abca9 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following abca9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the abca9 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
OXa50753 XM_031894645.1
Latest version!
Xenopus tropicalis ATP binding cassette subfamily A member 9 (abca9), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa36688 XM_012960126.2
Latest version!
Xenopus tropicalis ATP binding cassette subfamily A member 9 (abca9), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00

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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 OXa50753
    Clone ID Related Accession (Same CDS sequence) XM_031894645.1
    Accession Version XM_031894645.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4827bp)
    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
    ATGGTGGAAT TAAAGCTGAG TGAGACAAGC CTATTCCAGC AGACAGTGGC ATTGTTCTGG 
    AAGAACCTGC TTCTGAAATG GAGGAGGAAG TGGCACAGCA CCTTGGAATG GCTGCAGAAC
    TTGGCCTTTG TGTTCCTGAT GTTTCTAACA ATTGTCATAG GGTTTAATGG ACCCACATCA
    AATACTGATC TATCCCCTGC ACGGGTTCTT GGCCGTTTGG ATGCGTTTTA CAATTTCTCT
    GTTGGATATG TGCGCACTAC CTCTATATCC AGGGATATCA TGGAGAAGGT GGCCCAAAGC
    ATCATTATAC CTGATGTAAA GGTCGAAGAA TTTGCAGATG AGGAGGAACT AATGAAGGCT
    TTTCATAATA CGTCAATGGT TGCAGTCACC TTTGTGGACA AATTCAGTTA CCATATCCGA
    TACCGGATGC ATGTAATGGG ACATCCAAGT GATTACTTTG CTTTTATGGG TCACTGTGGC
    AATGACTTGT TATACTGCCT TCCTACATAC TACTGGTCAG AGGGCTTCCT TTCTCTGCAA
    GCAAGTATTG ACTCTGCTAT TATTGAAGTT ACCAGCAATC ATTCCGTATG GAACAATATG
    GCTTCTATCG TGGCAATTAA GATGAAATCT GCTCAACTGA CTTATAGACG ACTGGTGCAT
    GTTGCATCAT TTGTATTTGT TATGCCCATG TGCTATGTCT CGCTGATATA CCTATTATCC
    CTCTATGTGA CAAGAGAGAG GTATGAAATG AAGGAGACAC TAAGGCTGAT GCAACTTAAA
    GACTTAGCAT TTTGGTTATC CTGGGGATTG CTTTATGCCG GTTATATATT AATAGTGGCC
    AACCTGATGA CTCTGATCAC AAAACCTTTT ATATTTATGA CAAGTTCCTA TGGTGTCATC
    ATGTTTCTTT TCTTTCTGTA TGGAGTCGCT CTGATGTCAT TCACCTTCAT GCTGAGCGCC
    CTGTTTCGGA GTCCCAGAGC AACAGCCGTT GCTGGGTTTT TCATCACACT CTTCCTTTCT
    GCTGTGGGTC TCGTACTACT AAGAAAAGAT TTTCCTCAAG CTCTTGCAGT CTTATTGAGC
    ATCTTCCCCC AGTTTGCCTT TGCAGTTGGA TTACTGCAGA GTGTTCATAT GGATAGTGAT
    CTAGAAGGTG TCTACTTCTC TGACTTGATG GGGGATTCCT CTCACATGCT ATCCTGCTTT
    ATCAGCCTTG TTCTCGATTC GGTATTTTAC ATGATCCTCA CACTGTATTT TGAAAAAGTT
    CTTGCAGATA AACATGGAGT TAAGCACGAG CCATTGTTTT TCCTAAAAGC TTCTTATTGG
    TCCAAAGAGA AGCCGTCTCC ACTAATGGGA CAAACTGATT ATAGCGGTGA ATCCTCATTG
    GGAGACTTTG TTGAAAAGGT CCCTGATGAT TTACATGGAA AAGAGGCCAT CAGAATCCAT
    GGAGTTAAGA AAACCTTCTC TGACAAAGAC AAGAGCACTG AGGCTTTGAG AGGTCTAGAT
    CTAAATATCT ATGAGGGGCA GATTACAGCC CTGCTTGGTC ATAGCGGAGC TGGTAAAACG
    ACACTACTAA ATATCCTTAG TGGAATGTAT CCAGCTTCTG GCGGATCTGC AACTATCTGC
    AATTATAAAC TCTCTAACAT GAGGCACTTG GAAGAGATAA AGAAAAGGGT TGGATTTTGC
    CCACAGGGTG ACATTAAGTT TGACCCTTTA ACTGTGAAGG AAAATTTAAT GGTCTTTGCA
    ATGATCAAAG GGATCCCAAC AAAGCAAGTA GCACATAAGG TCCAAAAAGT TCTGTCGGAC
    TTGCAGATGA ATGATATTGA AAACACAGAA GCTATTACAT TAAGTGGTGG ACAAAGAAGA
    AAATTAACTT TTGGAATTGC TATTTTAGGA GATCCTCAGG TTCTACTTCT TGATGAACCG
    ACTGCTGGTT TGGACCCATG TTCCAGGCAC CATGTATGGA CCATTTTAAA AGAGAACAAA
    GCAGATCGAG TCACACTCTT CAGCACTCAG TTCATGGATG AGGCAGACAT CCTTGCTGAT
    CGAAAGGCTG TGATCTCTAA AGGAAGGTTA AAATGTGTTG GATCCTCCTT GTTTCTCAAG
    AGAAAGTGGG GCATTGGGTA TCACTTAAGG ATGCAAGTGT CTCCATCATG TGACGTGGAG
    CTTATGACAT CGATCATTAA GCAGCGCATA CCCAGTGCTA AGCTCACAGC GCAAAATGAA
    GAGGAGCTTA CATACGCCTT GCCCTTTGAA AATATGGATG TTTTCCCAGA TTTATTTAGT
    CATTTGGATG GCCAAGTAGG TAACAGCATA GTCAGCTATG GAGTCTCTAT GACAACCCTG
    GATGATGTAT TTTTAAAACT AGAAGGGGAA GGAGAGATAG AAAGTGGAGA TTATGATGTT
    TTTAACCCAG AGTCTAGGAC AGCTGAAGAC AGATATGATA TTTCTGCTGA AATGGAAGAG
    TCACTTTTAC TGATGTCGGA CTCTGGAAAT GTGACACTAA GTGGCTGGGA ACTGTGGAGA
    CAACAAGTGT TGGCTGTTGC AAGGATTCGA TTTCTGAAGT TAAGACATGA CACTAAAAGC
    TTGAGATCTA TATTGTTACT TCTTGTTCTT TTTATTCTGG CTTCAATTCT AAGCATTATA
    ATGGCTCATA TTTCCAATAA ATTTATTTCT TGGGAACTTA CTCCAAGCCT CTACTTTCAA
    AGTCCTGGTA GTCGACTAAA CAAATACTAC ACAGATTTGC TGATTCATAA CAACACTGGT
    TCATCTATTG ATGACTTTAT TGGTGCAGTG AAAGAACAGA ATATAGCAGT ACAAGTGGCC
    AACGGCAAAT ATGACATGGA TACTATAAAG TACAGAGGAG CAATTGAAGT CTCTCAAGCG
    GAAAAGGGCT ATAATTTTAC CATTGTGGCA AACCCCAAGG CACATAATGC ACTACCAGTA
    CTTCTAAATA TCATCAGCAA TGCTCTTTTG AAGGTTTTTA AGGTCTCAGA ACATGTCCGT
    GTGTGGAACC ACCCAATAAC TATGGATGAA ATGGATATAC ATCATAAAAC ATATATATCA
    ATTATGTTTT TTATGATTTT TGCATCTGGT CTATCCCCTC ACATTGCAAT GAGCAGCACT
    GAGGACAACA GGATCAATGC TCGCACTCAG CTGAGGCTCG CTGGTCTCTT TCCCTCTGCA
    TACTGGTTTG GCCAAGCGCT TGTGGATGTC ATTCTCTATT GGAGTTTACT CTTCCTGATG
    ACGGCCATAC TTTTTGCATT TAACAACTAC TCCTACTTTC TATTAAATTT CATCACTGCT
    ATGGTGATGA TCGCTGGCAT GTTCGGCTAC GGCATGGCTG TGATCCTGTA TGTTTACGTC
    ATCTCCTTTA TTTTTGGGAA AGGAAAAATC CACCGGGACA GCTGGTCATT ATTCTTTGTT
    ATAATTACTT TTTTCCCAGC TAGTAATGAA ATATCTATAT TTCCCTGGTT CTATATATAC
    TTATTCATTT TTCCTGTGAC CACACTATAC GGAATCATGG ACTACACTGA AGATCTTCAG
    TTTCTTCAAG AAGCAGACAA TTTTATCTTG CCGTGTACGC CATACCTGCA TATCATCATA
    TTCTTTGGGC TACTTTGGTT TTTGGAATGG AAGTTTGGGT TGAGAAGCCT GACAACTGAT
    CCCTTATTCA GAATCTCCAG AAGAAATATG ACAGTCAAGA AAAATCCAGA AGAGCTGGGT
    AATGATGTGG ATGAAGATGT GTTGGCAGAA AAAGAGAGAG TAAAAAATGC CGCAACCGTT
    GCCAATGTGG AAGAGAAACC AGTGATTATT GTAGACAGTC TGCGCAAGGA GTATAAAGTC
    AAGAAAAGAG GATCCTTTTT CAAGAAGAAC AGAAAAGCTG CCACTAAAAA CATCTCCTTT
    TGTGTCAGGA AAGGTGAGGT CCTAGGACTG CTAGGGCCAA ATGGAGCTGG AAAAACCACA
    TCCATGTACA TGCTGGCTGG AGAAGTAAAG CCAACTGCGG GAGAGGTAGT TCTCTGTGGG
    AATGACCCAG CTGAGTCCAC TGGCTTTCTT GGCTACTGTC CCCAAGACAA TCCTCTATGG
    CCCAATCTGA CTGTGAAAGA ACATTTAGAA ATCTATGCTG CTGTGAAGGG CATGAAGAAG
    GAGGATGCAT ATATTGCAAT CAATCGAGTT GCAGCAGCCT TGGAGCTTAA AGAACATATG
    GGAAAAGAAT CCAGAAAGCT GTCTCTTGGG GAGTCCAGAA AGGTGTGCTT TGCCATAAGC
    ATGATAGGTA ACCCCAACAT TGTCCTTCTG GATGAACCTT CAACTGGACT GGACCCTAAA
    GCTCAGCAGC GTCTTTGGAG AGCTATAAGA GCAGCTTTTA AAAACAAAGA CCGAGGAGCA
    ATTCTGACCA CTCACTACAT GGAGGAAGCT GAGGCTGTCT GTGACCGGGT AGCCATCATG
    GTGTCTGGGA AGCTCAGATG CATTGGGTCA ATCCAGCAGC TGAAGAGCAA GTTTGGAAAA
    GGCTATCTTC TGGAGATTAA AGTAAAAGAG ACTCACCAAG TGGATCAGAT TCACAATGAG
    ATAATACGTA TATTCCCCCA TGCAGCGAGG CAGGACAGAT TCTCATCCCT GCTTGTCTAT
    AAGATTCCCA TGGATAACGT GCAGTCCTTG TCCCAAGCTT TTCTACTGCT GGAGGAAGCT
    AAACGTGCCT ATAACATTGA GGAATACAGC TTCTCACAGT CTACTTTGGA ACAGGTGTTT
    ATTGAGTTGG CCAAGGAGCA GGAGAAGGAG GACTTTGAGC TGAACAACAC ATTTCAATGG
    AGACACCTGA GGGCAGAAAG TATCTAA

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

    RefSeq XP_031750505.1
    CDS112..4938
    Translation

    Target ORF information:

    RefSeq Version XM_031894645.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ATP binding cassette subfamily A member 9 (abca9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031894645.1

    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
    ATGGTGGAAT TAAAGCTGAG TGAGACAAGC CTATTCCAGC AGACAGTGGC ATTGTTCTGG 
    AAGAACCTGC TTCTGAAATG GAGGAGGAAG TGGCACAGCA CCTTGGAATG GCTGCAGAAC
    TTGGCCTTTG TGTTCCTGAT GTTTCTAACA ATTGTCATAG GGTTTAATGG ACCCACATCA
    AATACTGATC TATCCCCTGC ACGGGTTCTT GGCCGTTTGG ATGCGTTTTA CAATTTCTCT
    GTTGGATATG TGCGCACTAC CTCTATATCC AGGGATATCA TGGAGAAGGT GGCCCAAAGC
    ATCATTATAC CTGATGTAAA GGTCGAAGAA TTTGCAGATG AGGAGGAACT AATGAAGGCT
    TTTCATAATA CGTCAATGGT TGCAGTCACC TTTGTGGACA AATTCAGTTA CCATATCCGA
    TACCGGATGC ATGTAATGGG ACATCCAAGT GATTACTTTG CTTTTATGGG TCACTGTGGC
    AATGACTTGT TATACTGCCT TCCTACATAC TACTGGTCAG AGGGCTTCCT TTCTCTGCAA
    GCAAGTATTG ACTCTGCTAT TATTGAAGTT ACCAGCAATC ATTCCGTATG GAACAATATG
    GCTTCTATCG TGGCAATTAA GATGAAATCT GCTCAACTGA CTTATAGACG ACTGGTGCAT
    GTTGCATCAT TTGTATTTGT TATGCCCATG TGCTATGTCT CGCTGATATA CCTATTATCC
    CTCTATGTGA CAAGAGAGAG GTATGAAATG AAGGAGACAC TAAGGCTGAT GCAACTTAAA
    GACTTAGCAT TTTGGTTATC CTGGGGATTG CTTTATGCCG GTTATATATT AATAGTGGCC
    AACCTGATGA CTCTGATCAC AAAACCTTTT ATATTTATGA CAAGTTCCTA TGGTGTCATC
    ATGTTTCTTT TCTTTCTGTA TGGAGTCGCT CTGATGTCAT TCACCTTCAT GCTGAGCGCC
    CTGTTTCGGA GTCCCAGAGC AACAGCCGTT GCTGGGTTTT TCATCACACT CTTCCTTTCT
    GCTGTGGGTC TCGTACTACT AAGAAAAGAT TTTCCTCAAG CTCTTGCAGT CTTATTGAGC
    ATCTTCCCCC AGTTTGCCTT TGCAGTTGGA TTACTGCAGA GTGTTCATAT GGATAGTGAT
    CTAGAAGGTG TCTACTTCTC TGACTTGATG GGGGATTCCT CTCACATGCT ATCCTGCTTT
    ATCAGCCTTG TTCTCGATTC GGTATTTTAC ATGATCCTCA CACTGTATTT TGAAAAAGTT
    CTTGCAGATA AACATGGAGT TAAGCACGAG CCATTGTTTT TCCTAAAAGC TTCTTATTGG
    TCCAAAGAGA AGCCGTCTCC ACTAATGGGA CAAACTGATT ATAGCGGTGA ATCCTCATTG
    GGAGACTTTG TTGAAAAGGT CCCTGATGAT TTACATGGAA AAGAGGCCAT CAGAATCCAT
    GGAGTTAAGA AAACCTTCTC TGACAAAGAC AAGAGCACTG AGGCTTTGAG AGGTCTAGAT
    CTAAATATCT ATGAGGGGCA GATTACAGCC CTGCTTGGTC ATAGCGGAGC TGGTAAAACG
    ACACTACTAA ATATCCTTAG TGGAATGTAT CCAGCTTCTG GCGGATCTGC AACTATCTGC
    AATTATAAAC TCTCTAACAT GAGGCACTTG GAAGAGATAA AGAAAAGGGT TGGATTTTGC
    CCACAGGGTG ACATTAAGTT TGACCCTTTA ACTGTGAAGG AAAATTTAAT GGTCTTTGCA
    ATGATCAAAG GGATCCCAAC AAAGCAAGTA GCACATAAGG TCCAAAAAGT TCTGTCGGAC
    TTGCAGATGA ATGATATTGA AAACACAGAA GCTATTACAT TAAGTGGTGG ACAAAGAAGA
    AAATTAACTT TTGGAATTGC TATTTTAGGA GATCCTCAGG TTCTACTTCT TGATGAACCG
    ACTGCTGGTT TGGACCCATG TTCCAGGCAC CATGTATGGA CCATTTTAAA AGAGAACAAA
    GCAGATCGAG TCACACTCTT CAGCACTCAG TTCATGGATG AGGCAGACAT CCTTGCTGAT
    CGAAAGGCTG TGATCTCTAA AGGAAGGTTA AAATGTGTTG GATCCTCCTT GTTTCTCAAG
    AGAAAGTGGG GCATTGGGTA TCACTTAAGG ATGCAAGTGT CTCCATCATG TGACGTGGAG
    CTTATGACAT CGATCATTAA GCAGCGCATA CCCAGTGCTA AGCTCACAGC GCAAAATGAA
    GAGGAGCTTA CATACGCCTT GCCCTTTGAA AATATGGATG TTTTCCCAGA TTTATTTAGT
    CATTTGGATG GCCAAGTAGG TAACAGCATA GTCAGCTATG GAGTCTCTAT GACAACCCTG
    GATGATGTAT TTTTAAAACT AGAAGGGGAA GGAGAGATAG AAAGTGGAGA TTATGATGTT
    TTTAACCCAG AGTCTAGGAC AGCTGAAGAC AGATATGATA TTTCTGCTGA AATGGAAGAG
    TCACTTTTAC TGATGTCGGA CTCTGGAAAT GTGACACTAA GTGGCTGGGA ACTGTGGAGA
    CAACAAGTGT TGGCTGTTGC AAGGATTCGA TTTCTGAAGT TAAGACATGA CACTAAAAGC
    TTGAGATCTA TATTGTTACT TCTTGTTCTT TTTATTCTGG CTTCAATTCT AAGCATTATA
    ATGGCTCATA TTTCCAATAA ATTTATTTCT TGGGAACTTA CTCCAAGCCT CTACTTTCAA
    AGTCCTGGTA GTCGACTAAA CAAATACTAC ACAGATTTGC TGATTCATAA CAACACTGGT
    TCATCTATTG ATGACTTTAT TGGTGCAGTG AAAGAACAGA ATATAGCAGT ACAAGTGGCC
    AACGGCAAAT ATGACATGGA TACTATAAAG TACAGAGGAG CAATTGAAGT CTCTCAAGCG
    GAAAAGGGCT ATAATTTTAC CATTGTGGCA AACCCCAAGG CACATAATGC ACTACCAGTA
    CTTCTAAATA TCATCAGCAA TGCTCTTTTG AAGGTTTTTA AGGTCTCAGA ACATGTCCGT
    GTGTGGAACC ACCCAATAAC TATGGATGAA ATGGATATAC ATCATAAAAC ATATATATCA
    ATTATGTTTT TTATGATTTT TGCATCTGGT CTATCCCCTC ACATTGCAAT GAGCAGCACT
    GAGGACAACA GGATCAATGC TCGCACTCAG CTGAGGCTCG CTGGTCTCTT TCCCTCTGCA
    TACTGGTTTG GCCAAGCGCT TGTGGATGTC ATTCTCTATT GGAGTTTACT CTTCCTGATG
    ACGGCCATAC TTTTTGCATT TAACAACTAC TCCTACTTTC TATTAAATTT CATCACTGCT
    ATGGTGATGA TCGCTGGCAT GTTCGGCTAC GGCATGGCTG TGATCCTGTA TGTTTACGTC
    ATCTCCTTTA TTTTTGGGAA AGGAAAAATC CACCGGGACA GCTGGTCATT ATTCTTTGTT
    ATAATTACTT TTTTCCCAGC TAGTAATGAA ATATCTATAT TTCCCTGGTT CTATATATAC
    TTATTCATTT TTCCTGTGAC CACACTATAC GGAATCATGG ACTACACTGA AGATCTTCAG
    TTTCTTCAAG AAGCAGACAA TTTTATCTTG CCGTGTACGC CATACCTGCA TATCATCATA
    TTCTTTGGGC TACTTTGGTT TTTGGAATGG AAGTTTGGGT TGAGAAGCCT GACAACTGAT
    CCCTTATTCA GAATCTCCAG AAGAAATATG ACAGTCAAGA AAAATCCAGA AGAGCTGGGT
    AATGATGTGG ATGAAGATGT GTTGGCAGAA AAAGAGAGAG TAAAAAATGC CGCAACCGTT
    GCCAATGTGG AAGAGAAACC AGTGATTATT GTAGACAGTC TGCGCAAGGA GTATAAAGTC
    AAGAAAAGAG GATCCTTTTT CAAGAAGAAC AGAAAAGCTG CCACTAAAAA CATCTCCTTT
    TGTGTCAGGA AAGGTGAGGT CCTAGGACTG CTAGGGCCAA ATGGAGCTGG AAAAACCACA
    TCCATGTACA TGCTGGCTGG AGAAGTAAAG CCAACTGCGG GAGAGGTAGT TCTCTGTGGG
    AATGACCCAG CTGAGTCCAC TGGCTTTCTT GGCTACTGTC CCCAAGACAA TCCTCTATGG
    CCCAATCTGA CTGTGAAAGA ACATTTAGAA ATCTATGCTG CTGTGAAGGG CATGAAGAAG
    GAGGATGCAT ATATTGCAAT CAATCGAGTT GCAGCAGCCT TGGAGCTTAA AGAACATATG
    GGAAAAGAAT CCAGAAAGCT GTCTCTTGGG GAGTCCAGAA AGGTGTGCTT TGCCATAAGC
    ATGATAGGTA ACCCCAACAT TGTCCTTCTG GATGAACCTT CAACTGGACT GGACCCTAAA
    GCTCAGCAGC GTCTTTGGAG AGCTATAAGA GCAGCTTTTA AAAACAAAGA CCGAGGAGCA
    ATTCTGACCA CTCACTACAT GGAGGAAGCT GAGGCTGTCT GTGACCGGGT AGCCATCATG
    GTGTCTGGGA AGCTCAGATG CATTGGGTCA ATCCAGCAGC TGAAGAGCAA GTTTGGAAAA
    GGCTATCTTC TGGAGATTAA AGTAAAAGAG ACTCACCAAG TGGATCAGAT TCACAATGAG
    ATAATACGTA TATTCCCCCA TGCAGCGAGG CAGGACAGAT TCTCATCCCT GCTTGTCTAT
    AAGATTCCCA TGGATAACGT GCAGTCCTTG TCCCAAGCTT TTCTACTGCT GGAGGAAGCT
    AAACGTGCCT ATAACATTGA GGAATACAGC TTCTCACAGT CTACTTTGGA ACAGGTGTTT
    ATTGAGTTGG CCAAGGAGCA GGAGAAGGAG GACTTTGAGC TGAACAACAC ATTTCAATGG
    AGACACCTGA GGGCAGAAAG TATCTAA

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

    CloneID OXa36688
    Clone ID Related Accession (Same CDS sequence) XM_012960126.2
    Accession Version XM_012960126.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4956bp)
    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-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_012960126.1. ##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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGTGGAAT TAAAATTGAG TGAGACAAGC CTATTCCAGC AGACAGTGGC ATTGTTCTGG 
    AAGAACCTGC TTCTGAAATG GAGGAGGAAG TGGCACAGCA CCTTGGAATG GCTGCAGAAC
    TTGGCCTTTG TGTTCCTGAT GTTTCTAACA ATTGTCATAG GGTTTAATGG ACCCATATTA
    AATGCTGATC TATCCCCTGC ACGGGTTCTT GGCCGTTTGG ATGCGTTTTA CAATTTCTCT
    GTTGGATATG TGCGCACTAC CTCTATATCC AGGGATATCA TGGAGAAGGT GGCCCAAAGC
    ATCATTATAC CTGATGTAAA GGTCGAAGAA TTTGCAGATG AGGAGGAACT AATGAAGGCT
    TTTCATAATA CGTCAATGGT TGCAGTCACC TTTGTGGACA AATTCAGTTA CCATATCCGA
    TACCGGATGC ATGTAATGGG ACATCCAAGT GATTACTTTG CTTTTATGGG TCACTGTGGC
    AATGACTTGT TATACTGCCT TCCTACATAC TACTGGTCAG AGGGCTTCCT TTCTCTGCAA
    GCAAGTATTG ACTCTGCTAT TATTGAAGTT ACCAGCAATC ATTCCGTATG GAACAATATG
    GCTTCTATCG TGGCAATTAA GATGAAATCT GCTCAACTGA CTTATAGACG ACTGGTGCAT
    GTTGCATCAT TTGTATTTGT TATGCCCATG TGCTATGTCT CGCTGATATA CCTATTATCC
    CTCTATGTGA CAAGAGAGAG GTATGAAATG AAGGAGACAC TAAGGCTGAT GCAACTTAAA
    GACTTAGCAT TTTGGTTATC CTGGGGATTG CTTTATGCCG GTTATATATT AATAGTGGCC
    AACCTGATGA CTCTGATCAC AAAACCTTTT ATATTTATGA CAAGTTCCTA TGGTGTCATC
    ATGTTTCTTT TCTTTCTGTA TGGAGTCGCT CTGATGTCAT TCACCTTCAT GCTGAGCGCC
    CTGTTTCGGA GTCCCAGAGC AACAGCCGTT GCTGGGTTTT TCATCACACT CTTCCTTTCT
    GCTGTGGGTC TCGTACTACT AAGAAAAGAT TTTCCTCAAG CTCTTGCAGT CTTATTGAGC
    ATCTTCCCCC AGTTTGCCTT TGCAGTTGGA TTACTGCAGA GTGTTCATAT GGATAGTGAT
    CTAGAAGGTG TCTACTTCTC TGACTTGATG GGGGATTCCT CTCACATGCT ATCCTGCTTT
    ATCAGCCTTG TTCTCGATTT GGTATTTTAC ATGATCCTCA CACTGTATTT TGAAAAAGTT
    CTTGCAGATA AACATGGAGT TAAGCACGAG CCATTGTTTT TCCTAAAAGC TTCTTATTGG
    TCCAAAGAGA AGCCGTCTCC ACTAATGGCA CAAACTGATT ATAGCGGTGA ATCCTCATTG
    GGAGACTTTG TTGAAAAGGT CCCTGATGAT TTACATGGAA AAGAGGCCAT CAGTACAGGT
    CTAGATCTAA ATATCTATGA GGGGCAGATT ACAGCCCTGC TTGGTCATAG CGGAGCTGGT
    AAAACGACAC TACTAAATAT CCTTAGTGGA ATGTATCCAG CTTCTGGCGG ATCTGCAACT
    ATCTGCAATT ATAAACTCTC TAACATGAGG CACTTGGAAG AGATAAAGAA AAGGGTTGGA
    TTTTGCCCAC AGGGTGACAT TAAGTTTGAC CCTTTAACTG TGAAGGAAAA TTTAATGGTC
    TTTGCAATGA TCAAAGGGAT CCCAACAAAG CAAGTAGCAC ATAAGGTCCA AAAAGTTCTG
    TCGGACTTGC AGATGAATGA TATTGAAAAC ACAGAAGCTA TTACATTAAG TGGTGGACAA
    AGAAGAAAAT TAACTTTTGG AATCGCTATT TTAGGAGATC CACAGGTTCT ACTTCTTGAT
    GAACCGACTG CTGGTTTGGA CCCATGTTCC AGGCACCATG TATGGACCAT TTTAAAAGAG
    AACAAAGCAG ATCGAGTCAC ACTCTTCAGC ACTCAGTTTA TGGATGAGGC AGACATCCTT
    GCTGATCGAA AGGCTGTGAT CTCTAAAGGA AGGTTAAAAT GTGTTGGATC CTCCTTGTTT
    CTCAAGAGAA AGTGGGGCAT TGGGTATCAC TTAAGGATGC AAGTGTCTCC ATCATGTGAC
    GTGGAGCTTA TGACATCGAT CATTAAGCAG CGCATACCCA GTGCTAAGCT CACAGCGCAA
    AATGAAGAGG AGCTTACATA CGCCTTGCCC TTTGAAAATA TGGATGTTTT CCCAGAATTT
    AGATTCTTAT GGATAAGAAG AAACAATACT AAAAATGAAA ATATAGTGTC TCCATCATGT
    GACGTGGAGC TTATGACATC GATCATTAAG CAGCGCATAC CCAGTGCTAA GCTCACAGCG
    CAAAATGAAG AGGAGCTTAC ATACGCCTTG CCCTTTGAAA ATATGGATGT TTTCCCAGAT
    TTATTTAGTC ATTTGGATGG CCAAGTAGGT AACAGCATAG TCAGCTATGG AGTCTCTATG
    ACAACCCTGG ATGATGTATT TTTAAAACTA GAAGGGGAAG GAGAGATAGA AAGTGGAGAT
    TATGATGTTT TTAACCCAGA GTCTAGGACA ACTGAAGACA GAGAGGATAT TTCTGCTGAA
    ATGGAAGAGT CACTTTTACT GATGTCGGAC TCTGGAAATG TGACACTAAG TGGCTGGGAA
    CTGTGGAGAC AACAAGTGTT GGCTGTTGCA AGGATTCGAT TTCTGAAGTT AAGACATGAC
    ACTAAAAGCT TGAGATCTAT ATTGTTACTT CTTGTTCTTT TTATTCTGGC TTCAATTCTA
    AGCATTATAA TGGCTCATAT TTCCAATAAA TTTATTTCTT GGGAACTTAC TCCAAGCCTC
    TACTTTCAAA GTCCTGGTAG TCGACTAAAC AAATACTACA CAGATTTGCT GATTCATAAC
    AACACTGGTT CATCTATTGA TGACTTTATT GGTGCAGTGA AAGAACAGAA TATAGCAGTA
    CAAGTGGCCA ACGGCAAATA TGACATGGAT ACTATAAAGT ACAGAGGAGC AATTGAAGTC
    TCTCAAGCGG AAAAGGGCTA TAATTTTACC ATTGTGGCAA ACCCCAAGGC ACATAATGCA
    CTACCAGTAC TTCTAAATAT CATCAGCAAT GCTCTTTTGA AGGTTTTTAA GGTCTCAGAA
    CATGTCCGTG TGTGGAACCA CCCAATAACT ATGGATGAAA TGGATATACA TCATAAAACA
    TATATATCAA TTATGTTTTT TATGATTTTT GCATCTGGTC TATCCCCTCA CATTGCAATG
    AGCAGCACTG AGGACAACAG GATCAATGCT CGCACTCAGC TGAGGCTCGC TGGTCTCTTT
    CCCTCTGCAT ACTGGTTTGG CCAAGCGCTT GTGGATGTCA TTCTCTATTG GAGTTTACTC
    TTCCTGATGA CGGCCATACT TTTTGCATTT AACAACTACT CCTACTTTCT ATTAAATTTC
    ATCACTGCTA TGGTGATGAT CGCTGGCATG TTCGGCTACG GCATGGCCGT GATCCTGTAT
    GTTTACGTCA TCTCCTTTAT TTTTGGGAAA GGAAAAATCC ACCGGGACAG CTGGTCATTA
    TTCTTTGTTA TAATTACTTT TTTCCCAGCT AGTAATGAAA TATCTATATT TCCCTGGTTC
    TATATATACT TATTCATTTT TCCTGTGACC ACACTATACG GAATCATGGA CTACACTGAA
    GATCTTCAGT TTCTTCAAGA AGCAGACAAT TTTATCTTGC CGTGTACGCC ATACCTGCAT
    ATCATCATAT TCTTTGGGCT ACTTTGGTTT TTGGAATGGA AGTTTGGGTT GAGAAGCCTG
    ACAACTGATC CCTTATTCAG AATCTCCAGA AGAAATATGA CAGTCAAGAA AAATCCAGAA
    GAGCTGGGTA ATGATGTGGA TGAAGATGTG TTGGCAGAAA AAGAGAGAGT AAAAAATGCC
    GCAACCGTTG CCAATGTGGA AGAGAAACCA GTGATTATTG TAGACAGTCT GCGCAAGGAG
    TATAAAGTCA AGAAAAGAGG ATCCTTTTTC AAGAAGAACA GAAAAGCTGC CACTAAAAAC
    ATCTCCTTTT GTGTCAGGAA AGGTGAGGTC CTAGGACTGT TAGGGCCCAA TGGAGCTGGA
    AAAACCACAT CCATGTACAT GCTGGCTGGA GAAGTAAAGC CAACTGCGGG AGAGGTAGTT
    CTCTGTGGGA ATGACCCAGC TGAGTCCACT GGCTTTCTTG GCTACTGTCC CCAAGACAAT
    CCTCTATGGC CCAATCTGAC TGTGAAAGAA CATTTAGAAA TCTATGCTGC TGTGAAGGGC
    ATGAAGAAGG AGGATGCATA TATTGCAATC AATCGAGTTG CAGCAGCCTT GGAGCTTAAA
    GAACATATGG GAAAAGAATC CAGAAAGCTG TCTCTTGGGG AGTCCAGAAA GGTGTGCTTT
    GCCATAAGCA TGATAGGTAA CCCCAACATT GTCCTTCTGG ATGAACCTTC AACTGGACTG
    GACCCTAAAG CTCAGCAGCG TCTTTGGAGA GCTATAAGAG CAGCTTTTAA AAACAAAGAC
    CGAGGAGCAA TTCTGACCAC TCACTACATG GAGGAAGCTG AGGCTGTCTG TGACCGGGTA
    GCCATCATGG TGTCTGGGAA GCTCAGATGC ATTGGGTCAA TCCAGCAGCT GAAGAGCAAG
    TTTGGAAAAG GCTATCTTCT GGAGATTAAA GTAAAAGAGA CTCACCAAGT GGATCAGATT
    CACAATGAGA TAATACGTAT ATTCCCCCAT GCAGCGAGGC AGGACAGATT CTCATCCCTG
    CTTGTCTATA AGATTCCCAT GGATAACGTG CAGTCCTTGT CCCAAGCTTT TCTACTGCTG
    GAGGAAGCTA AACGTGCCTA TAACATTGAG GAATACAGCT TCTCACAGTC TACTTTGGAA
    CAGGTGTTTA TTGAGTTGGC CAAGGAGCAG GAGAAGGAGG ACTTTGAGCT GAACAACACA
    TTTCAATGGA GACACCTGAG GGCAGAAAGT ATCTAA

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

    RefSeq XP_012815580.1
    CDS236..5191
    Translation

    Target ORF information:

    RefSeq Version XM_012960126.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ATP binding cassette subfamily A member 9 (abca9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012960126.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGTGGAAT TAAAATTGAG TGAGACAAGC CTATTCCAGC AGACAGTGGC ATTGTTCTGG 
    AAGAACCTGC TTCTGAAATG GAGGAGGAAG TGGCACAGCA CCTTGGAATG GCTGCAGAAC
    TTGGCCTTTG TGTTCCTGAT GTTTCTAACA ATTGTCATAG GGTTTAATGG ACCCATATTA
    AATGCTGATC TATCCCCTGC ACGGGTTCTT GGCCGTTTGG ATGCGTTTTA CAATTTCTCT
    GTTGGATATG TGCGCACTAC CTCTATATCC AGGGATATCA TGGAGAAGGT GGCCCAAAGC
    ATCATTATAC CTGATGTAAA GGTCGAAGAA TTTGCAGATG AGGAGGAACT AATGAAGGCT
    TTTCATAATA CGTCAATGGT TGCAGTCACC TTTGTGGACA AATTCAGTTA CCATATCCGA
    TACCGGATGC ATGTAATGGG ACATCCAAGT GATTACTTTG CTTTTATGGG TCACTGTGGC
    AATGACTTGT TATACTGCCT TCCTACATAC TACTGGTCAG AGGGCTTCCT TTCTCTGCAA
    GCAAGTATTG ACTCTGCTAT TATTGAAGTT ACCAGCAATC ATTCCGTATG GAACAATATG
    GCTTCTATCG TGGCAATTAA GATGAAATCT GCTCAACTGA CTTATAGACG ACTGGTGCAT
    GTTGCATCAT TTGTATTTGT TATGCCCATG TGCTATGTCT CGCTGATATA CCTATTATCC
    CTCTATGTGA CAAGAGAGAG GTATGAAATG AAGGAGACAC TAAGGCTGAT GCAACTTAAA
    GACTTAGCAT TTTGGTTATC CTGGGGATTG CTTTATGCCG GTTATATATT AATAGTGGCC
    AACCTGATGA CTCTGATCAC AAAACCTTTT ATATTTATGA CAAGTTCCTA TGGTGTCATC
    ATGTTTCTTT TCTTTCTGTA TGGAGTCGCT CTGATGTCAT TCACCTTCAT GCTGAGCGCC
    CTGTTTCGGA GTCCCAGAGC AACAGCCGTT GCTGGGTTTT TCATCACACT CTTCCTTTCT
    GCTGTGGGTC TCGTACTACT AAGAAAAGAT TTTCCTCAAG CTCTTGCAGT CTTATTGAGC
    ATCTTCCCCC AGTTTGCCTT TGCAGTTGGA TTACTGCAGA GTGTTCATAT GGATAGTGAT
    CTAGAAGGTG TCTACTTCTC TGACTTGATG GGGGATTCCT CTCACATGCT ATCCTGCTTT
    ATCAGCCTTG TTCTCGATTT GGTATTTTAC ATGATCCTCA CACTGTATTT TGAAAAAGTT
    CTTGCAGATA AACATGGAGT TAAGCACGAG CCATTGTTTT TCCTAAAAGC TTCTTATTGG
    TCCAAAGAGA AGCCGTCTCC ACTAATGGCA CAAACTGATT ATAGCGGTGA ATCCTCATTG
    GGAGACTTTG TTGAAAAGGT CCCTGATGAT TTACATGGAA AAGAGGCCAT CAGTACAGGT
    CTAGATCTAA ATATCTATGA GGGGCAGATT ACAGCCCTGC TTGGTCATAG CGGAGCTGGT
    AAAACGACAC TACTAAATAT CCTTAGTGGA ATGTATCCAG CTTCTGGCGG ATCTGCAACT
    ATCTGCAATT ATAAACTCTC TAACATGAGG CACTTGGAAG AGATAAAGAA AAGGGTTGGA
    TTTTGCCCAC AGGGTGACAT TAAGTTTGAC CCTTTAACTG TGAAGGAAAA TTTAATGGTC
    TTTGCAATGA TCAAAGGGAT CCCAACAAAG CAAGTAGCAC ATAAGGTCCA AAAAGTTCTG
    TCGGACTTGC AGATGAATGA TATTGAAAAC ACAGAAGCTA TTACATTAAG TGGTGGACAA
    AGAAGAAAAT TAACTTTTGG AATCGCTATT TTAGGAGATC CACAGGTTCT ACTTCTTGAT
    GAACCGACTG CTGGTTTGGA CCCATGTTCC AGGCACCATG TATGGACCAT TTTAAAAGAG
    AACAAAGCAG ATCGAGTCAC ACTCTTCAGC ACTCAGTTTA TGGATGAGGC AGACATCCTT
    GCTGATCGAA AGGCTGTGAT CTCTAAAGGA AGGTTAAAAT GTGTTGGATC CTCCTTGTTT
    CTCAAGAGAA AGTGGGGCAT TGGGTATCAC TTAAGGATGC AAGTGTCTCC ATCATGTGAC
    GTGGAGCTTA TGACATCGAT CATTAAGCAG CGCATACCCA GTGCTAAGCT CACAGCGCAA
    AATGAAGAGG AGCTTACATA CGCCTTGCCC TTTGAAAATA TGGATGTTTT CCCAGAATTT
    AGATTCTTAT GGATAAGAAG AAACAATACT AAAAATGAAA ATATAGTGTC TCCATCATGT
    GACGTGGAGC TTATGACATC GATCATTAAG CAGCGCATAC CCAGTGCTAA GCTCACAGCG
    CAAAATGAAG AGGAGCTTAC ATACGCCTTG CCCTTTGAAA ATATGGATGT TTTCCCAGAT
    TTATTTAGTC ATTTGGATGG CCAAGTAGGT AACAGCATAG TCAGCTATGG AGTCTCTATG
    ACAACCCTGG ATGATGTATT TTTAAAACTA GAAGGGGAAG GAGAGATAGA AAGTGGAGAT
    TATGATGTTT TTAACCCAGA GTCTAGGACA ACTGAAGACA GAGAGGATAT TTCTGCTGAA
    ATGGAAGAGT CACTTTTACT GATGTCGGAC TCTGGAAATG TGACACTAAG TGGCTGGGAA
    CTGTGGAGAC AACAAGTGTT GGCTGTTGCA AGGATTCGAT TTCTGAAGTT AAGACATGAC
    ACTAAAAGCT TGAGATCTAT ATTGTTACTT CTTGTTCTTT TTATTCTGGC TTCAATTCTA
    AGCATTATAA TGGCTCATAT TTCCAATAAA TTTATTTCTT GGGAACTTAC TCCAAGCCTC
    TACTTTCAAA GTCCTGGTAG TCGACTAAAC AAATACTACA CAGATTTGCT GATTCATAAC
    AACACTGGTT CATCTATTGA TGACTTTATT GGTGCAGTGA AAGAACAGAA TATAGCAGTA
    CAAGTGGCCA ACGGCAAATA TGACATGGAT ACTATAAAGT ACAGAGGAGC AATTGAAGTC
    TCTCAAGCGG AAAAGGGCTA TAATTTTACC ATTGTGGCAA ACCCCAAGGC ACATAATGCA
    CTACCAGTAC TTCTAAATAT CATCAGCAAT GCTCTTTTGA AGGTTTTTAA GGTCTCAGAA
    CATGTCCGTG TGTGGAACCA CCCAATAACT ATGGATGAAA TGGATATACA TCATAAAACA
    TATATATCAA TTATGTTTTT TATGATTTTT GCATCTGGTC TATCCCCTCA CATTGCAATG
    AGCAGCACTG AGGACAACAG GATCAATGCT CGCACTCAGC TGAGGCTCGC TGGTCTCTTT
    CCCTCTGCAT ACTGGTTTGG CCAAGCGCTT GTGGATGTCA TTCTCTATTG GAGTTTACTC
    TTCCTGATGA CGGCCATACT TTTTGCATTT AACAACTACT CCTACTTTCT ATTAAATTTC
    ATCACTGCTA TGGTGATGAT CGCTGGCATG TTCGGCTACG GCATGGCCGT GATCCTGTAT
    GTTTACGTCA TCTCCTTTAT TTTTGGGAAA GGAAAAATCC ACCGGGACAG CTGGTCATTA
    TTCTTTGTTA TAATTACTTT TTTCCCAGCT AGTAATGAAA TATCTATATT TCCCTGGTTC
    TATATATACT TATTCATTTT TCCTGTGACC ACACTATACG GAATCATGGA CTACACTGAA
    GATCTTCAGT TTCTTCAAGA AGCAGACAAT TTTATCTTGC CGTGTACGCC ATACCTGCAT
    ATCATCATAT TCTTTGGGCT ACTTTGGTTT TTGGAATGGA AGTTTGGGTT GAGAAGCCTG
    ACAACTGATC CCTTATTCAG AATCTCCAGA AGAAATATGA CAGTCAAGAA AAATCCAGAA
    GAGCTGGGTA ATGATGTGGA TGAAGATGTG TTGGCAGAAA AAGAGAGAGT AAAAAATGCC
    GCAACCGTTG CCAATGTGGA AGAGAAACCA GTGATTATTG TAGACAGTCT GCGCAAGGAG
    TATAAAGTCA AGAAAAGAGG ATCCTTTTTC AAGAAGAACA GAAAAGCTGC CACTAAAAAC
    ATCTCCTTTT GTGTCAGGAA AGGTGAGGTC CTAGGACTGT TAGGGCCCAA TGGAGCTGGA
    AAAACCACAT CCATGTACAT GCTGGCTGGA GAAGTAAAGC CAACTGCGGG AGAGGTAGTT
    CTCTGTGGGA ATGACCCAGC TGAGTCCACT GGCTTTCTTG GCTACTGTCC CCAAGACAAT
    CCTCTATGGC CCAATCTGAC TGTGAAAGAA CATTTAGAAA TCTATGCTGC TGTGAAGGGC
    ATGAAGAAGG AGGATGCATA TATTGCAATC AATCGAGTTG CAGCAGCCTT GGAGCTTAAA
    GAACATATGG GAAAAGAATC CAGAAAGCTG TCTCTTGGGG AGTCCAGAAA GGTGTGCTTT
    GCCATAAGCA TGATAGGTAA CCCCAACATT GTCCTTCTGG ATGAACCTTC AACTGGACTG
    GACCCTAAAG CTCAGCAGCG TCTTTGGAGA GCTATAAGAG CAGCTTTTAA AAACAAAGAC
    CGAGGAGCAA TTCTGACCAC TCACTACATG GAGGAAGCTG AGGCTGTCTG TGACCGGGTA
    GCCATCATGG TGTCTGGGAA GCTCAGATGC ATTGGGTCAA TCCAGCAGCT GAAGAGCAAG
    TTTGGAAAAG GCTATCTTCT GGAGATTAAA GTAAAAGAGA CTCACCAAGT GGATCAGATT
    CACAATGAGA TAATACGTAT ATTCCCCCAT GCAGCGAGGC AGGACAGATT CTCATCCCTG
    CTTGTCTATA AGATTCCCAT GGATAACGTG CAGTCCTTGT CCCAAGCTTT TCTACTGCTG
    GAGGAAGCTA AACGTGCCTA TAACATTGAG GAATACAGCT TCTCACAGTC TACTTTGGAA
    CAGGTGTTTA TTGAGTTGGC CAAGGAGCAG GAGAAGGAGG ACTTTGAGCT GAACAACACA
    TTTCAATGGA GACACCTGAG GGCAGAAAGT ATCTAA

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