abca10 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following abca10 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the abca10 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
OXa50760 XM_031894651.1
Latest version!
Xenopus tropicalis ATP binding cassette subfamily A member 10 (abca10), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa33426 XM_012967286.2
Latest version!
Xenopus tropicalis ATP binding cassette subfamily A member 10 (abca10), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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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 OXa50760
    Clone ID Related Accession (Same CDS sequence) XM_031894651.1
    Accession Version XM_031894651.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4833bp)
    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 ATP-binding cassette sub-family A member 8-B
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.2) annotated using gene prediction method: Gnomon, supported by 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGTAGAAC TGAAGCTGAG TGAGACAAGC CTATTCCAGC AGACAGTGGC ATTGTTCTGG 
    AAGAACCTGC TTCTAAAATG GAGGAGGAAG TGGCACAGCA CCTTGGAATG GCTGCAGAAC
    TTGGCCTTTG TGTTCCTGAT GTTTCTAACA GTTGCTATAG AGTTATATGG ACCCACATCT
    GATATTGATC TATCCCCTGC TTGGGTTCTT GGCCGTTTGG ATGCGTTTAA CAATTTGTCT
    GTTGGATATG TACACACTAC TTCTACATCC AGGGATATCA TGGAGAAGGT GGCCAAAGGC
    ATCATTGTAC CTGATATAAA GGTCCAAGAA TTTGCAGATG AGGAGGAGCT AATAGAGGCT
    GTAAGTAATA TGTCAATGGT TGCAGTCACC TTTGTGGATG AATTCAGTTA CCATATCCGA
    TACCAACTGC CCAAAAGGAA ACATCCAAAT GATTACTTTG CTTATATGGG TAATTGTGGA
    GATGACCTGT CATACTGCAA TCCTACATAT TACTGGTCAG AGGGCTTCCT TTCGCTGCAA
    GCAAGTATTG ACTCTGCTAT TATTGATCTT ACCAGCAATC ATTCTGTATG GAACAATATG
    GCATCCATTG TGGCAATTAA GATGAAATCT GCTGAACGAT CATATAAAGT ACTGGCACAT
    GTTGCATCAT TTATATTTGT TATGCCCATG TGCTATGTCT CTCTGATGTA CCTATTATCC
    CAGTATGTGA CAAGAGAGAG GTATGAAATG AAGGAGACAC TAAGGCTGAT GAGGCTGCAA
    GACTTAGCAT TTTGGTTATC CTGGGGATTG CTTTATTCCT GTTATGTATT TATAGTGGCC
    AACCTGATGA CTCTGGTGAC AAAGCCTTTT GTATTTATAA CAAGTTCCTA TGGCATCATC
    ATGTTTATGT TCTTCCTTTA TGGGGTCGCT CTGATGTCAT TCACCTTCAT GCTGAGCGCC
    CTATTTAGGA ATCCCAGAGC AACCGCCATT GCTGGGTTTT TCATCACACT CTTACTCTCT
    GCATTGGGTC TCATACTCCT ATCCAAGCAT GTTCCTAAAT CAGTTGAAGT CCTATTGAGC
    ATCTTCCCAC AGTTTGCCTT CGCAGTTGGA ATAACGCAGA GTGTTCATAT GGAGAATGAT
    CAAGAAGGCG TCTATTTCTC AGACCTGACG GGGGGTTCCT CTCACATGTT ATCCTGCTTT
    ATCAGTCTTG TTCTTGATTC TGTATTTTAC ATGGGCCTGA CATTGTATTT TGAGAAAGTC
    CTGGCAGATA AACATGGAGT AAAGCACGAG CCCTTGTTTT TCCTGAAAGC TTCTTATTGG
    TCCAAAGAGA AACCGTCTCC ACTAATGGCA CAAACTGACG ATAGCGGTGA ATCTTCCTTG
    GGACACTTTG TTGAAAAGGT CCCTGCTGAT TTACATGGAA AAGAGGCCAT CAGAATTCAT
    GGAGTTAAGA AAACCTACTA TGACAAAGAC AAGAACACGG AGGCTTTGAG AGATCTAGAT
    CTAAATATCT ATGAGGGGCA GATTACAGCC CTGCTTGGTC ATAGCGGAGC TGGCAAAACA
    ACTTTACTGA ATATTCTTAG TGGAATGTGC CCTACTTCTG GTGGATCTGC AACTGTCTGC
    AACTATAAAC TCTCTAACAT GAGGCATTTG GGAGAGATAA AGAAAAGGGT TGGATTCTGC
    CCACAGGGTG ACATAAAGTT TGATCCCCTA ACTGTGAAGG AAAATTTAAC AGTCTTTGCA
    ATGATCAAAG GGATCCCATC AAAAGAAGTA GCACATAAGG TTCAAACCGT TCTGTCGGAC
    CTGCAGATGA ATGACATTGA AAACATAGAA GCTAGTAAAT TAAGTGGTGG ACAAAAAAGA
    AAACTAACTT TTGGAATTGC TATTTTAGGA GATCCACAGG TCCTACTTCT TGATGAACCG
    ACTGCTGGCT TGGATCCCTG TTCCCGGCAC AATATATGGA CCATTCTGAA AGAAAGCAAA
    GCAGATCGAG TCACACTCCT CAGCACTCAG TTCATGGATG AGGCAGACAT ACTTGCTGAT
    CGAAAGGTTG TGATCTCTAA AGGAAAGTTA AAATGTGTAG GAACCTCCTT GTTTCTCAAG
    AGAAAATGGG GCGTCGGATA TCATTTAAGG ATGCAAGTGT CTCCATCATG TGATGTAGAA
    CTCATGACAT CGATCATTAA GCAGCACATA CCCAGTACTA AGCTCACAAC ACAAAATGAA
    GAGGAGCTTA CATACACCTT GCCCTTTGAA AATATGGATG TTTTCCCAGA TTTGTTTTTA
    CATTTGGATG GCCAAGTAGG TAACAGCATA GTCAACTATG GAGTCTCCAT GACAACACTG
    GATGATGTAT TCCTAAAACT AGAAGGGGAA GGAGAAATAG AAAGTGGAGA TTATGATGTT
    TTCAATCCTG AGTCTAGGAC AAATGAAGAT AGAGAGGATT TTTCAACTGA AATGGAAGAG
    TCACTTTTAC AAATGTCGGA CTCTGGAAAT GTGACACTAA GTGGCTGGGA ACTGTGGAGA
    CAGCAGGTGT TGGCTGTTGC AAGGATTCGC TTGCTGAAGT TAAGACATGA CACTAAAAGC
    TTCAGATCTA TATTGTTACT TCTTGTTGTT ATTACTTTAC CTCCGATTAT AATCATCATA
    ACATCTAACA TTGTCAATAC ATTTGATGCT TGGGAACTCA CTCCGCACCT CTACTTCCAA
    AGTCCTAGAA ATCGACTAAA CAAATACTAC ACAGATCTGC TAATTTGCAA CAACACTGGT
    TCATCTATTG AAGACTTTGT TGGTGCAGTG AAGGAGCAGA ATATCGAAGT GCAAGTGGTC
    AATGGCGAAT ATGACACGGA AACTGTAAAG TACAGAGGAG CAATTGAAGT TTCTCAAATG
    GAAAAGGGCT ACAATTTTAC CATTGTGGCA AACCCCAAGG CATTTAACTC ACTACCAGTG
    CTGCTAAACA TCATCAGCAA CGCTCTTTTG AAGATCCTCA AGGTCTCAGG ACACTTCCGT
    GTGTGGAACC ACCCAATAAC TACGGATGGC ACGGATATCA TTTTTTTACC ATATATGTCG
    CTGATATTTT TTATCATTTT TGCATCGGCT TTTTGCCCTC ACATTGCAAT GAGCAGCACT
    GAGGACAACA GGATCAATGC CCGCAATCAG CTGAGGATTT CCGGTCTCTT TCCCTCTGCA
    TACTGGTTTG GCCAAGCGCT TGTGGATGTC ATCCTTTATT GGATTTTACT CTTCCTGATG
    GTGGCCATAT ACTTTGCATT TAACAGCTAC ATTTTATTGG ATTTTGTCCC TGCTATGGTG
    ATGATCATTG GCATCATAGG ATATGGCACA GCAATGGTCC TCTATGTTTA TGTCATCTCC
    TTTATTTTTG GAAGAGGAAA AAGTCACACT GATAGCTGGT CATTATTCTT TGTTATAACT
    TCTACTTTTC CAGTTATGTT TATGGATGTG TTCATGTTTC GCCTGTTCAC TATATACTAC
    TTTGTTTTTC CTGCGAGTGC ACTAAGTGGA ATCATGGAAT ACACTTATCG GCTTCAGGTT
    TTTCCAGGTG GATCAGAATA TACAGCTCTT ATTGAGCAGT GTACACCTTA CCTGCATATC
    ATCATATTCT TTGTGTTACT TTGGTTCCTG GAATGGAAGT TTGGATTGAG AAGCCTGACA
    ATAGATCCCT TATTTAGAAT CTCCAGAAGA AAGATTACCA CCAAGAAAAA TCCAGAGGAG
    CTGGGTAATG ATGTGGATGA AGATGTGCTG GCAGAGAAAG AGAGAGTAAA AAAGGCAGCA
    ACCATCGCCA ATGTGGAAGA GAAACCAGTG ATTATTGCTG ACAGTCTTCG CAAAGAGTAT
    AAAGTCAAGA AAGGAGGATC CTTTTTCAAG AAGAACAAAA GAGCTGCCAC TAAAAATGTC
    TCCTTTTGTG TAAAGAAAGG GGAAGTCCTG GGACTGTTAG GGCCAAATGG AGCTGGAAAA
    ACCACATCCA TGTACATGCT GGCTGGAGAA GTAAAGCCAA CTGCGGGAGA GGTACTACTC
    TGTGGAAATG ACCCAGTTGG GTCCACTGGC TTTCTTGGCT ACTGTCCCCA AGACAATCCT
    CTATGGCCCA ATCTGACTGT GAAAGAACAT TTAGAAATCT ATGCAGCTGT TAAGGGCATG
    AAGAAGGAAG ATGCCAGCAT TGCAATCAAT CGAGTTGCAT CAGCCTTGGA GCTTAAGGAG
    CATATGGGAA AAGCAGCCAG AAAACTGTCT CTTGGGGTGT CCAGAAAGGT ATGCTTTGCC
    ATAAGTATGT TAGGTAACCC CAATATTGTC CTTCTGGATG AACCTTCAAC TGGGCTGGAC
    CCCAAAGGTC AGCAGCGACT TTGGAGAGCA ATAAGAGCAG CTTTCAAAAA TAAAGACCGA
    GGGGCAATTC TGACCACTCA CTACATGGAG GAAGCTGAGG CTGTTTGTGA CCGAGTGGCC
    ATCATGGTGT CTGGGAAGCT CAGATGCATT GGATCAATCC AACAGCTGAA GAGCAAGTTT
    GGAAAAGGCT ATCTTCTGGA GATTAAAGTA AAAGAGTCTC ACCAAGTGGA TCAGATTCAC
    AATGAGATAA TACGGATATT CCCCCATGCA GCGAGGCAGG ACAGATTCTC TTCCCTGCTT
    GTCTATAAGA TTCCCATGGA TAATGTGCAG TCCTTGTCCC AAGCTTTTCT ACTGCTGGAG
    GAAGCTAAAC GTGCCTATAA CATCGAGGAA TACAGCTTCT CGCAGTCTAC TTTGGAACAG
    GTATTTATTG AGTTGGCCAA AGAGCAGGAG AAGGAGGACT TTGAGCTGAA CAACACATTT
    CAATGGAGAC ACTTGAGGAC AGAGAGTATC TAA

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

    RefSeq XP_031750511.1
    CDS240..5072
    Translation

    Target ORF information:

    RefSeq Version XM_031894651.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ATP binding cassette subfamily A member 10 (abca10), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031894651.1

    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
    ATGGTAGAAC TGAAGCTGAG TGAGACAAGC CTATTCCAGC AGACAGTGGC ATTGTTCTGG 
    AAGAACCTGC TTCTAAAATG GAGGAGGAAG TGGCACAGCA CCTTGGAATG GCTGCAGAAC
    TTGGCCTTTG TGTTCCTGAT GTTTCTAACA GTTGCTATAG AGTTATATGG ACCCACATCT
    GATATTGATC TATCCCCTGC TTGGGTTCTT GGCCGTTTGG ATGCGTTTAA CAATTTGTCT
    GTTGGATATG TACACACTAC TTCTACATCC AGGGATATCA TGGAGAAGGT GGCCAAAGGC
    ATCATTGTAC CTGATATAAA GGTCCAAGAA TTTGCAGATG AGGAGGAGCT AATAGAGGCT
    GTAAGTAATA TGTCAATGGT TGCAGTCACC TTTGTGGATG AATTCAGTTA CCATATCCGA
    TACCAACTGC CCAAAAGGAA ACATCCAAAT GATTACTTTG CTTATATGGG TAATTGTGGA
    GATGACCTGT CATACTGCAA TCCTACATAT TACTGGTCAG AGGGCTTCCT TTCGCTGCAA
    GCAAGTATTG ACTCTGCTAT TATTGATCTT ACCAGCAATC ATTCTGTATG GAACAATATG
    GCATCCATTG TGGCAATTAA GATGAAATCT GCTGAACGAT CATATAAAGT ACTGGCACAT
    GTTGCATCAT TTATATTTGT TATGCCCATG TGCTATGTCT CTCTGATGTA CCTATTATCC
    CAGTATGTGA CAAGAGAGAG GTATGAAATG AAGGAGACAC TAAGGCTGAT GAGGCTGCAA
    GACTTAGCAT TTTGGTTATC CTGGGGATTG CTTTATTCCT GTTATGTATT TATAGTGGCC
    AACCTGATGA CTCTGGTGAC AAAGCCTTTT GTATTTATAA CAAGTTCCTA TGGCATCATC
    ATGTTTATGT TCTTCCTTTA TGGGGTCGCT CTGATGTCAT TCACCTTCAT GCTGAGCGCC
    CTATTTAGGA ATCCCAGAGC AACCGCCATT GCTGGGTTTT TCATCACACT CTTACTCTCT
    GCATTGGGTC TCATACTCCT ATCCAAGCAT GTTCCTAAAT CAGTTGAAGT CCTATTGAGC
    ATCTTCCCAC AGTTTGCCTT CGCAGTTGGA ATAACGCAGA GTGTTCATAT GGAGAATGAT
    CAAGAAGGCG TCTATTTCTC AGACCTGACG GGGGGTTCCT CTCACATGTT ATCCTGCTTT
    ATCAGTCTTG TTCTTGATTC TGTATTTTAC ATGGGCCTGA CATTGTATTT TGAGAAAGTC
    CTGGCAGATA AACATGGAGT AAAGCACGAG CCCTTGTTTT TCCTGAAAGC TTCTTATTGG
    TCCAAAGAGA AACCGTCTCC ACTAATGGCA CAAACTGACG ATAGCGGTGA ATCTTCCTTG
    GGACACTTTG TTGAAAAGGT CCCTGCTGAT TTACATGGAA AAGAGGCCAT CAGAATTCAT
    GGAGTTAAGA AAACCTACTA TGACAAAGAC AAGAACACGG AGGCTTTGAG AGATCTAGAT
    CTAAATATCT ATGAGGGGCA GATTACAGCC CTGCTTGGTC ATAGCGGAGC TGGCAAAACA
    ACTTTACTGA ATATTCTTAG TGGAATGTGC CCTACTTCTG GTGGATCTGC AACTGTCTGC
    AACTATAAAC TCTCTAACAT GAGGCATTTG GGAGAGATAA AGAAAAGGGT TGGATTCTGC
    CCACAGGGTG ACATAAAGTT TGATCCCCTA ACTGTGAAGG AAAATTTAAC AGTCTTTGCA
    ATGATCAAAG GGATCCCATC AAAAGAAGTA GCACATAAGG TTCAAACCGT TCTGTCGGAC
    CTGCAGATGA ATGACATTGA AAACATAGAA GCTAGTAAAT TAAGTGGTGG ACAAAAAAGA
    AAACTAACTT TTGGAATTGC TATTTTAGGA GATCCACAGG TCCTACTTCT TGATGAACCG
    ACTGCTGGCT TGGATCCCTG TTCCCGGCAC AATATATGGA CCATTCTGAA AGAAAGCAAA
    GCAGATCGAG TCACACTCCT CAGCACTCAG TTCATGGATG AGGCAGACAT ACTTGCTGAT
    CGAAAGGTTG TGATCTCTAA AGGAAAGTTA AAATGTGTAG GAACCTCCTT GTTTCTCAAG
    AGAAAATGGG GCGTCGGATA TCATTTAAGG ATGCAAGTGT CTCCATCATG TGATGTAGAA
    CTCATGACAT CGATCATTAA GCAGCACATA CCCAGTACTA AGCTCACAAC ACAAAATGAA
    GAGGAGCTTA CATACACCTT GCCCTTTGAA AATATGGATG TTTTCCCAGA TTTGTTTTTA
    CATTTGGATG GCCAAGTAGG TAACAGCATA GTCAACTATG GAGTCTCCAT GACAACACTG
    GATGATGTAT TCCTAAAACT AGAAGGGGAA GGAGAAATAG AAAGTGGAGA TTATGATGTT
    TTCAATCCTG AGTCTAGGAC AAATGAAGAT AGAGAGGATT TTTCAACTGA AATGGAAGAG
    TCACTTTTAC AAATGTCGGA CTCTGGAAAT GTGACACTAA GTGGCTGGGA ACTGTGGAGA
    CAGCAGGTGT TGGCTGTTGC AAGGATTCGC TTGCTGAAGT TAAGACATGA CACTAAAAGC
    TTCAGATCTA TATTGTTACT TCTTGTTGTT ATTACTTTAC CTCCGATTAT AATCATCATA
    ACATCTAACA TTGTCAATAC ATTTGATGCT TGGGAACTCA CTCCGCACCT CTACTTCCAA
    AGTCCTAGAA ATCGACTAAA CAAATACTAC ACAGATCTGC TAATTTGCAA CAACACTGGT
    TCATCTATTG AAGACTTTGT TGGTGCAGTG AAGGAGCAGA ATATCGAAGT GCAAGTGGTC
    AATGGCGAAT ATGACACGGA AACTGTAAAG TACAGAGGAG CAATTGAAGT TTCTCAAATG
    GAAAAGGGCT ACAATTTTAC CATTGTGGCA AACCCCAAGG CATTTAACTC ACTACCAGTG
    CTGCTAAACA TCATCAGCAA CGCTCTTTTG AAGATCCTCA AGGTCTCAGG ACACTTCCGT
    GTGTGGAACC ACCCAATAAC TACGGATGGC ACGGATATCA TTTTTTTACC ATATATGTCG
    CTGATATTTT TTATCATTTT TGCATCGGCT TTTTGCCCTC ACATTGCAAT GAGCAGCACT
    GAGGACAACA GGATCAATGC CCGCAATCAG CTGAGGATTT CCGGTCTCTT TCCCTCTGCA
    TACTGGTTTG GCCAAGCGCT TGTGGATGTC ATCCTTTATT GGATTTTACT CTTCCTGATG
    GTGGCCATAT ACTTTGCATT TAACAGCTAC ATTTTATTGG ATTTTGTCCC TGCTATGGTG
    ATGATCATTG GCATCATAGG ATATGGCACA GCAATGGTCC TCTATGTTTA TGTCATCTCC
    TTTATTTTTG GAAGAGGAAA AAGTCACACT GATAGCTGGT CATTATTCTT TGTTATAACT
    TCTACTTTTC CAGTTATGTT TATGGATGTG TTCATGTTTC GCCTGTTCAC TATATACTAC
    TTTGTTTTTC CTGCGAGTGC ACTAAGTGGA ATCATGGAAT ACACTTATCG GCTTCAGGTT
    TTTCCAGGTG GATCAGAATA TACAGCTCTT ATTGAGCAGT GTACACCTTA CCTGCATATC
    ATCATATTCT TTGTGTTACT TTGGTTCCTG GAATGGAAGT TTGGATTGAG AAGCCTGACA
    ATAGATCCCT TATTTAGAAT CTCCAGAAGA AAGATTACCA CCAAGAAAAA TCCAGAGGAG
    CTGGGTAATG ATGTGGATGA AGATGTGCTG GCAGAGAAAG AGAGAGTAAA AAAGGCAGCA
    ACCATCGCCA ATGTGGAAGA GAAACCAGTG ATTATTGCTG ACAGTCTTCG CAAAGAGTAT
    AAAGTCAAGA AAGGAGGATC CTTTTTCAAG AAGAACAAAA GAGCTGCCAC TAAAAATGTC
    TCCTTTTGTG TAAAGAAAGG GGAAGTCCTG GGACTGTTAG GGCCAAATGG AGCTGGAAAA
    ACCACATCCA TGTACATGCT GGCTGGAGAA GTAAAGCCAA CTGCGGGAGA GGTACTACTC
    TGTGGAAATG ACCCAGTTGG GTCCACTGGC TTTCTTGGCT ACTGTCCCCA AGACAATCCT
    CTATGGCCCA ATCTGACTGT GAAAGAACAT TTAGAAATCT ATGCAGCTGT TAAGGGCATG
    AAGAAGGAAG ATGCCAGCAT TGCAATCAAT CGAGTTGCAT CAGCCTTGGA GCTTAAGGAG
    CATATGGGAA AAGCAGCCAG AAAACTGTCT CTTGGGGTGT CCAGAAAGGT ATGCTTTGCC
    ATAAGTATGT TAGGTAACCC CAATATTGTC CTTCTGGATG AACCTTCAAC TGGGCTGGAC
    CCCAAAGGTC AGCAGCGACT TTGGAGAGCA ATAAGAGCAG CTTTCAAAAA TAAAGACCGA
    GGGGCAATTC TGACCACTCA CTACATGGAG GAAGCTGAGG CTGTTTGTGA CCGAGTGGCC
    ATCATGGTGT CTGGGAAGCT CAGATGCATT GGATCAATCC AACAGCTGAA GAGCAAGTTT
    GGAAAAGGCT ATCTTCTGGA GATTAAAGTA AAAGAGTCTC ACCAAGTGGA TCAGATTCAC
    AATGAGATAA TACGGATATT CCCCCATGCA GCGAGGCAGG ACAGATTCTC TTCCCTGCTT
    GTCTATAAGA TTCCCATGGA TAATGTGCAG TCCTTGTCCC AAGCTTTTCT ACTGCTGGAG
    GAAGCTAAAC GTGCCTATAA CATCGAGGAA TACAGCTTCT CGCAGTCTAC TTTGGAACAG
    GTATTTATTG AGTTGGCCAA AGAGCAGGAG AAGGAGGACT TTGAGCTGAA CAACACATTT
    CAATGGAGAC ACTTGAGGAC AGAGAGTATC TAA

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

    CloneID OXa33426
    Clone ID Related Accession (Same CDS sequence) XM_012967286.2
    Accession Version XM_012967286.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product ATP-binding cassette sub-family A member 8-B-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012967286.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-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
    ATGGTAGAAC TGAAGCTGAG TGAGACAAGC CTATTCCAGC AGACAGTGGC ATTGTTCTGG 
    AAGAACCTGC TTCTAAAATG GAGGAGGAAG TGGCACAGCA CCTTGGAATG GCTGCAGAAC
    TTGGCCTTTG TGTTCCTGAT GTTTCTAACA GTTGCTATAG AGTTATATGG ACCCACATCT
    GATATTGATC TATCCCCTGC TTGGGTTCTT GGCCGTTTGG ATGCGTTTAA CAATTTGTCT
    GTTGGATATG TACACACTAC TTCTACATCC AGGGATATCA TGGAGAAGGT GGCCAAAGGC
    ATCATTGTAC CTGATATAAA GGTCCAAGAA TTTGCAGATG AGGAGGAGCT AATAGAGGCT
    GTAAGTAATA TGTCAATGGT TGCAGTCACC TTTGTGGATG AATTCAGTTA CCATATCCGA
    TACCAACTGC CCAAAAGGAA ACATCCAAAT GATTACTTTG CTTATATGGG TAATTGTGGA
    GATGACCTGT CATACTGCAA TCCTACATAT TACTGGTCAG AGGGCTTCCT TTCGCTGCAA
    GCAAGTATTG ACTCTGCTAT TATTGATGTT AGGCCCATGT GCTATGTCTC TCTGATGTAC
    CTATTATCCC AGTATGTGAC AAGAGAGAGG TATGAAATGA AGGAGACACT AAGGCTGATG
    AGGCTGCAAG ACTTAGCATT TTGGTTATCC TGGGGATTGC TTTATTCCTG TTATGTATTT
    ATAGTGGCCA ACCTGATGAC TCTGGTGACA AAGCCTTTTG TATTTATAAC AAGTTCCTAT
    GGCATCATCA TGTTTATGTT CTTCCTTTAT GGGGTCGCTC TGATGTCATT CACCTTCATG
    CTGAGCGCCC TATTTAGGAA TCCCAGAGCA ACCGCCATTG CTGGGTTTTT CATCACACTC
    TTACTCTCTG CATTGGGTCT CATACTCCTA TCCAAGCATG TTCCTAAATC AGTTGAAGTC
    CTATTGAGCA TCTTCCCACA GTTTGCCTTT GCAGTTGGAA TAACGCAGAG TGTTCATATG
    GAGAATGATC AAGAAGGCGT CTATTTCTCA GACCTGACGG GGGGTTCCTC TCACATGTTA
    TCCTGCTTTA TCAGTCTTGT TCTTGATTCT GTATTTTACA TGGGCCTGAC ATTGTATTTT
    GAGAAAGTCC TGGCTGATAA ACATGGAGTA AAGCACGAGC CATTGTTTTT CCTGAAAGCT
    TCTTATTGGT CCAAAGAGAA ACCGTCTCCA CTAATGGCAC AAACTGACGA TAGCGGTGAA
    TCTTCCTTGG GACACTTTGT TGAAAAGGTC CCTGCCGATT TACATGGAAA AGAGGCCATC
    AGAATTCATG GAGTTAAGAA AACCTACTAT GACAAAGACA AGAACACGGA GGCTTTGAGA
    GGTCTAGATC TAAATATCTA TGAGGGGCAA ATTACAGCCC TGCTTGGTCA TAGCGGAGCT
    GGCAAAACAA CTTTACTGAA TATTCTTAGT GGAATGTGCC CTACTTCTGG TGGATCTGCA
    ACTGTCTGCA ACTATAAACT CTCTAACATG AGGCATTTGG AAGAGATAAA GAAAAGGGTT
    GGATTCTGCC CACAGGGTGA CATAAAGTTT GATCCCCTAA CTGTGAAGGA AAATTTAACA
    GTCTTTGCAA TGATCAAAGG AATCCCATCA AAAGAAGTAG CACATAAGGT TCAAACCGTT
    CTGTCGGACC TGCAGATGAA TGACATTGAA AACATAGAAG CTAGTAAATT AAGTGGTGGA
    CAAAAAAGAA AACTAACTTT TGGAATTGCT ATTTTAGGAG ATCCACAGGT CCTACTTCTT
    GATGAACCGA CTGCTGGCTT GGATCCCTGT TCCCGGCACA ATATATGGAC CATTCTGAAA
    GAAAGCAAAG CAGATCGAGT CACACTCCTC AGCACTCAGT TCATGGATGA GGCAGACATA
    CTTGCTGATC GAAAGGTTGT GATCTCTAAA GGAAAGTTAA AATGTGTAGG AACCTCCTTG
    TTTCTCAAGA GAAAATGGGG CGTCGGATAT CATTTAAGGA TGCAAGTGTC TCCATCATGT
    GATGTAGAAC TCATGACATC GATCATTAAG CAGCACATAC CCAGTACTAA GCTCACAACA
    CAAAATGAAG AGGAGCTTAC ATACACCTTG CCCTTTGAAA ATATGGATGT TTTCCCAGAT
    TTGTTTTTAC ATTTGGATGG CCAAGTAGGT AACAGCATAG TCAACTATGG AGTCTCCATG
    ACAACACTGG ATGATGTATT CCTAAAACTA GAAGGGGAAG GAGAAATAGA AAGTGGAGGT
    TCATCTATTG AAGACTTTGT TGGTGCAGTG AAGGAGCAGA ATATCGAAGT GCAAGTGGTC
    AATGGCGAAT ATGACATGGA AACTGTAAAG TACAGAGGAG CAATTGAAGT TTCTCAAATG
    GAAAAGGGCT ACAATTTTAC CATTGTGGCA AACCCCAAGG CATTTAACTC ACTACCAGTG
    CTGCTAAACA TCATCAGCAA CGCTCTTTTG AAGATCCTCA AGGTCTCAGG ACACTTCCGT
    GTGTGGAACC ACCCAATAAC TACGGATGGC ACGGATATCA TTTTTTTACC ATATATGTCG
    CTGATATTTT TTATCATTTT TGCATCGGCT TTTTGCCCTC ACATTGCAAT GAGCAGCACT
    GAGGACAACA GGATCAATGC CCGCAATCAG CTGAGGATTT CCGGTCTCTT TCCCTCTGCA
    TACTGGTTTG GTCAAGCGCT TGTGGATGTC ATCCTTTATT GGATTTTACT CTTCCTGATG
    GTGGCCATAT ACTTTGCATT TAACAGCTAC ATTTTATTGG ATTTTGTCCC TGCTATGGTG
    ATGATCATTG GCATCATAGG ATATGGCACA GCAATGGTCC TCTATGTTTA TGTCATCTCC
    TTTATTTTTG GAAGAGGAAA AAGTCACACT GATAGCTGGT CATTATTCTT TGTTATAACT
    TCTACTTTTC CAGTTATGTT TATGGATGTG TTCATGTTTC GCCTGTTCAC TATATACTAC
    TTTGTTTTTC CTGCGAGTGC ACTAAGTGGA ATCATGGAAT ACACTTATCG GCTTCAGGTT
    TTTCCAGGTG GATCAGAATA TACAGCTCTT ATTGAGCAGT GTACACCTTA CCTGCATATC
    ATCATATTCT TTGTGTTACT TTGGTTCCTG GAATGGAAGT TTGGATTGAG AAGCCTGACA
    ATAGATCCCT TATTTAGAAT CTCCAGAAGA AAGATTACCA CCAAGAAAAA TCCAGAGGAG
    CTGGGTAATG ATGTGGATGA AGATGTGCTG GCAGAGAAAG AGAGAGTAAA AAAGGCAGCA
    ACCATCGCCA ATGTGGAAGA GAAACCAGTG ATTATTGCTG ACAGTCTTCG CAAAGAGTAT
    AAAGTCAAGA AAGGAGGATC CTTTTTCAAG AAGAACAAAA GAGCTGCCAC TAAAAATGTC
    TCCTTTTGTG TAAAGAAAGG GGAAGTCCTG GGACTGCTAG GGCCAAATGG AGCTGGAAAA
    ACCACATCCA TGTACATGCT GGCTGGAGAA GTAAAGCCAA CTGCGGGAGA GGTACTACTC
    TGTGGAAATG ACCCAGTTGG GTCCACTGGC TTTCTTGGCT ACTGTCCCCA AGACAATCCT
    CTATGGCCCA ATCTGACTGT GAAAGAACAT TTAGAAATCT ATGCAGCTGT TAAGGGCATG
    AAGAAGGAAG ATGCCAGCAT TGCAATCAAT CGAGTTGCAT CAGCCTTGGA GCTTAAGGAG
    CATATGGGAA AAGCAGCCAG AAAACTGTCT CTTGGGGTGT CCAGAAAGGT ATGCTTTGCC
    ATAAGTATGT TAGGTAACCC CAATATTGTC CTTCTGGATG AACCTTCAAC TGGGCTGGAC
    CCCAAAGGTC AGCAGCGACT TTGGAGAGCA ATAAGAGCAG CTTTCAAAAA TAAAGACCGA
    GGGGCAATTC TGACCACTCA CTACATGGAG GAAGCTGAGG CTGTTTGTGA CCGAGTGGCC
    ATCATGGTGT CTGGGAAGCT CAGATGCATT GGATCAATCC AACAGCTGAA GAGCAAGTTT
    GGAAAAGGCT ATCTTCTGGA GATTAAAGTA AAAGAGTCTC ACCAAGTGGA TCAGATTCAC
    AATGAGATAA TACGGATATT CCCCCATGCA GCGAGGCAGG ACAGATTCTC TTCCCTGCTT
    GTCTATAAGA TTCCCATGGA TAATGTGCAG TCCTTGTCCC AAGCTTTTCT ACTGCTGGAG
    GAAGCTAAAC GTGCCTATAA CATCGAGGAA TACAGCTTCT CGCAGTCTAC TTTGGAACAG
    GTATTTATTG AGTTGGCCAA AGAGCAGGAG AAGGAGGACT TTGAGCTGAA CAACACATTT
    CAATGGAGAC ACTTGAGGAC AGAGAGTATC TAA

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

    RefSeq XP_012822740.1
    CDS229..4581
    Translation

    Target ORF information:

    RefSeq Version XM_012967286.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ATP binding cassette subfamily A member 10 (abca10), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012967286.2

    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
    ATGGTAGAAC TGAAGCTGAG TGAGACAAGC CTATTCCAGC AGACAGTGGC ATTGTTCTGG 
    AAGAACCTGC TTCTAAAATG GAGGAGGAAG TGGCACAGCA CCTTGGAATG GCTGCAGAAC
    TTGGCCTTTG TGTTCCTGAT GTTTCTAACA GTTGCTATAG AGTTATATGG ACCCACATCT
    GATATTGATC TATCCCCTGC TTGGGTTCTT GGCCGTTTGG ATGCGTTTAA CAATTTGTCT
    GTTGGATATG TACACACTAC TTCTACATCC AGGGATATCA TGGAGAAGGT GGCCAAAGGC
    ATCATTGTAC CTGATATAAA GGTCCAAGAA TTTGCAGATG AGGAGGAGCT AATAGAGGCT
    GTAAGTAATA TGTCAATGGT TGCAGTCACC TTTGTGGATG AATTCAGTTA CCATATCCGA
    TACCAACTGC CCAAAAGGAA ACATCCAAAT GATTACTTTG CTTATATGGG TAATTGTGGA
    GATGACCTGT CATACTGCAA TCCTACATAT TACTGGTCAG AGGGCTTCCT TTCGCTGCAA
    GCAAGTATTG ACTCTGCTAT TATTGATGTT AGGCCCATGT GCTATGTCTC TCTGATGTAC
    CTATTATCCC AGTATGTGAC AAGAGAGAGG TATGAAATGA AGGAGACACT AAGGCTGATG
    AGGCTGCAAG ACTTAGCATT TTGGTTATCC TGGGGATTGC TTTATTCCTG TTATGTATTT
    ATAGTGGCCA ACCTGATGAC TCTGGTGACA AAGCCTTTTG TATTTATAAC AAGTTCCTAT
    GGCATCATCA TGTTTATGTT CTTCCTTTAT GGGGTCGCTC TGATGTCATT CACCTTCATG
    CTGAGCGCCC TATTTAGGAA TCCCAGAGCA ACCGCCATTG CTGGGTTTTT CATCACACTC
    TTACTCTCTG CATTGGGTCT CATACTCCTA TCCAAGCATG TTCCTAAATC AGTTGAAGTC
    CTATTGAGCA TCTTCCCACA GTTTGCCTTT GCAGTTGGAA TAACGCAGAG TGTTCATATG
    GAGAATGATC AAGAAGGCGT CTATTTCTCA GACCTGACGG GGGGTTCCTC TCACATGTTA
    TCCTGCTTTA TCAGTCTTGT TCTTGATTCT GTATTTTACA TGGGCCTGAC ATTGTATTTT
    GAGAAAGTCC TGGCTGATAA ACATGGAGTA AAGCACGAGC CATTGTTTTT CCTGAAAGCT
    TCTTATTGGT CCAAAGAGAA ACCGTCTCCA CTAATGGCAC AAACTGACGA TAGCGGTGAA
    TCTTCCTTGG GACACTTTGT TGAAAAGGTC CCTGCCGATT TACATGGAAA AGAGGCCATC
    AGAATTCATG GAGTTAAGAA AACCTACTAT GACAAAGACA AGAACACGGA GGCTTTGAGA
    GGTCTAGATC TAAATATCTA TGAGGGGCAA ATTACAGCCC TGCTTGGTCA TAGCGGAGCT
    GGCAAAACAA CTTTACTGAA TATTCTTAGT GGAATGTGCC CTACTTCTGG TGGATCTGCA
    ACTGTCTGCA ACTATAAACT CTCTAACATG AGGCATTTGG AAGAGATAAA GAAAAGGGTT
    GGATTCTGCC CACAGGGTGA CATAAAGTTT GATCCCCTAA CTGTGAAGGA AAATTTAACA
    GTCTTTGCAA TGATCAAAGG AATCCCATCA AAAGAAGTAG CACATAAGGT TCAAACCGTT
    CTGTCGGACC TGCAGATGAA TGACATTGAA AACATAGAAG CTAGTAAATT AAGTGGTGGA
    CAAAAAAGAA AACTAACTTT TGGAATTGCT ATTTTAGGAG ATCCACAGGT CCTACTTCTT
    GATGAACCGA CTGCTGGCTT GGATCCCTGT TCCCGGCACA ATATATGGAC CATTCTGAAA
    GAAAGCAAAG CAGATCGAGT CACACTCCTC AGCACTCAGT TCATGGATGA GGCAGACATA
    CTTGCTGATC GAAAGGTTGT GATCTCTAAA GGAAAGTTAA AATGTGTAGG AACCTCCTTG
    TTTCTCAAGA GAAAATGGGG CGTCGGATAT CATTTAAGGA TGCAAGTGTC TCCATCATGT
    GATGTAGAAC TCATGACATC GATCATTAAG CAGCACATAC CCAGTACTAA GCTCACAACA
    CAAAATGAAG AGGAGCTTAC ATACACCTTG CCCTTTGAAA ATATGGATGT TTTCCCAGAT
    TTGTTTTTAC ATTTGGATGG CCAAGTAGGT AACAGCATAG TCAACTATGG AGTCTCCATG
    ACAACACTGG ATGATGTATT CCTAAAACTA GAAGGGGAAG GAGAAATAGA AAGTGGAGGT
    TCATCTATTG AAGACTTTGT TGGTGCAGTG AAGGAGCAGA ATATCGAAGT GCAAGTGGTC
    AATGGCGAAT ATGACATGGA AACTGTAAAG TACAGAGGAG CAATTGAAGT TTCTCAAATG
    GAAAAGGGCT ACAATTTTAC CATTGTGGCA AACCCCAAGG CATTTAACTC ACTACCAGTG
    CTGCTAAACA TCATCAGCAA CGCTCTTTTG AAGATCCTCA AGGTCTCAGG ACACTTCCGT
    GTGTGGAACC ACCCAATAAC TACGGATGGC ACGGATATCA TTTTTTTACC ATATATGTCG
    CTGATATTTT TTATCATTTT TGCATCGGCT TTTTGCCCTC ACATTGCAAT GAGCAGCACT
    GAGGACAACA GGATCAATGC CCGCAATCAG CTGAGGATTT CCGGTCTCTT TCCCTCTGCA
    TACTGGTTTG GTCAAGCGCT TGTGGATGTC ATCCTTTATT GGATTTTACT CTTCCTGATG
    GTGGCCATAT ACTTTGCATT TAACAGCTAC ATTTTATTGG ATTTTGTCCC TGCTATGGTG
    ATGATCATTG GCATCATAGG ATATGGCACA GCAATGGTCC TCTATGTTTA TGTCATCTCC
    TTTATTTTTG GAAGAGGAAA AAGTCACACT GATAGCTGGT CATTATTCTT TGTTATAACT
    TCTACTTTTC CAGTTATGTT TATGGATGTG TTCATGTTTC GCCTGTTCAC TATATACTAC
    TTTGTTTTTC CTGCGAGTGC ACTAAGTGGA ATCATGGAAT ACACTTATCG GCTTCAGGTT
    TTTCCAGGTG GATCAGAATA TACAGCTCTT ATTGAGCAGT GTACACCTTA CCTGCATATC
    ATCATATTCT TTGTGTTACT TTGGTTCCTG GAATGGAAGT TTGGATTGAG AAGCCTGACA
    ATAGATCCCT TATTTAGAAT CTCCAGAAGA AAGATTACCA CCAAGAAAAA TCCAGAGGAG
    CTGGGTAATG ATGTGGATGA AGATGTGCTG GCAGAGAAAG AGAGAGTAAA AAAGGCAGCA
    ACCATCGCCA ATGTGGAAGA GAAACCAGTG ATTATTGCTG ACAGTCTTCG CAAAGAGTAT
    AAAGTCAAGA AAGGAGGATC CTTTTTCAAG AAGAACAAAA GAGCTGCCAC TAAAAATGTC
    TCCTTTTGTG TAAAGAAAGG GGAAGTCCTG GGACTGCTAG GGCCAAATGG AGCTGGAAAA
    ACCACATCCA TGTACATGCT GGCTGGAGAA GTAAAGCCAA CTGCGGGAGA GGTACTACTC
    TGTGGAAATG ACCCAGTTGG GTCCACTGGC TTTCTTGGCT ACTGTCCCCA AGACAATCCT
    CTATGGCCCA ATCTGACTGT GAAAGAACAT TTAGAAATCT ATGCAGCTGT TAAGGGCATG
    AAGAAGGAAG ATGCCAGCAT TGCAATCAAT CGAGTTGCAT CAGCCTTGGA GCTTAAGGAG
    CATATGGGAA AAGCAGCCAG AAAACTGTCT CTTGGGGTGT CCAGAAAGGT ATGCTTTGCC
    ATAAGTATGT TAGGTAACCC CAATATTGTC CTTCTGGATG AACCTTCAAC TGGGCTGGAC
    CCCAAAGGTC AGCAGCGACT TTGGAGAGCA ATAAGAGCAG CTTTCAAAAA TAAAGACCGA
    GGGGCAATTC TGACCACTCA CTACATGGAG GAAGCTGAGG CTGTTTGTGA CCGAGTGGCC
    ATCATGGTGT CTGGGAAGCT CAGATGCATT GGATCAATCC AACAGCTGAA GAGCAAGTTT
    GGAAAAGGCT ATCTTCTGGA GATTAAAGTA AAAGAGTCTC ACCAAGTGGA TCAGATTCAC
    AATGAGATAA TACGGATATT CCCCCATGCA GCGAGGCAGG ACAGATTCTC TTCCCTGCTT
    GTCTATAAGA TTCCCATGGA TAATGTGCAG TCCTTGTCCC AAGCTTTTCT ACTGCTGGAG
    GAAGCTAAAC GTGCCTATAA CATCGAGGAA TACAGCTTCT CGCAGTCTAC TTTGGAACAG
    GTATTTATTG AGTTGGCCAA AGAGCAGGAG AAGGAGGACT TTGAGCTGAA CAACACATTT
    CAATGGAGAC ACTTGAGGAC AGAGAGTATC TAA

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