTGACCA TCGCCAAGGC CGACACCACG
    TCCTCCCTGG CCCCAGTGAC CGGCGAATGG GAGAAAGTCA GTGCGGCAGA GGGACAGGCG
    GACACTACAA CCGAGAGCGA GGCCATGGCT CTAAAGGCGC CAGAGGAGAA TAAGCAAGAA
    GCAACATCTT CCCTCCCTGG AGGAACCCCT GAGCCTATAG AGACCCCAAG TTTGGGCAAA
    CCACCCTCTC TGTCTCAGGG GCCCGTCAAG GAGACCTTGG AAAGCGCTCT ACTCGCTTTG
    GACTCTGAAA AACCCAAGAA ATTGCGGTTT CACCCAAAGC AGCTGTATTT TTCTGCCCGG
    CAAGGAGAGC TGCAGAAAGT CCTGATGATG CTGGTGGACG GTATTGACCC CAACTACAAA
    ATGGAGCAGC ACAGTCGGAG AACACCACTT CACGCAGCGG CAGAGATGGG TTACACGGAC
    ATCTGCCACA TGCTTATACA GGCCGGAGCC AACCTAGACA GCTGCTCGGA GGATCAACGC
    ACCCCCCTGA TGGAGGCAGC TGAAAATAAT CATCTTGATA CTGTGAAATA CCTGGTGAAG
    GGCGGAGCTC TAATTGACCC TAAGGACTCC GAGGGCTCCA CTTGTCTTCA TCTGGCGGCC
    AAGAAGGGTC ACTACGAAGT GGTGAAATAT CTCCTCTCCT CCGAGAGAAC CGACGTCAAC
    TGCCAGGACG ACGGGGGCTG GACCCCGATG ATCTGGGCTA CCGAGTACAA GCACGTGGAG
    ATAGTCAAAC TGTTACATTC CTCCCGCGCG GACGTCAATA TCCGCGATAA TGAGGAGAAC
    ATCTGCCTGC ACTGGGCCGC CTTCGCCGGT TCCGTCGAGA TAGCGGAAAT CCTCCTGGCT
    TCCAAATGTG ACCTCCGAGC TGTGAATATC CACGGGGACT CCCCGCTCCA TATTGCCGCC
    CGCGAGAACC GCCACGAGTG CGTCATGCTG TTCCTGGGTC ACGGCTCGGA AGTGGGACTG
    AAGAACAAAG AGGGCGAGAC GCCGCTGGAG TGCTCGGCGC CCAACTCCGA CGTTTGGGCG
    GCCCTTAGCA AGTGCCAGGC CTTGCCCGAG AAGCCCACGC TGCAGGAAAA GGTGGTGGAC
    AGGGATATAT CCCGGGGGTA CGAGAATATC CCCATCCCTT GCGTCAACGC CGAAGACTCC
    GAGCTGTGTC CCGTCAACTA CAAATACGTC TCTCAGAACT GCGTGACCTC CCCGCTGAAC
    ATCGACAGAA ACATTACCCA TCTGCAGTAC TGTGTGTGCA TCGATGACTG TTCCTCTAGT
    AACTGTATGT GCGGCCAGCT GAGTATGAGG TGCTGGTACG ACAAGAACGG GCGCTTGTTA
    CCAGAGTTCA ACATGTTGGA GCCCCCACTG ATCTTCGAAT GCAACCACGC CTGCTCCTGC
    TGGCGCAACT GCCGCAACCG TGTGGTTCAA AATGGCTTGA AGATTAGATT GCAACTGTTC
    CGCACCAAAA GCAAAGGCTG GGGGGTGCGA TCCCTGCAAG ACATTCCCCA GGGGACCTTC
    GTATGCGAGT ATGTGGGGGA GCTGATTTCG GACGCAGAGG CTGACGTTCG AGAGGATGAC
    ACCTACCTCT TTGATCTTGA TAACAAGGAC CGAGAGGTTT ACTGCATCGA CGCCCGTTTC
    TACGGCAACA TCAGTCGCTT TATCAACCAC CTCTGCGAGC CGAACCTGCT CCCCGTGCGA
    GTCTTTATGT CCCACCAGGA TCTGCGCTTT CCCCGCATCG GCTTCTTCAG CAGCCGGCAC
    ATCGGCGCGG GGGAGGAGAT CGGGTTTGAT TACGGCGACC GATTCTGGGA CGTCAAGGGG
    AAGCTCTTCA GCTGCCAGTG CGGTTCCCCC AAGTGCAAGC ACCCAATCAA AGTCCTTTCC
    CCGAGCCAGT CATTCACCCC CGCAGAAACT CCGTCGGAGA TTGGCTTACC CGACACCAGC
    TCGGCCACCC CCCCGAGCCC CTCGCAGCCG CAGTGA

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

    CloneID OXa63382
    Clone ID Related Accession (Same CDS sequence) XM_031906838.1
    Accession Version XM_031906838.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3714bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product histone-lysine N-methyltransferase EHMT1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGCCGGCG ACGAAAACTT GTCGGACAAG CAGGTCGGTG AAACGAATGG ATCTTGTGAA 
    AAGAACGAGT CCAAGGAGCT CGGTTTATTG ACGCTTGCCA CCCCAGACAG CACAAAACTC
    CCTCACCAGG ACTGTGTTTT TAAAACTTTT CGTGTGGCAG AGAACGGGGT GTACGACCGA
    GACACGGAGG GGCAGTACCC CTTTAAAGCG AGCAACCCCA CACAGACATC CGTAACGGGA
    AGTAATGGGT ACATTTTAAA CAAACCTGCC ATTTTGGAGC AGCCATTAAG GACTTCAAGC
    TTGTCACCTC TGAGTGGCCA TGCTGCTAAA ACTCTACCGG TTGCTGCCAG CAAACCCAAA
    GCAGCTTCTA ATGTCTACGT CCCTCCTGCC CCTTCTCCTG TCCCTCCGAA CCCTGGGGAT
    CCGGGGCGGG TTGAGAACAC AAAGCAACAG GACAGCGCTT TACCTGATCT GAAAGTTCAC
    CGTGCAAGGA AAACTCTACC GAAGACAAGC GGCAGTTCGC CCATCCATAA AGAGCCCAAA
    GAACCATCCG AGCAGGACGA AACCAAGGAC GAGAGTGCAC CCAAAAATGG TTTAGATGAC
    GAGAAAGAGG AACCCCAGTC TCCCTCCTCT GCCCCTCAAC AGCTGCTACC TCAGGGTCAA
    AACTCTGCCA AGTCGCTCTC AGCTGCACTG GTGTGTCGGA AGAAGAAACG GCGGATGGGC
    ATGTACAGCC TCGTACCCAA GAAGAAGACC AAAGTGCCAA AGCAAAGAAG CGTGCTGGAG
    ATGTTCCGGA ACATCACCTA CACCTCTTCC AGTCCCAAGA GCGAGAAAGA GTCCGATGTT
    CCTCATGTTA ACGGGGAAAG CATGGAGATG GATTCCGAAG ACGAGGATTC GGAAGACATG
    GAAGAAGAGG ACTACCACAG TTCGGAGACG CCAGCCTCGG AGAGTCAGGA AGAGCCCGGT
    GTTCCTAAAG AGGCCACCTC AGAAGCCGAC AGTTCCAGAA AGGTCGATGA GGTTGATTCT
    GAAGGAGATG AAGACGTGGA GTCTGGGGAT TCTGTAGAGG AGGAAGATGA CGGAGCAGAG
    TCTGATTTAA GCTCAGAGTC CAGTTTAAGG AAGAAGCAAG AGAAGAAGAA GACCCTGGCC
    GAAAGCCCCT GGATGAAGGG TTCTAGGCGA CGGAAGAGAA AGAACAAGGA AAATCCCAAT
    CCGCTTCTAG CTTCATCGGG AGAGGCTCGG GAAGCCAGCA TGGAATACAC AGAGGTCTCA
    TTAGACTCCT TGGATCTGCG CGTCAAAGAG ATGTTATCTC CGCAGTCTAA CGATCTCTCT
    AATGGCTCGG AGGCCATGGA ACTGGACGGC CTTCAGGGGA TCCCCCTCTG CAGCTGCCGG
    ATGGAGACCC CCAAAGAAGA GGAGGTGTCG GCAAAGGCTG GAGAGCATTG CATGGCCATT
    GAGAGCACTG GCCAAGAGCA GCTGGGTCGC TGTACCAACA GGGTGGCAAA GTACGAGCTA
    ATGAGGCCTT CTAACAAGGT GCGTCATCTG GTGCTGTGTG AGGATCACCG GGGCAAGATG
    GTCAAACACC AGTGTTGTCC TGGCTGCGGT TACTTCTGCA CAGCGGGGAC CTTCATGGAA
    TGCCAGCCGG ACAGCACCAT CTCCCACCGA TTCCACAAGG ACTGCGCCAC CCGGGTCAAC
    AACTCGAGCT ACTGCCCACA CTGCGGGGAG GAGGCCTCCA AAGCGAAGGA GGTGACCATC
    GCCAAGGCCG ACACCACGTC CTCCCTGGCC CCAGTGACCG GCGAATGGGA GAAAGTCAGT
    GCGGCAGAGG GACAGGCGGA CACTACAACC GAGAGCGAGG CCATGGCTCT AAAGGCGCCA
    GAGGAGAATA AGCAAGAAGC AACATCTTCC CTCCCTGGAG GAACCCCTGA GCCTATAGAG
    ACCCCAAGTT TGGGCAAACC ACCCTCTCTG TCTCAGGGGC CCGTCAAGGA GACCTTGGAA
    AGCGCTCTAC TCGCTTTGGA CTCTGAAAAA CCCAAGAAAT TGCGGTTTCA CCCAAAGCAG
    CTGTATTTTT CTGCCCGGCA AGGAGAGCTG CAGAAAGTCC TGATGATGCT GGTGGACGGT
    ATTGACCCCA ACTACAAAAT GGAGCAGCAC AGTCGGAGAA CACCACTTCA CGCAGCGGCA
    GAGATGGGTT ACACGGACAT CTGCCACATG CTTATACAGG CCGGAGCCAA CCTAGACAGC
    TGCTCGGAGG ATCAACGCAC CCCCCTGATG GAGGCAGCTG AAAATAATCA TCTTGATACT
    GTGAAATACC TGGTGAAGGG CGGAGCTCTA ATTGACCCTA AGGACTCCGA GGGCTCCACT
    TGTCTTCATC TGGCGGCCAA GAAGGGTCAC TACGAAGTGG TGAAATATCT CCTCTCCTCC
    GAGAGAACCG ACGTCAACTG CCAGGACGAC GGGGGCTGGA CCCCGATGAT CTGGGCTACC
    GAGTACAAGC ACGTGGAGAT AGTCAAACTG TTACATTCCT CCCGCGCGGA CGTCAATATC
    CGCGATAATG AGGAGAACAT CTGCCTGCAC TGGGCCGCCT TCGCCGGTTC CGTCGAGATA
    GCGGAAATCC TCCTGGCTTC CAAATGTGAC CTCCGAGCTG TGAATATCCA CGGGGACTCC
    CCGCTCCATA TTGCCGCCCG CGAGAACCGC CACGAGTGCG TCATGCTGTT CCTGGGTCAC
    GGCTCGGAAG TGGGACTGAA GAACAAAGAG GGCGAGACGC CGCTGGAGTG CTCGGCGCCC
    AACTCCGACG TTTGGGCGGC CCTTAGCAAG TGCCAGGCCT TGCCCGAGAA GCCCACGCTG
    CAGGAAAAGG TGGTGGACAG GGATATATCC CGGGGGTACG AGAATATCCC CATCCCTTGC
    GTCAACGCCG AAGACTCCGA GCTGTGTCCC GTCAACTACA AATACGTCTC TCAGAACTGC
    GTGACCTCCC CGCTGAACAT CGACAGAAAC ATTACCCATC TGCAGTACTG TGTGTGCATC
    GATGACTGTT CCTCTAGTAA CTGTATGTGC GGCCAGCTGA GTATGAGGTG CTGGTACGAC
    AAGAACGGGC GCTTGTTACC AGAGTTCAAC ATGTTGGAGC CCCCACTGAT CTTCGAATGC
    AACCACGCCT GCTCCTGCTG GCGCAACTGC CGCAACCGTG TGGTTCAAAA TGGCTTGAAG
    ATTAGATTGC AACTGTTCCG CACCAAAAGC AAAGGCTGGG GGGTGCGATC CCTGCAAGAC
    ATTCCCCAGG GGACCTTCGT ATGCGAGTAT GTGGGGGAGC TGATTTCGGA CGCAGAGGCT
    GACGTTCGAG AGGATGACAC CTACCTCTTT GATCTTGATA ACAAGGACCG AGAGGTTTAC
    TGCATCGACG CCCGTTTCTA CGGCAACATC AGTCGCTTTA TCAACCACCT CTGCGAGCCG
    AACCTGCTCC CCGTGCGAGT CTTTATGTCC CACCAGGATC TGCGCTTTCC CCGCATCGGC
    TTCTTCAGCA GCCGGCACAT CGGCGCGGGG GAGGAGATCG GGTTTGATTA CGGCGACCGA
    TTCTGGGACG TCAAGGGGAA GCTCTTCAGC TGCCAGTGCG GTTCCCCCAA GTGCAAGCAC
    CCAATCAAAG TCCTTTCCCC GAGCCAGTCA TTCACCCCCG CAGAAACTCC GTCGGAGATT
    GGCTTACCCG ACACCAGCTC GGCCACCCCC CCGAGCCCCT CGCAGCCGCA GTGA

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

    RefSeq XP_031762698.1
    CDS329..4042
    Translation

    Target ORF information:

    RefSeq Version XM_031906838.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031906838.1

    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
    ATGGCCGGCG ACGAAAACTT GTCGGACAAG CAGGTCGGTG AAACGAATGG ATCTTGTGAA 
    AAGAACGAGT CCAAGGAGCT CGGTTTATTG ACGCTTGCCA CCCCAGACAG CACAAAACTC
    CCTCACCAGG ACTGTGTTTT TAAAACTTTT CGTGTGGCAG AGAACGGGGT GTACGACCGA
    GACACGGAGG GGCAGTACCC CTTTAAAGCG AGCAACCCCA CACAGACATC CGTAACGGGA
    AGTAATGGGT ACATTTTAAA CAAACCTGCC ATTTTGGAGC AGCCATTAAG GACTTCAAGC
    TTGTCACCTC TGAGTGGCCA TGCTGCTAAA ACTCTACCGG TTGCTGCCAG CAAACCCAAA
    GCAGCTTCTA ATGTCTACGT CCCTCCTGCC CCTTCTCCTG TCCCTCCGAA CCCTGGGGAT
    CCGGGGCGGG TTGAGAACAC AAAGCAACAG GACAGCGCTT TACCTGATCT GAAAGTTCAC
    CGTGCAAGGA AAACTCTACC GAAGACAAGC GGCAGTTCGC CCATCCATAA AGAGCCCAAA
    GAACCATCCG AGCAGGACGA AACCAAGGAC GAGAGTGCAC CCAAAAATGG TTTAGATGAC
    GAGAAAGAGG AACCCCAGTC TCCCTCCTCT GCCCCTCAAC AGCTGCTACC TCAGGGTCAA
    AACTCTGCCA AGTCGCTCTC AGCTGCACTG GTGTGTCGGA AGAAGAAACG GCGGATGGGC
    ATGTACAGCC TCGTACCCAA GAAGAAGACC AAAGTGCCAA AGCAAAGAAG CGTGCTGGAG
    ATGTTCCGGA ACATCACCTA CACCTCTTCC AGTCCCAAGA GCGAGAAAGA GTCCGATGTT
    CCTCATGTTA ACGGGGAAAG CATGGAGATG GATTCCGAAG ACGAGGATTC GGAAGACATG
    GAAGAAGAGG ACTACCACAG TTCGGAGACG CCAGCCTCGG AGAGTCAGGA AGAGCCCGGT
    GTTCCTAAAG AGGCCACCTC AGAAGCCGAC AGTTCCAGAA AGGTCGATGA GGTTGATTCT
    GAAGGAGATG AAGACGTGGA GTCTGGGGAT TCTGTAGAGG AGGAAGATGA CGGAGCAGAG
    TCTGATTTAA GCTCAGAGTC CAGTTTAAGG AAGAAGCAAG AGAAGAAGAA GACCCTGGCC
    GAAAGCCCCT GGATGAAGGG TTCTAGGCGA CGGAAGAGAA AGAACAAGGA AAATCCCAAT
    CCGCTTCTAG CTTCATCGGG AGAGGCTCGG GAAGCCAGCA TGGAATACAC AGAGGTCTCA
    TTAGACTCCT TGGATCTGCG CGTCAAAGAG ATGTTATCTC CGCAGTCTAA CGATCTCTCT
    AATGGCTCGG AGGCCATGGA ACTGGACGGC CTTCAGGGGA TCCCCCTCTG CAGCTGCCGG
    ATGGAGACCC CCAAAGAAGA GGAGGTGTCG GCAAAGGCTG GAGAGCATTG CATGGCCATT
    GAGAGCACTG GCCAAGAGCA GCTGGGTCGC TGTACCAACA GGGTGGCAAA GTACGAGCTA
    ATGAGGCCTT CTAACAAGGT GCGTCATCTG GTGCTGTGTG AGGATCACCG GGGCAAGATG
    GTCAAACACC AGTGTTGTCC TGGCTGCGGT TACTTCTGCA CAGCGGGGAC CTTCATGGAA
    TGCCAGCCGG ACAGCACCAT CTCCCACCGA TTCCACAAGG ACTGCGCCAC CCGGGTCAAC
    AACTCGAGCT ACTGCCCACA CTGCGGGGAG GAGGCCTCCA AAGCGAAGGA GGTGACCATC
    GCCAAGGCCG ACACCACGTC CTCCCTGGCC CCAGTGACCG GCGAATGGGA GAAAGTCAGT
    GCGGCAGAGG GACAGGCGGA CACTACAACC GAGAGCGAGG CCATGGCTCT AAAGGCGCCA
    GAGGAGAATA AGCAAGAAGC AACATCTTCC CTCCCTGGAG GAACCCCTGA GCCTATAGAG
    ACCCCAAGTT TGGGCAAACC ACCCTCTCTG TCTCAGGGGC CCGTCAAGGA GACCTTGGAA
    AGCGCTCTAC TCGCTTTGGA CTCTGAAAAA CCCAAGAAAT TGCGGTTTCA CCCAAAGCAG
    CTGTATTTTT CTGCCCGGCA AGGAGAGCTG CAGAAAGTCC TGATGATGCT GGTGGACGGT
    ATTGACCCCA ACTACAAAAT GGAGCAGCAC AGTCGGAGAA CACCACTTCA CGCAGCGGCA
    GAGATGGGTT ACACGGACAT CTGCCACATG CTTATACAGG CCGGAGCCAA CCTAGACAGC
    TGCTCGGAGG ATCAACGCAC CCCCCTGATG GAGGCAGCTG AAAATAATCA TCTTGATACT
    GTGAAATACC TGGTGAAGGG CGGAGCTCTA ATTGACCCTA AGGACTCCGA GGGCTCCACT
    TGTCTTCATC TGGCGGCCAA GAAGGGTCAC TACGAAGTGG TGAAATATCT CCTCTCCTCC
    GAGAGAACCG ACGTCAACTG CCAGGACGAC GGGGGCTGGA CCCCGATGAT CTGGGCTACC
    GAGTACAAGC ACGTGGAGAT AGTCAAACTG TTACATTCCT CCCGCGCGGA CGTCAATATC
    CGCGATAATG AGGAGAACAT CTGCCTGCAC TGGGCCGCCT TCGCCGGTTC CGTCGAGATA
    GCGGAAATCC TCCTGGCTTC CAAATGTGAC CTCCGAGCTG TGAATATCCA CGGGGACTCC
    CCGCTCCATA TTGCCGCCCG CGAGAACCGC CACGAGTGCG TCATGCTGTT CCTGGGTCAC
    GGCTCGGAAG TGGGACTGAA GAACAAAGAG GGCGAGACGC CGCTGGAGTG CTCGGCGCCC
    AACTCCGACG TTTGGGCGGC CCTTAGCAAG TGCCAGGCCT TGCCCGAGAA GCCCACGCTG
    CAGGAAAAGG TGGTGGACAG GGATATATCC CGGGGGTACG AGAATATCCC CATCCCTTGC
    GTCAACGCCG AAGACTCCGA GCTGTGTCCC GTCAACTACA AATACGTCTC TCAGAACTGC
    GTGACCTCCC CGCTGAACAT CGACAGAAAC ATTACCCATC TGCAGTACTG TGTGTGCATC
    GATGACTGTT CCTCTAGTAA CTGTATGTGC GGCCAGCTGA GTATGAGGTG CTGGTACGAC
    AAGAACGGGC GCTTGTTACC AGAGTTCAAC ATGTTGGAGC CCCCACTGAT CTTCGAATGC
    AACCACGCCT GCTCCTGCTG GCGCAACTGC CGCAACCGTG TGGTTCAAAA TGGCTTGAAG
    ATTAGATTGC AACTGTTCCG CACCAAAAGC AAAGGCTGGG GGGTGCGATC CCTGCAAGAC
    ATTCCCCAGG GGACCTTCGT ATGCGAGTAT GTGGGGGAGC TGATTTCGGA CGCAGAGGCT
    GACGTTCGAG AGGATGACAC CTACCTCTTT GATCTTGATA ACAAGGACCG AGAGGTTTAC
    TGCATCGACG CCCGTTTCTA CGGCAACATC AGTCGCTTTA TCAACCACCT CTGCGAGCCG
    AACCTGCTCC CCGTGCGAGT CTTTATGTCC CACCAGGATC TGCGCTTTCC CCGCATCGGC
    TTCTTCAGCA GCCGGCACAT CGGCGCGGGG GAGGAGATCG GGTTTGATTA CGGCGACCGA
    TTCTGGGACG TCAAGGGGAA GCTCTTCAGC TGCCAGTGCG GTTCCCCCAA GTGCAAGCAC
    CCAATCAAAG TCCTTTCCCC GAGCCAGTCA TTCACCCCCG CAGAAACTCC GTCGGAGATT
    GGCTTACCCG ACACCAGCTC GGCCACCCCC CCGAGCCCCT CGCAGCCGCA GTGA

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

    CloneID OXa01844
    Clone ID Related Accession (Same CDS sequence) NM_001102698.1
    Accession Version NM_001102698.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3711bp)
    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 2019-12-21
    Organism Xenopus tropicalis(tropical clawed frog)
    Product histone-lysine N-methyltransferase EHMT1
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC135982.1. ##Evidence-Data-START## Transcript exon combination :: BC135982.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00028291, SAMD00028302 [ECO:0000348] ##Evidence-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
    ATGGCCGGCG ACGAAAACTT GTCGGACAAG CAGGTCGGTG AAACGAATGG ATCTTGTGAA 
    AAGAACGAGT CCAAGGAGCT CGGTTTATTG ACGCTTGCCA CCCCAGACAG CACAAAACTC
    CCTCACCAGG ACTGTGTTTT TAAAACTTTT CGTGTGGCAG AGAACGGGGT GTACGACCGA
    GACACGGAGG GGCAGTACCC CTTAAAAGCG AGCAACCCCA CACAGACATC CGTAACGGGA
    AGTAATGGGT ACATTTTAAA CAAACCTGCC ATTTTGGAGC AGCCATTAAG GACTTCAAGC
    TTGTCACCTC TGAGTGGCCA TGCTGCTAAA ACTCTACCGG TTGCTGCCAG CAAACCCAAA
    GCAGCTTCTA ATGTCTACGT CCCTCCTGCC CCTTCTCCTG TCCCTCCGAA CCCTGGGGAT
    CCGGGGCGGG TTGAGAACAC AAAGCAACAG GACAGCGCTT TACCTGATCT GAAAGTTCAC
    CGTGCAAGGA AAACTCTACC GAAGACAAGC GGCAGTTCGC CCATCCATAA AGAGCCCAAA
    GAACCATCCG AGCAGGACGA AACCAAGGAC GAGAGTGCAC CCAAAAATGG TTTAGACGAC
    GAGAAAGAGG AACCCCAGTC TCCCTCCTCT GCCCCTCAAC AGCTGCTACC TCAGGGTCAA
    AACTCTGCCA AGTCGCTCTC AGCTGCACTG GTGTGTCGGA AGAAGAAACG GCGGATGGGC
    ATGTACAGCC TCGTACCCAA GAAGAAGACC AAAGTGCCAA AGCAAAGAAG CGTGCTGGAG
    ATGTTCCGGA ACATCACCTA CACCTCTTCC AGTCCCAAGA GCGAGAAAGA GTCCGATGTT
    CCTCATGTTA ACGGGGAAAG CATGGAGATG GATTCCGAAG ACGAGGATTC GGAAGACATG
    GAAGAAGAGG ACTACCACAG TTCGGAGACG CCAGCCTCGG AGAGTCAGGA AGAGCCCGGT
    GTTCCTAAAG AGGCCACCTC AGAAGCCGAC AGTTCCAGAA AGGTCGATGA GGTTGATTCT
    GAAGGAGATG AAGACGTGGA GTCTGGGGAT TCTGTAGAGG AGGAAGATGA CGGAGCAGAG
    TCTGATTTAA GCTCAGAGTC CAGTTTAAGG AAGAAGCAAG AGAAGAAGAA GACCCTGGCC
    GAAAGCCCCT GGATGAAGGG TTCTAGGCGA CGGAAGAGAA AGAACAAGGA AAATCCCAAT
    CCGCTTCTAG CTTCATCGGG AGAGGCTCGG GAAGCCAGCA TGGAATACAC AGAGGTCTCA
    TTAGACTCCT TGGATCTGCG CGTCAAAGAG ATGTTATCTC CGCAGTCTAA CGATCTCTCT
    AATGGCTCGG AGGCCATGGA ACTGGACGGC CTTCAGGGGA TCCCCCTCTG CAGCTGCCGG
    ATGGAGACCC CCAAAGAAGA GGAGGTGTCG GCAAAGGCCG GAGAGCATTG CATGGCCATT
    GAGAGCACTG GCCAAGAGCT GGGTCGCTGT ACCAACAGGG TGGCAAAGTA CGAGCTAATG
    AGGCCTTCTA ACAAGGTGCG TCATCTGGTG CTGTGTGAGG ATCACCGGGG CAAGATGGTC
    AAACACCAGT GTTGTCCTGG CTGCGGTTAC TTCTGCACAG CGGGGACCTT CATGGAATGC
    CAGCCGGACA GCACCATCTC CCACCGATTC CACAAGGACT GCGCCACCCG GGTCAACAAC
    TCGAGCTACT GCCCACACTG CGGGGAGGAG GCCTCCAAAG CGAAGGAGGT GACCATCGCC
    AAGGCCGACA CCACGTCCTC CCTGGCCCCA GTGACCGGCG AATGGGAGAA AGTCAGTGCG
    GCAGAGGGAC AGGCGGACAC TACAACCGAG AGCGAGGCCA TGGCTCTAAA GGCGCCAGAG
    GAGAATAAGC AAGAAGCAAC ATCTTCCCTC CCTGGAGGAA CCCCTGAGCC TATAGAGACC
    CCAAGTTTGG GCAAACCACC CTCTCTGTCT CAGGGGCCCG TCAAGGAGAC CTTGGAAAGC
    GCTCTACTCG CTTTGGACTC TGAAAAACCC AAGAAATTGC GGTTTCACCC AAAGCAGCTG
    TATTTTTCTG CCCGGCAAGG AGAGCTGCAG AAAGTCCTGA TGATGCTGGT GGACGGTATT
    GACCCCAACT ACAAAATGGA GCAGCACAGT CGGAGAACAC CACTTCACGC AGCGGCAGAG
    ATGGGTTACA CGGACATCTG CCACATGCTT ATACAGGCCG GAGCCAACCT AGACAGCTGC
    TCGGAGGATC AACGCACCCC CCTGATGGAG GCAGCTGAAA ATAATCATCT CGATACTGTG
    AAATACCTGG TGAAGGGCGG AGCTCTAATT GACCCTAAGG ACTCCGAGGG CTCCACTTGT
    CTTCATCTGG CGGCCAAGAA GGGTCACTAC GAAGTGGTGA AATATCTCCT CTCCTCCGAG
    AGAACCGACG TCAACTGCCA GGACGACGGG GGCTGGACCC CGATGATCTG GGCTACCGAG
    TACAAGCACG TGGAGATAGT CAAACTGTTA CATTCCTCCC GCGCGGACGT CAATATCCGC
    GATAATGAGG AGAACATCTG CCTGCACTGG GCCGCCTTCG CCGGTTCCGT CGAGATAGCG
    GAAATCCTCC TGGCTTCCAA ATGTGACCTC CGAGCTGTGA ATATCCACGG GGACTCCCCG
    CTCCATATTG CCGCCCGCGA GAACCGCCAC GAGTGCGTCA TGCTGTTCCT GGGTCACGGC
    TCGGAAGTGG GACTGAAGAA CAAAGAGGGC GAGACGCCGC TGGAGTGCTC GGCGCCCAAC
    TCCGACGTTT GGGCGGCCCT TAGCAAGTGC CAGGCCTTGC CCGAGAAGCC CACGCTGCAG
    GAAAAGGTGG TGGACAGGGA TATATCCCGG GGGTACGAGA ATATCCCCAT CCCTTGCGTC
    AACGCCGAAG ACTCCGAGCT GTGTCCCGTC AACTACAAAT ACGTCTCTCA GAACTGCGTG
    ACCTCCCCGC TGAACATCGA CAGAAACATT ACCCATCTGC AGTACTGTGT GTGCATCGAT
    GACTGTTCCT CTAGTAACTG TATGTGTGGC CAGCTGAGTA TGAGGTGCTG GTATGACAAG
    AACGGGCGCT TGTTACCGGA GTTCAACATG TTGGAGCCCC CGCTGATCTT CGAATGCAAC
    CACGCCTGCT CCTGCTGGCG CAACTGCCGC AACCGTGTGG TTCAAAATGG CTTGAAGATT
    AGATTGCAAC TGTTCCGCAC CAAAAGCAAA GGCTGGGGGG TGCGATCCCT GCAAGACATT
    CCCCAGGGGA CCTTCGTATG CGAGTATGTG GGGGAGCTGA TTTCGGACGC AGAGGCTGAC
    GTTCGAGAGG ATGACACCTA CCTCTTTGAT CTTGATAACA AGGACCGAGA GGTTTACTGC
    ATCGACGCCC GTTTCTACGG CAACATCAGT CGCTTTATCA ACCACCTCTG CGAGCCGAAC
    CTGCTCCCCG TGCGAGTCTT TATGTCCCAC CAGGATCTGC GCTTTCCCCG CATCGGCTTC
    TTCAGCAGCC GGCACATCGG CGCGGGGGAG GAGATCGGGT TTGATTACGG CGACCGATTC
    TGGGACGTCA AGGGGAAGCT CTTCAGCTGC CAGTGCGGTT CCCCCAAGTG CAAGCACCCA
    ATCAAAGTCC TTTCCCCGAG CCAGTCATTC GCCCCCGCAG AAACTCCGTC GGAGATTGGC
    TTACCCGACA CCAGCTCAGC CACCCCCCCG AGCCCCTCGC AGCCGCAGTG A

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

    RefSeq NP_001096168.1
    CDS334..4044
    Translation

    Target ORF information:

    RefSeq Version NM_001102698.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis euchromatic histone-lysine N-methyltransferase 1 (ehmt1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001102698.1

    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
    ATGGCCGGCG ACGAAAACTT GTCGGACAAG CAGGTCGGTG AAACGAATGG ATCTTGTGAA 
    AAGAACGAGT CCAAGGAGCT CGGTTTATTG ACGCTTGCCA CCCCAGACAG CACAAAACTC
    CCTCACCAGG ACTGTGTTTT TAAAACTTTT CGTGTGGCAG AGAACGGGGT GTACGACCGA
    GACACGGAGG GGCAGTACCC CTTAAAAGCG AGCAACCCCA CACAGACATC CGTAACGGGA
    AGTAATGGGT ACATTTTAAA CAAACCTGCC ATTTTGGAGC AGCCATTAAG GACTTCAAGC
    TTGTCACCTC TGAGTGGCCA TGCTGCTAAA ACTCTACCGG TTGCTGCCAG CAAACCCAAA
    GCAGCTTCTA ATGTCTACGT CCCTCCTGCC CCTTCTCCTG TCCCTCCGAA CCCTGGGGAT
    CCGGGGCGGG TTGAGAACAC AAAGCAACAG GACAGCGCTT TACCTGATCT GAAAGTTCAC
    CGTGCAAGGA AAACTCTACC GAAGACAAGC GGCAGTTCGC CCATCCATAA AGAGCCCAAA
    GAACCATCCG AGCAGGACGA AACCAAGGAC GAGAGTGCAC CCAAAAATGG TTTAGACGAC
    GAGAAAGAGG AACCCCAGTC TCCCTCCTCT GCCCCTCAAC AGCTGCTACC TCAGGGTCAA
    AACTCTGCCA AGTCGCTCTC AGCTGCACTG GTGTGTCGGA AGAAGAAACG GCGGATGGGC
    ATGTACAGCC TCGTACCCAA GAAGAAGACC AAAGTGCCAA AGCAAAGAAG CGTGCTGGAG
    ATGTTCCGGA ACATCACCTA CACCTCTTCC AGTCCCAAGA GCGAGAAAGA GTCCGATGTT
    CCTCATGTTA ACGGGGAAAG CATGGAGATG GATTCCGAAG ACGAGGATTC GGAAGACATG
    GAAGAAGAGG ACTACCACAG TTCGGAGACG CCAGCCTCGG AGAGTCAGGA AGAGCCCGGT
    GTTCCTAAAG AGGCCACCTC AGAAGCCGAC AGTTCCAGAA AGGTCGATGA GGTTGATTCT
    GAAGGAGATG AAGACGTGGA GTCTGGGGAT TCTGTAGAGG AGGAAGATGA CGGAGCAGAG
    TCTGATTTAA GCTCAGAGTC CAGTTTAAGG AAGAAGCAAG AGAAGAAGAA GACCCTGGCC
    GAAAGCCCCT GGATGAAGGG TTCTAGGCGA CGGAAGAGAA AGAACAAGGA AAATCCCAAT
    CCGCTTCTAG CTTCATCGGG AGAGGCTCGG GAAGCCAGCA TGGAATACAC AGAGGTCTCA
    TTAGACTCCT TGGATCTGCG CGTCAAAGAG ATGTTATCTC CGCAGTCTAA CGATCTCTCT
    AATGGCTCGG AGGCCATGGA ACTGGACGGC CTTCAGGGGA TCCCCCTCTG CAGCTGCCGG
    ATGGAGACCC CCAAAGAAGA GGAGGTGTCG GCAAAGGCCG GAGAGCATTG CATGGCCATT
    GAGAGCACTG GCCAAGAGCT GGGTCGCTGT ACCAACAGGG TGGCAAAGTA CGAGCTAATG
    AGGCCTTCTA ACAAGGTGCG TCATCTGGTG CTGTGTGAGG ATCACCGGGG CAAGATGGTC
    AAACACCAGT GTTGTCCTGG CTGCGGTTAC TTCTGCACAG CGGGGACCTT CATGGAATGC
    CAGCCGGACA GCACCATCTC CCACCGATTC CACAAGGACT GCGCCACCCG GGTCAACAAC
    TCGAGCTACT GCCCACACTG CGGGGAGGAG GCCTCCAAAG CGAAGGAGGT GACCATCGCC
    AAGGCCGACA CCACGTCCTC CCTGGCCCCA GTGACCGGCG AATGGGAGAA AGTCAGTGCG
    GCAGAGGGAC AGGCGGACAC TACAACCGAG AGCGAGGCCA TGGCTCTAAA GGCGCCAGAG
    GAGAATAAGC AAGAAGCAAC ATCTTCCCTC CCTGGAGGAA CCCCTGAGCC TATAGAGACC
    CCAAGTTTGG GCAAACCACC CTCTCTGTCT CAGGGGCCCG TCAAGGAGAC CTTGGAAAGC
    GCTCTACTCG CTTTGGACTC TGAAAAACCC AAGAAATTGC GGTTTCACCC AAAGCAGCTG
    TATTTTTCTG CCCGGCAAGG AGAGCTGCAG AAAGTCCTGA TGATGCTGGT GGACGGTATT
    GACCCCAACT ACAAAATGGA GCAGCACAGT CGGAGAACAC CACTTCACGC AGCGGCAGAG
    ATGGGTTACA CGGACATCTG CCACATGCTT ATACAGGCCG GAGCCAACCT AGACAGCTGC
    TCGGAGGATC AACGCACCCC CCTGATGGAG GCAGCTGAAA ATAATCATCT CGATACTGTG
    AAATACCTGG TGAAGGGCGG AGCTCTAATT GACCCTAAGG ACTCCGAGGG CTCCACTTGT
    CTTCATCTGG CGGCCAAGAA GGGTCACTAC GAAGTGGTGA AATATCTCCT CTCCTCCGAG
    AGAACCGACG TCAACTGCCA GGACGACGGG GGCTGGACCC CGATGATCTG GGCTACCGAG
    TACAAGCACG TGGAGATAGT CAAACTGTTA CATTCCTCCC GCGCGGACGT CAATATCCGC
    GATAATGAGG AGAACATCTG CCTGCACTGG GCCGCCTTCG CCGGTTCCGT CGAGATAGCG
    GAAATCCTCC TGGCTTCCAA ATGTGACCTC CGAGCTGTGA ATATCCACGG GGACTCCCCG
    CTCCATATTG CCGCCCGCGA GAACCGCCAC GAGTGCGTCA TGCTGTTCCT GGGTCACGGC
    TCGGAAGTGG GACTGAAGAA CAAAGAGGGC GAGACGCCGC TGGAGTGCTC GGCGCCCAAC
    TCCGACGTTT GGGCGGCCCT TAGCAAGTGC CAGGCCTTGC CCGAGAAGCC CACGCTGCAG
    GAAAAGGTGG TGGACAGGGA TATATCCCGG GGGTACGAGA ATATCCCCAT CCCTTGCGTC
    AACGCCGAAG ACTCCGAGCT GTGTCCCGTC AACTACAAAT ACGTCTCTCA GAACTGCGTG
    ACCTCCCCGC TGAACATCGA CAGAAACATT ACCCATCTGC AGTACTGTGT GTGCATCGAT
    GACTGTTCCT CTAGTAACTG TATGTGTGGC CAGCTGAGTA TGAGGTGCTG GTATGACAAG
    AACGGGCGCT TGTTACCGGA GTTCAACATG TTGGAGCCCC CGCTGATCTT CGAATGCAAC
    CACGCCTGCT CCTGCTGGCG CAACTGCCGC AACCGTGTGG TTCAAAATGG CTTGAAGATT
    AGATTGCAAC TGTTCCGCAC CAAAAGCAAA GGCTGGGGGG TGCGATCCCT GCAAGACATT
    CCCCAGGGGA CCTTCGTATG CGAGTATGTG GGGGAGCTGA TTTCGGACGC AGAGGCTGAC
    GTTCGAGAGG ATGACACCTA CCTCTTTGAT CTTGATAACA AGGACCGAGA GGTTTACTGC
    ATCGACGCCC GTTTCTACGG CAACATCAGT CGCTTTATCA ACCACCTCTG CGAGCCGAAC
    CTGCTCCCCG TGCGAGTCTT TATGTCCCAC CAGGATCTGC GCTTTCCCCG CATCGGCTTC
    TTCAGCAGCC GGCACATCGG CGCGGGGGAG GAGATCGGGT TTGATTACGG CGACCGATTC
    TGGGACGTCA AGGGGAAGCT CTTCAGCTGC CAGTGCGGTT CCCCCAAGTG CAAGCACCCA
    ATCAAAGTCC TTTCCCCGAG CCAGTCATTC GCCCCCGCAG AAACTCCGTC GGAGATTGGC
    TTACCCGACA CCAGCTCAGC CACCCCCCCG AGCCCCTCGC AGCCGCAGTG A

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

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