SCN10A cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

  • Gene

  • Clones

  • gRNAs

The following SCN10A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SCN10A 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
OMc29800 XM_007500657.2
Latest version!
Monodelphis domestica sodium voltage-gated channel alpha subunit 10 (SCN10A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMc44424 XM_016424638.1
Latest version!
Monodelphis domestica sodium voltage-gated channel alpha subunit 10 (SCN10A), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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 OMc29800
    Clone ID Related Accession (Same CDS sequence) XM_007500657.2
    Accession Version XM_007500657.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4605bp)
    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 2016-04-26
    Organism Monodelphis domestica(gray short-tailed opossum)
    Product sodium channel protein type 10 subunit alpha isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008806.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007500657.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 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
    ATGTCCCTCC ACTTGCATTC GTCCTCAGAC CTTGGATTCC TAGCGGGCAG CTCCCTCCTC 
    CCCCTCCCAG GGTCTGGCCG ACTCCCGCCT TTCCTTAACA TTAACTATGG TCCCAGTGGC
    AACTCAACCA AGAGAAGGTA CAGCTATGGA AACTTTACTC TCAAGAGTCA AGACGGCCTC
    GACTCTGTCT TTACTGATGA TGAGAAGATC TCTGGCAGGG AGAATGGGAG TCGTCGAGGG
    TCTTTGCTTT TGGCACACAT GGGACAACGT ATGAGTACGC AAAACCAAAG GATCCTCTCA
    CCTCAATCTC TCACACCTGT TGCCAGGCAG GATGCCAAAG AGTCAAGCAA CCCTGGAGAA
    TGCAATGGGA AAGCTTCTTT GCCTGGTGGA GACCCCGCTT CTGGGAATGT CACATCCTCA
    GGGGCTACTG AAACATCTGG AAAAATAGAT ATGACTTCTG AGGAGACCAA GAAGAAGAAT
    GCACTGACAG CCCACACCTT GTCTGCAGAG TATTTTGATG AATCATTCCG AGTGAAAAGG
    GCAATGAGTG TAGTCAGTAT CATTACTTCT GTCCTCGAGG AACTTGAAGA GTCGGAGCAG
    AGGTGCCCTC CTTGCTGGAT CCGCTTTGCT CAGAAGTACC TGATTTGGGA ATGCTGGCCG
    CCCTGGGTGA AGTTCAAGAA TCTGGTAGAG TATATCGTGA AGGACCCTTT CACGGAGCTC
    ATCGTCACGC TGTGCATTGT GACCAACACG CTGTTCATGT CCATGGAGCA CTACAATATG
    ACCGCAGCCT TTTCCTTCAT GCTCCAAGCA GGCAATATAT TCTTCACGTT TATTTTCACG
    GCTGAGATGG TGTTCAAGAT CATTGCCTTC CATCCCTACT ATTACTTCCA GAAGAGCTGG
    AACATCTTTG ACAGTGTCAT CGTCACCTTG AGCCTGGTGG AGCTGGGTCT GCCCCAGAAA
    GCAAGCTTGT CGGTGCTCCG CTCCTTCAGA CTGCTGAGGG TCTTCAAGCT GGCCAAGTCC
    TGGCCAACCC TGAACAATCT CATTAAGATC ATCGGCAACT CTGTGGGAGC CTTGGGCAAC
    CTCACCCTGA TCTTGGCCAT CATCGTCTTC ATCTTCGCCG TGGTTGGAAA GCAGCTCTTT
    GGAGACAACT ACGATAAACT CCGCGATAAA AACACCCAGC AGCTGCCCCG CTGGCACATG
    CATGACTTCT TCCACTCTTT TCTCGTCATA TTCCGAATCC TCTGTGGGGA ATGGATCGAG
    ACCATGTGGG ACTGCATGGA AGTGTCTGGG ATCCCTCTGT GTCTCATCGT CTTCTTGATG
    GTGATGGTGC TGGGGAACCT GGTGGTCCTT AACCTGTTCA TTGCCTTGCT GCTGAATTCC
    TTCAGTGCTG ACAACCTGGC CTCGGAGGAC GATGGAGACA ACAACCTCCA GAAAGCCCTG
    GGCAGGATCC ACAAGTTCAT GCATTTCATA GCGCAGACCA TTCGGGATTT CTGGGGCAGA
    AGTTTCTGGA TTTCCAAGGC CAGAAAGGAA AAACAGAAGG CCGTGGTGAA AATGGCCTTC
    TCGGACTCAG GGGCCCTGAA CCACATGACC GCCCAGGCTC TCCCCAGCAC TGGGAGCATC
    AAAGATAAGC CAGCTCCCAA TGGGCTGGCC TTGGAGCTGG CCAGCTGCCC TGTCGATGGC
    CCTGGGAATC TTGTGACCAA TGGCGTCATG GAAATCTCAG TCCCAATGGC TGTGGCCGAA
    TCTGATCTTG AAGACGAAGA GGATGAGGAT GAGCCAAGTA TGGCATTAGA AGCAGCACCC
    CCAAAACAGG AAGTCCCCCT TCAAGAAGAA AGAAGACCAC AGGAAAATAA CCATCACCCC
    ATGTCGGAGA CCTCTTCCGA AGACTTGGCC TTGTACCTGG ATAAACAATG GAAGGATACC
    CAATCAGGTG GCAGCCCCAC CGAGAAAGGA GATGTCACAA GTTGCTCTGA AGGCAGCACA
    GTGGACATCC CTGATCCGGA GCTCATCCTA AAGCAGATGA CGGACCTCAG CGAGATCTTA
    GAGGAGCCTG AAGATTGTTT CACGGAGGGC TGCATTCGTC GCTATCCATG CTGCGATGTG
    GACACAGGAA AGTCTCCTGG ATCTCTCTGC TGGAACCTGA GAAAAACCTG TTACCATATT
    GTGGAGCACA ACTGGTTTGA GAGTTTTATC ATCTTCATGA TTCTGCTGAG CAGTGGGGCC
    CTGGCTTTCG AAGACGTTAA TCTAGAGGAG AGGGCCACAG TGAAAGCCAT CCTGGAGTTT
    GCTGACCGCG TGTTCACTTA TATCTTTATC CTTGAGATGC TGCTGAAATG GGTGGCCTAT
    GGCTTCCAGA CCTATTTCAC TAATGCCTGG TGCTGGCTGG ACTTCCTCAT CGTGGATGTT
    TCGATGATAA GCCTCATAGC AAACACACTT GGCTACTCCG AAATTGGTCC CATTAAATCC
    CTCAGGACAC TACGAGCATT GAGACCTTTG AGAGCACTGT CACGATTTGA AGGCATGAGG
    GTGGTGGTAG ATGCCCTGGT TGGTGCCATC CCTTCCATCA TGAATGTCCT TCTGGTCTGT
    CTTATCTTCT GGCTCATCTT TAGCATCATG GGAGTGAATC TCTTTTCCGG AAAATTTGGC
    AGATGCATCA ACATCACCCT AGAAAACTTT CCCCCAGTGG ATGTGTTGAT CGTCAATAAC
    AAGACCCAGT GCAATGAAGA GAACGGTGCT GGCCTCTTCT GGGACACCGT GAAGGTCAAC
    TTTAACAATG TGGGAATTGG TTACCTGGCT CTTCTGCAGG TGGCAACATT CAAAGGGTGG
    ATGGACATCA TGTATGCTGC TGTGGATTCT CGGAAGCAAG AGGAGCAGCC CGAGTGGGAG
    GCCAACTTGT ACATGTACCT GTATTTTGTC ATCTTCATCA TCTTTGGGGG CTTCTTCACC
    CTGAATCTCT TTGTCGGGGT CATCATCGAC AACTTCAATC AACAAAAGAA AAAGTTAGGT
    GGTCAAGACA TTTTTATGAC TGAAGAACAG AAGAAATATT ATAATGCTAT GAAAAAACTG
    GGCTCTAAGA AGCCTCAGAA ACCAATCCCA AGACCTCTGA ACAAATGCCA AGGCTTCGTG
    TTTGATATTG TAACCCAGCA AGCCTTCGAC ATAGCCATCA TGGTGCTCAT CTGCCTTAAC
    ATGATCACCA TGATGGTGGA GACAGACAGC CAGAGTGAGG TGAAGACCAA AATCCTCAAC
    CGGATCAACC ATTTCTTCGT GGCCGTCTTC ACCGCAGAGT GTGTCCTGAA GATGTTTGCC
    CTGAGATATT ACTATTTCAT CAACGGGTGG AACATCTTTG ATTTTATTGT TGTGATCCTC
    TCCATTGTGA GCTTGGTGTT TTCTGGCATT ATGAAGTCAC TTGAAAATTA TTTCTCCCCG
    ACGCTCTTCA GAGTTATCCG CCTGGCTCGG ATTGGCCGCA TCCTCCGACT GATCCGAGCA
    GCCAAGGGGA TTCGCACACT GCTCTTTGCC CTCATGATGT CCCTCCCTGC CCTCTTCAAC
    ATCGGCCTGC TGCTCTTCCT GGTCATGTTC ATCTACTCCA TCTTCGGCAT GGCCAACTTC
    GCCTACGTGA AGGAGGAGGC TGGGATCGAT GACATGTTCA ACTTCCGGAC ATTCCCCAAC
    AGCATGCTCT GCCTCTTCCA GATCACCACG TCCGCTGGCT GGGATGGGCT CCTCAGTCCC
    ATCCTCAACA CTGGCTACCC ATACTGTAAC CCAGATTCAA CAAACTCCAG TAAGCCCAGA
    GGAAACTGTG GAAACCCCAC CATCGGAATC GCATTCTTTG TCAGTTACAT CATCATCTCC
    TTCCTCATCG TGATCAACAT GTACATCGCC GTCATCCTGG AGAACTTCAA CGTGGCCACG
    GAGGAGAGCA CGGAGCCCCT GAGCGAGGAC GACTTCGACA TGTTCTACGA GACCTGGGAG
    AAGTTCGACC CGGAGGCCAC TCAGTTCATT TCATTTTCAG CCCTTTCAGA CTTTGCAGAT
    ACTCTGACAG GACCCCTGCG CATTCCAAAA CCTAACCAGA ATGAACTCAT CCAGATGGAC
    CTGCCTCTGG TCACAGGAGA CAAGATCCAC TGCCTGGATA TTTTATTTGC CTTTACCAAG
    AGAGTCCTGG GAGAATCTGG GGAGATGGAC ACCCTGAAGG CCCAAATGGA GGAAAAGTTC
    ATGGCCGCCA ATCCTTCTAA AGATTCCTAT GAACCAATAG CAACTACTCT GAGATCAAAA
    CAGGAAAATG TGTCTGCGTC CATCATCCAA AGGGCCTACA GAAAATATCT CTTGCAGCAT
    TCCCTACGAC AAGTCACTGT TACGTGTGCA AATGATGTTG GTGAACCCAG GTGTGAGAGG
    GCCACTGAAG ATGAAGGCTT GGCTGAATTC ATGATGAATG AAAGCATGGA GCTTCCAGAC
    AAGTCAGAAA CCGCTTCAAC CATGTCCTTC CCTCCATCTT ATGACAGTGT CACCAGAGGG
    CTCAGTGAGG AAGGCCAGCT GGATACATCC AACACTGGCC ACGTGGAGGA AGATGCTAGC
    TATGACCAGC TATCTCAGGA TTTGGACAAG GCATCATCAA TGTAG

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

    RefSeq XP_007500719.1
    CDS76..4680
    Translation

    Target ORF information:

    RefSeq Version XM_007500657.2
    Organism Monodelphis domestica(gray short-tailed opossum)
    Definition Monodelphis domestica sodium voltage-gated channel alpha subunit 10 (SCN10A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_007500657.2

    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
    ATGTCCCTCC ACTTGCATTC GTCCTCAGAC CTTGGATTCC TAGCGGGCAG CTCCCTCCTC 
    CCCCTCCCAG GGTCTGGCCG ACTCCCGCCT TTCCTTAACA TTAACTATGG TCCCAGTGGC
    AACTCAACCA AGAGAAGGTA CAGCTATGGA AACTTTACTC TCAAGAGTCA AGACGGCCTC
    GACTCTGTCT TTACTGATGA TGAGAAGATC TCTGGCAGGG AGAATGGGAG TCGTCGAGGG
    TCTTTGCTTT TGGCACACAT GGGACAACGT ATGAGTACGC AAAACCAAAG GATCCTCTCA
    CCTCAATCTC TCACACCTGT TGCCAGGCAG GATGCCAAAG AGTCAAGCAA CCCTGGAGAA
    TGCAATGGGA AAGCTTCTTT GCCTGGTGGA GACCCCGCTT CTGGGAATGT CACATCCTCA
    GGGGCTACTG AAACATCTGG AAAAATAGAT ATGACTTCTG AGGAGACCAA GAAGAAGAAT
    GCACTGACAG CCCACACCTT GTCTGCAGAG TATTTTGATG AATCATTCCG AGTGAAAAGG
    GCAATGAGTG TAGTCAGTAT CATTACTTCT GTCCTCGAGG AACTTGAAGA GTCGGAGCAG
    AGGTGCCCTC CTTGCTGGAT CCGCTTTGCT CAGAAGTACC TGATTTGGGA ATGCTGGCCG
    CCCTGGGTGA AGTTCAAGAA TCTGGTAGAG TATATCGTGA AGGACCCTTT CACGGAGCTC
    ATCGTCACGC TGTGCATTGT GACCAACACG CTGTTCATGT CCATGGAGCA CTACAATATG
    ACCGCAGCCT TTTCCTTCAT GCTCCAAGCA GGCAATATAT TCTTCACGTT TATTTTCACG
    GCTGAGATGG TGTTCAAGAT CATTGCCTTC CATCCCTACT ATTACTTCCA GAAGAGCTGG
    AACATCTTTG ACAGTGTCAT CGTCACCTTG AGCCTGGTGG AGCTGGGTCT GCCCCAGAAA
    GCAAGCTTGT CGGTGCTCCG CTCCTTCAGA CTGCTGAGGG TCTTCAAGCT GGCCAAGTCC
    TGGCCAACCC TGAACAATCT CATTAAGATC ATCGGCAACT CTGTGGGAGC CTTGGGCAAC
    CTCACCCTGA TCTTGGCCAT CATCGTCTTC ATCTTCGCCG TGGTTGGAAA GCAGCTCTTT
    GGAGACAACT ACGATAAACT CCGCGATAAA AACACCCAGC AGCTGCCCCG CTGGCACATG
    CATGACTTCT TCCACTCTTT TCTCGTCATA TTCCGAATCC TCTGTGGGGA ATGGATCGAG
    ACCATGTGGG ACTGCATGGA AGTGTCTGGG ATCCCTCTGT GTCTCATCGT CTTCTTGATG
    GTGATGGTGC TGGGGAACCT GGTGGTCCTT AACCTGTTCA TTGCCTTGCT GCTGAATTCC
    TTCAGTGCTG ACAACCTGGC CTCGGAGGAC GATGGAGACA ACAACCTCCA GAAAGCCCTG
    GGCAGGATCC ACAAGTTCAT GCATTTCATA GCGCAGACCA TTCGGGATTT CTGGGGCAGA
    AGTTTCTGGA TTTCCAAGGC CAGAAAGGAA AAACAGAAGG CCGTGGTGAA AATGGCCTTC
    TCGGACTCAG GGGCCCTGAA CCACATGACC GCCCAGGCTC TCCCCAGCAC TGGGAGCATC
    AAAGATAAGC CAGCTCCCAA TGGGCTGGCC TTGGAGCTGG CCAGCTGCCC TGTCGATGGC
    CCTGGGAATC TTGTGACCAA TGGCGTCATG GAAATCTCAG TCCCAATGGC TGTGGCCGAA
    TCTGATCTTG AAGACGAAGA GGATGAGGAT GAGCCAAGTA TGGCATTAGA AGCAGCACCC
    CCAAAACAGG AAGTCCCCCT TCAAGAAGAA AGAAGACCAC AGGAAAATAA CCATCACCCC
    ATGTCGGAGA CCTCTTCCGA AGACTTGGCC TTGTACCTGG ATAAACAATG GAAGGATACC
    CAATCAGGTG GCAGCCCCAC CGAGAAAGGA GATGTCACAA GTTGCTCTGA AGGCAGCACA
    GTGGACATCC CTGATCCGGA GCTCATCCTA AAGCAGATGA CGGACCTCAG CGAGATCTTA
    GAGGAGCCTG AAGATTGTTT CACGGAGGGC TGCATTCGTC GCTATCCATG CTGCGATGTG
    GACACAGGAA AGTCTCCTGG ATCTCTCTGC TGGAACCTGA GAAAAACCTG TTACCATATT
    GTGGAGCACA ACTGGTTTGA GAGTTTTATC ATCTTCATGA TTCTGCTGAG CAGTGGGGCC
    CTGGCTTTCG AAGACGTTAA TCTAGAGGAG AGGGCCACAG TGAAAGCCAT CCTGGAGTTT
    GCTGACCGCG TGTTCACTTA TATCTTTATC CTTGAGATGC TGCTGAAATG GGTGGCCTAT
    GGCTTCCAGA CCTATTTCAC TAATGCCTGG TGCTGGCTGG ACTTCCTCAT CGTGGATGTT
    TCGATGATAA GCCTCATAGC AAACACACTT GGCTACTCCG AAATTGGTCC CATTAAATCC
    CTCAGGACAC TACGAGCATT GAGACCTTTG AGAGCACTGT CACGATTTGA AGGCATGAGG
    GTGGTGGTAG ATGCCCTGGT TGGTGCCATC CCTTCCATCA TGAATGTCCT TCTGGTCTGT
    CTTATCTTCT GGCTCATCTT TAGCATCATG GGAGTGAATC TCTTTTCCGG AAAATTTGGC
    AGATGCATCA ACATCACCCT AGAAAACTTT CCCCCAGTGG ATGTGTTGAT CGTCAATAAC
    AAGACCCAGT GCAATGAAGA GAACGGTGCT GGCCTCTTCT GGGACACCGT GAAGGTCAAC
    TTTAACAATG TGGGAATTGG TTACCTGGCT CTTCTGCAGG TGGCAACATT CAAAGGGTGG
    ATGGACATCA TGTATGCTGC TGTGGATTCT CGGAAGCAAG AGGAGCAGCC CGAGTGGGAG
    GCCAACTTGT ACATGTACCT GTATTTTGTC ATCTTCATCA TCTTTGGGGG CTTCTTCACC
    CTGAATCTCT TTGTCGGGGT CATCATCGAC AACTTCAATC AACAAAAGAA AAAGTTAGGT
    GGTCAAGACA TTTTTATGAC TGAAGAACAG AAGAAATATT ATAATGCTAT GAAAAAACTG
    GGCTCTAAGA AGCCTCAGAA ACCAATCCCA AGACCTCTGA ACAAATGCCA AGGCTTCGTG
    TTTGATATTG TAACCCAGCA AGCCTTCGAC ATAGCCATCA TGGTGCTCAT CTGCCTTAAC
    ATGATCACCA TGATGGTGGA GACAGACAGC CAGAGTGAGG TGAAGACCAA AATCCTCAAC
    CGGATCAACC ATTTCTTCGT GGCCGTCTTC ACCGCAGAGT GTGTCCTGAA GATGTTTGCC
    CTGAGATATT ACTATTTCAT CAACGGGTGG AACATCTTTG ATTTTATTGT TGTGATCCTC
    TCCATTGTGA GCTTGGTGTT TTCTGGCATT ATGAAGTCAC TTGAAAATTA TTTCTCCCCG
    ACGCTCTTCA GAGTTATCCG CCTGGCTCGG ATTGGCCGCA TCCTCCGACT GATCCGAGCA
    GCCAAGGGGA TTCGCACACT GCTCTTTGCC CTCATGATGT CCCTCCCTGC CCTCTTCAAC
    ATCGGCCTGC TGCTCTTCCT GGTCATGTTC ATCTACTCCA TCTTCGGCAT GGCCAACTTC
    GCCTACGTGA AGGAGGAGGC TGGGATCGAT GACATGTTCA ACTTCCGGAC ATTCCCCAAC
    AGCATGCTCT GCCTCTTCCA GATCACCACG TCCGCTGGCT GGGATGGGCT CCTCAGTCCC
    ATCCTCAACA CTGGCTACCC ATACTGTAAC CCAGATTCAA CAAACTCCAG TAAGCCCAGA
    GGAAACTGTG GAAACCCCAC CATCGGAATC GCATTCTTTG TCAGTTACAT CATCATCTCC
    TTCCTCATCG TGATCAACAT GTACATCGCC GTCATCCTGG AGAACTTCAA CGTGGCCACG
    GAGGAGAGCA CGGAGCCCCT GAGCGAGGAC GACTTCGACA TGTTCTACGA GACCTGGGAG
    AAGTTCGACC CGGAGGCCAC TCAGTTCATT TCATTTTCAG CCCTTTCAGA CTTTGCAGAT
    ACTCTGACAG GACCCCTGCG CATTCCAAAA CCTAACCAGA ATGAACTCAT CCAGATGGAC
    CTGCCTCTGG TCACAGGAGA CAAGATCCAC TGCCTGGATA TTTTATTTGC CTTTACCAAG
    AGAGTCCTGG GAGAATCTGG GGAGATGGAC ACCCTGAAGG CCCAAATGGA GGAAAAGTTC
    ATGGCCGCCA ATCCTTCTAA AGATTCCTAT GAACCAATAG CAACTACTCT GAGATCAAAA
    CAGGAAAATG TGTCTGCGTC CATCATCCAA AGGGCCTACA GAAAATATCT CTTGCAGCAT
    TCCCTACGAC AAGTCACTGT TACGTGTGCA AATGATGTTG GTGAACCCAG GTGTGAGAGG
    GCCACTGAAG ATGAAGGCTT GGCTGAATTC ATGATGAATG AAAGCATGGA GCTTCCAGAC
    AAGTCAGAAA CCGCTTCAAC CATGTCCTTC CCTCCATCTT ATGACAGTGT CACCAGAGGG
    CTCAGTGAGG AAGGCCAGCT GGATACATCC AACACTGGCC ACGTGGAGGA AGATGCTAGC
    TATGACCAGC TATCTCAGGA TTTGGACAAG GCATCATCAA TGTAG

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

    CloneID OMc44424
    Clone ID Related Accession (Same CDS sequence) XM_016424638.1
    Accession Version XM_016424638.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5631bp)
    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 2016-04-26
    Organism Monodelphis domestica(gray short-tailed opossum)
    Product sodium channel protein type 10 subunit alpha isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008806.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 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
    ATGGAAAACT TAAATGGCAC CTTGGACACA AATCACTTCC GCCCATTTAC TCCTGAATCT 
    CTGGCCGCCA TTGAAAAGCG GATTACAGAG GAGAAGTATC TGAAGAAGAA GAAGGAGAAA
    GAGGAGGAGA GGAAAGAGCC AGGGGCCGAA AATGAGAACC TCAGACCCCA GCTGGACCTA
    AAGGCCTGCA ACCAGCTACC CAAGTTCTAT GGAGAACTTC CACCAGAGCT GGTGGGTGAG
    CCACTGGAGG ACCTGGACCC TTTTTACAAG AACCACAGGA CATTCATTGT CCTGAACAAA
    GGGCGAACGA TCTTCCGATT CAGCGCGACC CAGGCTTTGG GGCTCCTCAG TCCTTTCCAT
    CCCATCAGAA GGGTCGCCAT CAAACTATCA GTCCATTCCC TGTTCAGTCT CTTCATCATG
    GTGACTATCC TGGTTAACTG CGTATTCATG ACCCATAGGG AAACGCCACC TGTAGTCGAG
    TATGTCTTTA CAGGTATTTA CACATTTGAA TCCTTATTAA AAATATTGGC CCGTGGATTT
    TGTCTGAATG AATTCACCTA TCTTAGAGAT CCATGGAACT GGCTGGATTT TGGTGTGATT
    TTCCTGGCGT ACTTTGCTGA AATTACAGAA TTCCGTGGGG CTTCAGCTCT AAGAACTTTC
    CGAGTGTTCC GGGCTCTGAA AACAGTTTCA GTGATCCCAG GTTTAAAGGT CATCGTGGGC
    GCCCTGATCC ATTCTGTGAA GAAGCTGGCC GACGTGATGG TGCTGACAGT CTTCTGCCTG
    AGTGTTTTTG CCCTGGTGGC CTTGCAGCTC TTTAAGGGGA ATCTGCGGCA CAAATGTGTT
    AAGAATTGCA CCCTCTTGAA CCTGTCCAGT GATGCCTATG GTGAAAACAA GACATGGGAT
    TTCTGCAGGA CAGACACAGA TTACTACGCA CACAAGAATG GCACAAATGA GATCCTACTT
    TGCGGCAACA GTTCTGAAGC AGGGACCTGT CCCAATGGCT ATTTCTGCAT AAAGACAGGA
    AACAATCCAG ATTATAACTA CACCAGTTAT GACTCCTTTG GCTGGGCCTT CCTGGCTCTG
    TTCCGTCTGA TGACTCAAGA TTACTGGGAA CGGCTCTACC AGCAGACCTT GAGAGCTTCT
    GGGAAAATCT ACATGCTCTT TTTCGTGCTA GTCATTTTCC TGGGATCCTT CTATCTGGTC
    AATTTGATCC TGGCAGTCGT GACTATGGCT TATGAAGAGC AGAATGAAGC AACGATGGCT
    GAAATAGAAG CTAAGGAGAA GATGTTTCAG GAGACCCTCG AAAGGCTGAG GAAAGAGCAG
    GAGGTCCTGG CTGCCATGGG GATTGACACA AGCTCACATC TTTCCTTTGA AATGTCACCT
    CTAGCCTCCA AAAATGCCAA AGAAAGAAGA AACAGGGCGA ATCAAATGAA ATCTGATGAT
    TCCCAAGAAG ATGGCAGCTC CCATCACCAG AGGAAGATGA CTTCTGAGGA GACCAAGAAG
    AAGAATGCAC TGACAGCCCA CACCTTGTCT GCAGAGTATT TTGATGAATC ATTCCGAGTG
    AAAAGGGCAA TGAGTGTAGT CAGTATCATT ACTTCTGTCC TCGAGGAACT TGAAGAGTCG
    GAGCAGAGGT GCCCTCCTTG CTGGATCCGC TTTGCTCAGA AGTACCTGAT TTGGGAATGC
    TGGCCGCCCT GGGTGAAGTT CAAGAATCTG GTAGAGTATA TCGTGAAGGA CCCTTTCACG
    GAGCTCATCG TCACGCTGTG CATTGTGACC AACACGCTGT TCATGTCCAT GGAGCACTAC
    AATATGACCG CAGCCTTTTC CTTCATGCTC CAAGCAGGCA ATATATTCTT CACGTTTATT
    TTCACGGCTG AGATGGTGTT CAAGATCATT GCCTTCCATC CCTACTATTA CTTCCAGAAG
    AGCTGGAACA TCTTTGACAG TGTCATCGTC ACCTTGAGCC TGGTGGAGCT GGGTCTGCCC
    CAGAAAGCAA GCTTGTCGGT GCTCCGCTCC TTCAGACTGC TGAGGGTCTT CAAGCTGGCC
    AAGTCCTGGC CAACCCTGAA CAATCTCATT AAGATCATCG GCAACTCTGT GGGAGCCTTG
    GGCAACCTCA CCCTGATCTT GGCCATCATC GTCTTCATCT TCGCCGTGGT TGGAAAGCAG
    CTCTTTGGAG ACAACTACGA TAAACTCCGC GATAAAAACA CCCAGCAGCT GCCCCGCTGG
    CACATGCATG ACTTCTTCCA CTCTTTTCTC GTCATATTCC GAATCCTCTG TGGGGAATGG
    ATCGAGACCA TGTGGGACTG CATGGAAGTG TCTGGGATCC CTCTGTGTCT CATCGTCTTC
    TTGATGGTGA TGGTGCTGGG GAACCTGGTG GTCCTTAACC TGTTCATTGC CTTGCTGCTG
    AATTCCTTCA GTGCTGACAA CCTGGCCTCG GAGGACGATG GAGACAACAA CCTCCAGAAA
    GCCCTGGGCA GGATCCACAA GTTCATGCAT TTCATAGCGC AGACCATTCG GGATTTCTGG
    GGCAGAAGTT TCTGGATTTC CAAGGCCAGA AAGGAAAAAC AGAAGGCCGT GGTGAAAATG
    GCCTTCTCGG ACTCAGGGGC CCTGAACCAC ATGACCGCCC AGGCTCTCCC CAGCACTGGG
    AGCATCAAAG ATAAGCCAGC TCCCAATGGG CTGGCCTTGG AGCTGGCCAG CTGCCCTGTC
    GATGGCCCTG GGAATCTTGT GACCAATGGC GTCATGGAAA TCTCAGTCCC AATGGCTGTG
    GCCGAATCTG ATCTTGAAGA CGAAGAGGAT GAGGATGAGC CAAGTATGGC ATTAGAAGCA
    GCACCCCCAA AACAGGAAGT CCCCCTTCAA GAAGAAAGAA GACCACAGGA AAATAACCAT
    CACCCCATGT CGGAGACCTC TTCCGAAGAC TTGGCCTTGT ACCTGGATAA ACAATGGAAG
    GATACCCAAT CAGGTGGCAG CCCCACCGAG AAAGGAGATG TCACAAGTTG CTCTGAAGGC
    AGCACAGTGG ACATCCCTGA TCCGGAGCTC ATCCTAAAGC AGATGACGGA CCTCAGCGAG
    ATCTTAGAGG AGCCTGAAGA TTGTTTCACG GAGGGCTGCA TTCGTCGCTA TCCATGCTGC
    GATGTGGACA CAGGAAAGTC TCCTGGATCT CTCTGCTGGA ACCTGAGAAA AACCTGTTAC
    CATATTGTGG AGCACAACTG GTTTGAGAGT TTTATCATCT TCATGATTCT GCTGAGCAGT
    GGGGCCCTGG CTTTCGAAGA CGTTAATCTA GAGGAGAGGG CCACAGTGAA AGCCATCCTG
    GAGTTTGCTG ACCGCGTGTT CACTTATATC TTTATCCTTG AGATGCTGCT GAAATGGGTG
    GCCTATGGCT TCCAGACCTA TTTCACTAAT GCCTGGTGCT GGCTGGACTT CCTCATCGTG
    GATGTTTCGA TGATAAGCCT CATAGCAAAC ACACTTGGCT ACTCCGAAAT TGGTCCCATT
    AAATCCCTCA GGACACTACG AGCATTGAGA CCTTTGAGAG CACTGTCACG ATTTGAAGGC
    ATGAGGGTGG TGGTAGATGC CCTGGTTGGT GCCATCCCTT CCATCATGAA TGTCCTTCTG
    GTCTGTCTTA TCTTCTGGCT CATCTTTAGC ATCATGGGAG TGAATCTCTT TTCCGGAAAA
    TTTGGCAGAT GCATCAACAT CACCCTAGAA AACTTTCCCC CAGTGGATGT GTTGATCGTC
    AATAACAAGA CCCAGTGCAA TGAAGAGAAC GGTGCTGGCC TCTTCTGGGA CACCGTGAAG
    GTCAACTTTA ACAATGTGGG AATTGGTTAC CTGGCTCTTC TGCAGGTGGC AACATTCAAA
    GGGTGGATGG ACATCATGTA TGCTGCTGTG GATTCTCGGA AGCAAGAGGA GCAGCCCGAG
    TGGGAGGCCA ACTTGTACAT GTACCTGTAT TTTGTCATCT TCATCATCTT TGGGGGCTTC
    TTCACCCTGA ATCTCTTTGT CGGGGTCATC ATCGACAACT TCAATCAACA AAAGAAAAAG
    ATAAGTGGTC AAGACATTTT TATGACTGAA GAACAGAAGA AATATTATAA TGCTATGAAA
    AAACTGGGCT CTAAGAAGCC TCAGAAACCA ATCCCAAGAC CTCTGAACAA ATGCCAAGGC
    TTCGTGTTTG ATATTGTAAC CCAGCAAGCC TTCGACATAG CCATCATGGT GCTCATCTGC
    CTTAACATGA TCACCATGAT GGTGGAGACA GACAGCCAGA GTGAGGTGAA GACCAAAATC
    CTCAACCGGA TCAACCATTT CTTCGTGGCC GTCTTCACCG CAGAGTGTGT CCTGAAGATG
    TTTGCCCTGA GATATTACTA TTTCATCAAC GGGTGGAACA TCTTTGATTT TATTGTTGTG
    ATCCTCTCCA TTGTGAGCTT GGTGTTTTCT GGCATTATGA AGTCACTTGA AAATTATTTC
    TCCCCGACGC TCTTCAGAGT TATCCGCCTG GCTCGGATTG GCCGCATCCT CCGACTGATC
    CGAGCAGCCA AGGGGATTCG CACACTGCTC TTTGCCCTCA TGATGTCCCT CCCTGCCCTC
    TTCAACATCG GCCTGCTGCT CTTCCTGGTC ATGTTCATCT ACTCCATCTT CGGCATGGCC
    AACTTCGCCT ACGTGAAGGA GGAGGCTGGG ATCGATGACA TGTTCAACTT CCGGACATTC
    CCCAACAGCA TGCTCTGCCT CTTCCAGATC ACCACGTCCG CTGGCTGGGA TGGGCTCCTC
    AGTCCCATCC TCAACACTGG CTACCCATAC TGTAACCCAG ATTCAACAAA CTCCAGTAAG
    CCCAGAGGAA ACTGTGGAAA CCCCACCATC GGAATCGCAT TCTTTGTCAG TTACATCATC
    ATCTCCTTCC TCATCGTGAT CAACATGTAC ATCGCCGTCA TCCTGGAGAA CTTCAACGTG
    GCCACGGAGG AGAGCACGGA GCCCCTGAGC GAGGACGACT TCGACATGTT CTACGAGACC
    TGGGAGAAGT TCGACCCGGA GGCCACTCAG TTCATTTCAT TTTCAGCCCT TTCAGACTTT
    GCAGATACTC TGACAGGACC CCTGCGCATT CCAAAACCTA ACCAGAATGA ACTCATCCAG
    ATGGACCTGC CTCTGGTCAC AGGAGACAAG ATCCACTGCC TGGATATTTT ATTTGCCTTT
    ACCAAGAGAG TCCTGGGAGA ATCTGGGGAG ATGGACACCC TGAAGGCCCA AATGGAGGAA
    AAGTTCATGG CCGCCAATCC TTCTAAAGAT TCCTATGAAC CAATAGCAAC TACTCTGAGA
    TCAAAACAGG AAAATGTGTC TGCGTCCATC ATCCAAAGGG CCTACAGAAA ATATCTCTTG
    CAGCATTCCC TACGACAAGT CACTGTTACG TGTGCAAATG ATGTTGGTGA ACCCAGGTGT
    GAGAGGGCCA CTGAAGATGA AGGCTTGGCT GAATTCATGA TGAATGAAAG CATGGAGCTT
    CCAGACAAGT CAGAAACCGC TTCAACCATG TCCTTCCCTC CATCTTATGA CAGTGTCACC
    AGAGGGCTCA GTGAGGAAGG CCAGCTGGAT ACATCCAACA CTGGCCACGT GGAGGAAGAT
    GCTAGCTATG ACCAGCTATC TCAGGATTTG GACAAGGCAT CATCAATGTA G

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

    RefSeq XP_016280124.1
    CDS174..5804
    Translation

    Target ORF information:

    RefSeq Version XM_016424638.1
    Organism Monodelphis domestica(gray short-tailed opossum)
    Definition Monodelphis domestica sodium voltage-gated channel alpha subunit 10 (SCN10A), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016424638.1

    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
    ATGGAAAACT TAAATGGCAC CTTGGACACA AATCACTTCC GCCCATTTAC TCCTGAATCT 
    CTGGCCGCCA TTGAAAAGCG GATTACAGAG GAGAAGTATC TGAAGAAGAA GAAGGAGAAA
    GAGGAGGAGA GGAAAGAGCC AGGGGCCGAA AATGAGAACC TCAGACCCCA GCTGGACCTA
    AAGGCCTGCA ACCAGCTACC CAAGTTCTAT GGAGAACTTC CACCAGAGCT GGTGGGTGAG
    CCACTGGAGG ACCTGGACCC TTTTTACAAG AACCACAGGA CATTCATTGT CCTGAACAAA
    GGGCGAACGA TCTTCCGATT CAGCGCGACC CAGGCTTTGG GGCTCCTCAG TCCTTTCCAT
    CCCATCAGAA GGGTCGCCAT CAAACTATCA GTCCATTCCC TGTTCAGTCT CTTCATCATG
    GTGACTATCC TGGTTAACTG CGTATTCATG ACCCATAGGG AAACGCCACC TGTAGTCGAG
    TATGTCTTTA CAGGTATTTA CACATTTGAA TCCTTATTAA AAATATTGGC CCGTGGATTT
    TGTCTGAATG AATTCACCTA TCTTAGAGAT CCATGGAACT GGCTGGATTT TGGTGTGATT
    TTCCTGGCGT ACTTTGCTGA AATTACAGAA TTCCGTGGGG CTTCAGCTCT AAGAACTTTC
    CGAGTGTTCC GGGCTCTGAA AACAGTTTCA GTGATCCCAG GTTTAAAGGT CATCGTGGGC
    GCCCTGATCC ATTCTGTGAA GAAGCTGGCC GACGTGATGG TGCTGACAGT CTTCTGCCTG
    AGTGTTTTTG CCCTGGTGGC CTTGCAGCTC TTTAAGGGGA ATCTGCGGCA CAAATGTGTT
    AAGAATTGCA CCCTCTTGAA CCTGTCCAGT GATGCCTATG GTGAAAACAA GACATGGGAT
    TTCTGCAGGA CAGACACAGA TTACTACGCA CACAAGAATG GCACAAATGA GATCCTACTT
    TGCGGCAACA GTTCTGAAGC AGGGACCTGT CCCAATGGCT ATTTCTGCAT AAAGACAGGA
    AACAATCCAG ATTATAACTA CACCAGTTAT GACTCCTTTG GCTGGGCCTT CCTGGCTCTG
    TTCCGTCTGA TGACTCAAGA TTACTGGGAA CGGCTCTACC AGCAGACCTT GAGAGCTTCT
    GGGAAAATCT ACATGCTCTT TTTCGTGCTA GTCATTTTCC TGGGATCCTT CTATCTGGTC
    AATTTGATCC TGGCAGTCGT GACTATGGCT TATGAAGAGC AGAATGAAGC AACGATGGCT
    GAAATAGAAG CTAAGGAGAA GATGTTTCAG GAGACCCTCG AAAGGCTGAG GAAAGAGCAG
    GAGGTCCTGG CTGCCATGGG GATTGACACA AGCTCACATC TTTCCTTTGA AATGTCACCT
    CTAGCCTCCA AAAATGCCAA AGAAAGAAGA AACAGGGCGA ATCAAATGAA ATCTGATGAT
    TCCCAAGAAG ATGGCAGCTC CCATCACCAG AGGAAGATGA CTTCTGAGGA GACCAAGAAG
    AAGAATGCAC TGACAGCCCA CACCTTGTCT GCAGAGTATT TTGATGAATC ATTCCGAGTG
    AAAAGGGCAA TGAGTGTAGT CAGTATCATT ACTTCTGTCC TCGAGGAACT TGAAGAGTCG
    GAGCAGAGGT GCCCTCCTTG CTGGATCCGC TTTGCTCAGA AGTACCTGAT TTGGGAATGC
    TGGCCGCCCT GGGTGAAGTT CAAGAATCTG GTAGAGTATA TCGTGAAGGA CCCTTTCACG
    GAGCTCATCG TCACGCTGTG CATTGTGACC AACACGCTGT TCATGTCCAT GGAGCACTAC
    AATATGACCG CAGCCTTTTC CTTCATGCTC CAAGCAGGCA ATATATTCTT CACGTTTATT
    TTCACGGCTG AGATGGTGTT CAAGATCATT GCCTTCCATC CCTACTATTA CTTCCAGAAG
    AGCTGGAACA TCTTTGACAG TGTCATCGTC ACCTTGAGCC TGGTGGAGCT GGGTCTGCCC
    CAGAAAGCAA GCTTGTCGGT GCTCCGCTCC TTCAGACTGC TGAGGGTCTT CAAGCTGGCC
    AAGTCCTGGC CAACCCTGAA CAATCTCATT AAGATCATCG GCAACTCTGT GGGAGCCTTG
    GGCAACCTCA CCCTGATCTT GGCCATCATC GTCTTCATCT TCGCCGTGGT TGGAAAGCAG
    CTCTTTGGAG ACAACTACGA TAAACTCCGC GATAAAAACA CCCAGCAGCT GCCCCGCTGG
    CACATGCATG ACTTCTTCCA CTCTTTTCTC GTCATATTCC GAATCCTCTG TGGGGAATGG
    ATCGAGACCA TGTGGGACTG CATGGAAGTG TCTGGGATCC CTCTGTGTCT CATCGTCTTC
    TTGATGGTGA TGGTGCTGGG GAACCTGGTG GTCCTTAACC TGTTCATTGC CTTGCTGCTG
    AATTCCTTCA GTGCTGACAA CCTGGCCTCG GAGGACGATG GAGACAACAA CCTCCAGAAA
    GCCCTGGGCA GGATCCACAA GTTCATGCAT TTCATAGCGC AGACCATTCG GGATTTCTGG
    GGCAGAAGTT TCTGGATTTC CAAGGCCAGA AAGGAAAAAC AGAAGGCCGT GGTGAAAATG
    GCCTTCTCGG ACTCAGGGGC CCTGAACCAC ATGACCGCCC AGGCTCTCCC CAGCACTGGG
    AGCATCAAAG ATAAGCCAGC TCCCAATGGG CTGGCCTTGG AGCTGGCCAG CTGCCCTGTC
    GATGGCCCTG GGAATCTTGT GACCAATGGC GTCATGGAAA TCTCAGTCCC AATGGCTGTG
    GCCGAATCTG ATCTTGAAGA CGAAGAGGAT GAGGATGAGC CAAGTATGGC ATTAGAAGCA
    GCACCCCCAA AACAGGAAGT CCCCCTTCAA GAAGAAAGAA GACCACAGGA AAATAACCAT
    CACCCCATGT CGGAGACCTC TTCCGAAGAC TTGGCCTTGT ACCTGGATAA ACAATGGAAG
    GATACCCAAT CAGGTGGCAG CCCCACCGAG AAAGGAGATG TCACAAGTTG CTCTGAAGGC
    AGCACAGTGG ACATCCCTGA TCCGGAGCTC ATCCTAAAGC AGATGACGGA CCTCAGCGAG
    ATCTTAGAGG AGCCTGAAGA TTGTTTCACG GAGGGCTGCA TTCGTCGCTA TCCATGCTGC
    GATGTGGACA CAGGAAAGTC TCCTGGATCT CTCTGCTGGA ACCTGAGAAA AACCTGTTAC
    CATATTGTGG AGCACAACTG GTTTGAGAGT TTTATCATCT TCATGATTCT GCTGAGCAGT
    GGGGCCCTGG CTTTCGAAGA CGTTAATCTA GAGGAGAGGG CCACAGTGAA AGCCATCCTG
    GAGTTTGCTG ACCGCGTGTT CACTTATATC TTTATCCTTG AGATGCTGCT GAAATGGGTG
    GCCTATGGCT TCCAGACCTA TTTCACTAAT GCCTGGTGCT GGCTGGACTT CCTCATCGTG
    GATGTTTCGA TGATAAGCCT CATAGCAAAC ACACTTGGCT ACTCCGAAAT TGGTCCCATT
    AAATCCCTCA GGACACTACG AGCATTGAGA CCTTTGAGAG CACTGTCACG ATTTGAAGGC
    ATGAGGGTGG TGGTAGATGC CCTGGTTGGT GCCATCCCTT CCATCATGAA TGTCCTTCTG
    GTCTGTCTTA TCTTCTGGCT CATCTTTAGC ATCATGGGAG TGAATCTCTT TTCCGGAAAA
    TTTGGCAGAT GCATCAACAT CACCCTAGAA AACTTTCCCC CAGTGGATGT GTTGATCGTC
    AATAACAAGA CCCAGTGCAA TGAAGAGAAC GGTGCTGGCC TCTTCTGGGA CACCGTGAAG
    GTCAACTTTA ACAATGTGGG AATTGGTTAC CTGGCTCTTC TGCAGGTGGC AACATTCAAA
    GGGTGGATGG ACATCATGTA TGCTGCTGTG GATTCTCGGA AGCAAGAGGA GCAGCCCGAG
    TGGGAGGCCA ACTTGTACAT GTACCTGTAT TTTGTCATCT TCATCATCTT TGGGGGCTTC
    TTCACCCTGA ATCTCTTTGT CGGGGTCATC ATCGACAACT TCAATCAACA AAAGAAAAAG
    ATAAGTGGTC AAGACATTTT TATGACTGAA GAACAGAAGA AATATTATAA TGCTATGAAA
    AAACTGGGCT CTAAGAAGCC TCAGAAACCA ATCCCAAGAC CTCTGAACAA ATGCCAAGGC
    TTCGTGTTTG ATATTGTAAC CCAGCAAGCC TTCGACATAG CCATCATGGT GCTCATCTGC
    CTTAACATGA TCACCATGAT GGTGGAGACA GACAGCCAGA GTGAGGTGAA GACCAAAATC
    CTCAACCGGA TCAACCATTT CTTCGTGGCC GTCTTCACCG CAGAGTGTGT CCTGAAGATG
    TTTGCCCTGA GATATTACTA TTTCATCAAC GGGTGGAACA TCTTTGATTT TATTGTTGTG
    ATCCTCTCCA TTGTGAGCTT GGTGTTTTCT GGCATTATGA AGTCACTTGA AAATTATTTC
    TCCCCGACGC TCTTCAGAGT TATCCGCCTG GCTCGGATTG GCCGCATCCT CCGACTGATC
    CGAGCAGCCA AGGGGATTCG CACACTGCTC TTTGCCCTCA TGATGTCCCT CCCTGCCCTC
    TTCAACATCG GCCTGCTGCT CTTCCTGGTC ATGTTCATCT ACTCCATCTT CGGCATGGCC
    AACTTCGCCT ACGTGAAGGA GGAGGCTGGG ATCGATGACA TGTTCAACTT CCGGACATTC
    CCCAACAGCA TGCTCTGCCT CTTCCAGATC ACCACGTCCG CTGGCTGGGA TGGGCTCCTC
    AGTCCCATCC TCAACACTGG CTACCCATAC TGTAACCCAG ATTCAACAAA CTCCAGTAAG
    CCCAGAGGAA ACTGTGGAAA CCCCACCATC GGAATCGCAT TCTTTGTCAG TTACATCATC
    ATCTCCTTCC TCATCGTGAT CAACATGTAC ATCGCCGTCA TCCTGGAGAA CTTCAACGTG
    GCCACGGAGG AGAGCACGGA GCCCCTGAGC GAGGACGACT TCGACATGTT CTACGAGACC
    TGGGAGAAGT TCGACCCGGA GGCCACTCAG TTCATTTCAT TTTCAGCCCT TTCAGACTTT
    GCAGATACTC TGACAGGACC CCTGCGCATT CCAAAACCTA ACCAGAATGA ACTCATCCAG
    ATGGACCTGC CTCTGGTCAC AGGAGACAAG ATCCACTGCC TGGATATTTT ATTTGCCTTT
    ACCAAGAGAG TCCTGGGAGA ATCTGGGGAG ATGGACACCC TGAAGGCCCA AATGGAGGAA
    AAGTTCATGG CCGCCAATCC TTCTAAAGAT TCCTATGAAC CAATAGCAAC TACTCTGAGA
    TCAAAACAGG AAAATGTGTC TGCGTCCATC ATCCAAAGGG CCTACAGAAA ATATCTCTTG
    CAGCATTCCC TACGACAAGT CACTGTTACG TGTGCAAATG ATGTTGGTGA ACCCAGGTGT
    GAGAGGGCCA CTGAAGATGA AGGCTTGGCT GAATTCATGA TGAATGAAAG CATGGAGCTT
    CCAGACAAGT CAGAAACCGC TTCAACCATG TCCTTCCCTC CATCTTATGA CAGTGTCACC
    AGAGGGCTCA GTGAGGAAGG CCAGCTGGAT ACATCCAACA CTGGCCACGT GGAGGAAGAT
    GCTAGCTATG ACCAGCTATC TCAGGATTTG GACAAGGCAT CATCAATGTA G

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

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