ATP10A cDNA ORF clone, Homo sapiens(human)

The following ATP10A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP10A 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
OHu17963 NM_024490.3
Latest version!
Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu85571 XM_017022436.1
Latest version!
Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu85572 XM_011521830.2
Latest version!
Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu70374 XM_011521829.2
Latest version!
Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu70374 XM_017022437.1
Latest version!
Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu17963 XM_005268261.4
Latest version!
Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $384.30
$549.00
OHu17963 XM_011521826.2
Latest version!
Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $384.30
$549.00
OHu70373 XM_011521828.2
Latest version!
Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00

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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 OHu17963
    Clone ID Related Accession (Same CDS sequence) XM_005268261.4 , NM_024490.3 , XM_011521826.2
    Accession Version NM_024490.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4500bp)
    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 2019-12-25
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VA
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB051358.1 and AC023449.11. This sequence is a reference standard in the RefSeqGene project. On Sep 25, 2007 this sequence version replaced NM_024490.2. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC052251.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## imprinted gene :: PMID: 10482951, 11353404, 11326269 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    ATGGAGCGGG AGCCGGCGGG GACCGAGGAG CCCGGGCCTC CGGGACGGCG GAGGCGCCGA 
    GAGGGCAGGA CGCGCACGGT GCGCTCCAAC CTGCTGCCGC CCCCGGGCGC CGAGGACCCT
    GCGGCTGGCG CGGCCAAGGG CGAGCGGCGA CGGCGGCGCG GGTGTGCCCA GCACCTGGCC
    GACAACCGGC TCAAGACTAC CAAGTACACG CTGCTGTCCT TCCTGCCCAA GAACCTGTTC
    GAGCAGTTCC ACCGCCCGGC CAACGTGTAC TTTGTCTTCA TCGCGCTGCT CAACTTCGTG
    CCGGCGGTGA ACGCCTTCCA GCCCGGCCTG GCACTGGCGC CGGTGCTCTT CATCCTGGCC
    ATCACGGCCT TCAGGGACCT GTGGGAGGAC TACAGCCGCC ACCGCTCCGA CCACAAGATC
    AACCACCTGG GCTGCCTGGT CTTCAGCAGG GAAGAAAAGA AATACGTGAA CCGATTCTGG
    AAAGAAATCC ACGTGGGAGA CTTTGTGCGT CTTCGCTGCA ACGAAATCTT CCCTGCGGAC
    ATTCTGCTGC TCTCCTCCAG TGACCCCGAC GGGCTATGCC ACATCGAGAC CGCCAACCTG
    GATGGAGAGA CCAACCTGAA GCGGCGGCAG GTGGTCCGCG GCTTCTCGGA GCTTGTCTCC
    GAATTCAATC CTTTGACGTT CACCAGCGTG ATCGAATGCG AGAAGCCAAA CAACGACCTG
    AGTAGGTTTC GCGGCTGCAT CATACATGAC AACGGGAAAA AGGCCGGGCT GTATAAAGAA
    AACCTGCTGC TGAGGGGCTG CACCCTTAGG AACACGGACG CAGTCGTCGG CATTGTCATC
    TACGCAGGAC ATGAAACCAA GGCTCTGCTG AACAACAGTG GGCCCCGCTA CAAGCGCAGC
    AAGCTGGAGA GGCAGATGAA CTGCGACGTG CTCTGGTGTG TCCTGCTCCT TGTTTGCATG
    TCTCTGTTTT CAGCAGTCGG ACATGGACTG TGGATATGGC GGTATCAAGA GAAGAAGTCA
    TTATTTTATG TCCCCAAGTC TGATGGAAGC TCCTTATCCC CAGTCACAGC TGCAGTTTAC
    TCATTTTTAA CAATGATAAT AGTTCTGCAG GTTTTGATCC CAATTTCCTT ATACGTTTCC
    ATTGAAATTG TTAAAGCATG CCAAGTGTAC TTCATTAACC AGGACATGCA GTTGTATGAC
    GAAGAAACAG ACTCGCAGCT GCAGTGCCGA GCTCTGAACA TCACGGAAGA CTTAGGACAG
    ATACAGTACA TTTTCTCAGA TAAAACTGGC ACTTTGACAG AGAATAAGAT GGTTTTCCGA
    AGATGCACTG TGTCTGGTGT AGAATATTCT CATGATGCAA ATGCGCAGCG TCTGGCCAGG
    TACCAAGAGG CAGACTCGGA GGAGGAGGAG GTGGTGCCCA GAGGGGGCTC GGTGTCCCAG
    CGCGGCAGCA TCGGCAGCCA CCAGAGTGTC CGGGTGGTGC ACAGAACCCA GAGCACCAAG
    TCCCACCGGC GCACGGGCAG CCGGGCCGAG GCCAAGAGGG CCAGCATGCT GTCCAAGCAC
    ACGGCCTTCA GCAGCCCCAT GGAGAAGGAT ATCACGCCCG ACCCAAAGCT GCTGGAGAAG
    GTGAGTGAGT GTGACAAGAG CCTAGCCGTG GCGAGGCATC AGGAGCACCT GCTGGCCCAC
    CTCTCGCCTG AGCTGTCTGA CGTCTTTGAT TTCTTCATCG CACTCACCAT CTGCAACACA
    GTCGTCGTCA CGTCCCCGGA TCAGCCACGA ACAAAGGTGA GGGTGAGGTT TGAGCTGAAG
    TCCCCGGTGA AGACGATAGA AGACTTCCTG CGGAGGTTCA CACCCAGCTG CCTGACCTCA
    GGCTGCAGCA GCATCGGGAG CCTGGCCGCC AACAAGTCCA GCCACAAGTT GGGCTCCAGC
    TTCCCGTCCA CCCCGTCCAG CGACGGCATG CTTCTCAGGC TGGAGGAGAG GCTGGGCCAG
    CCCACCTCGG CCATCGCCAG CAACGGCTAC AGCAGCCAGG CGGACAACTG GGCCTCGGAG
    CTTGCTCAGG AGCAGGAGTC AGAGCGCGAG CTGCGGTACG AGGCGGAGAG CCCGGATGAG
    GCCGCACTGG TGTATGCGGC CAGAGCCTAC AACTGCGTGC TTGTGGAGCG GCTGCACGAC
    CAAGTGTCAG TGGAGCTGCC CCACCTGGGC AGGCTCACCT TCGAGCTCCT GCACACACTG
    GGTTTCGATT CCGTCCGCAA GAGGATGTCA GTGGTGATCC GGCACCCGCT TACCGATGAG
    ATCAACGTCT ACACCAAGGG GGCCGACTCA GTGGTCATGG ATCTCCTGCA GCCCTGCTCT
    TCAGTTGACG CCAGAGGGAG GCATCAAAAA AAGATTCGGA GCAAAACTCA GAATTACCTC
    AACGTGTATG CGGCGGAAGG CCTGCGCACC TTGTGCATCG CCAAGAGAGT TCTGAGTAAA
    GAAGAGTATG CCTGCTGGTT GCAAAGCCAC CTAGAAGCCG AATCCTCCCT GGAAAACAGC
    GAGGAGCTCC TCTTCCAGTC TGCCATTCGC CTGGAGACCA ACCTGCACTT GTTAGGTGCC
    ACTGGGATTG AAGACCGCCT GCAGGACGGA GTCCCTGAAA CTATTTCTAA ATTGCGTCAA
    GCGGGCCTGC AGATTTGGGT TCTCACTGGT GACAAACAAG AAACAGCTGT CAACATTGCA
    TATGCCTGCA AACTGCTGGA CCACGACGAG GAGGTCATCA CCCTGAATGC CACCTCCCAG
    GAGGCGTGTG CAGCCCTGCT AGACCAGTGC CTATGCTACG TGCAGTCCAG AGGCCTCCAG
    AGAGCCCCTG AGAAGACCAA GGGCAAAGTG AGCATGAGGT TCTCCTCTCT CTGCCCACCC
    TCCACGTCCA CTGCCTCTGG CCGCAGACCC AGCCTCGTGA TCGATGGGAG AAGCCTGGCC
    TACGCTCTCG AGAAAAACCT GGAGGACAAA TTCCTCTTCC TTGCCAAGCA GTGCCGCTCC
    GTCCTCTGCT GTCGGTCGAC GCCTCTGCAG AAGAGCATGG TGGTGAAGCT GGTGCGGAGC
    AAGCTCAAGG CCATGACCCT GGCCATAGGT GATGGAGCCA ATGATGTCAG CATGATCCAG
    GTGGCAGATG TGGGTGTGGG AATCTCCGGC CAGGAGGGTA TGCAGGCAGT GATGGCCAGC
    GACTTTGCAG TGCCGAAATT CCGATACCTG GAGAGGCTCT TGATTCTTCA CGGGCATTGG
    TGCTACTCCC GACTTGCCAA CATGGTGCTG TACTTCTTCT ACAAAAACAC AATGTTCGTG
    GGCCTCCTGT TTTGGTTCCA GTTTTTCTGT GGCTTCTCTG CATCTACCAT GATTGACCAG
    TGGTATCTAA TCTTCTTTAA TCTGCTCTTC TCGTCACTTC CCCCGCTCGT GACTGGGGTG
    CTGGACAGGG ATGTGCCAGC CAATGTGCTG CTGACCAACC CGCAGCTCTA CAAGAGTGGC
    CAGAACATGG AGGAATACCG GCCACGAACG TTCTGGTTTA ACATGGCCGA CGCCGCCTTC
    CAGAGCCTGG TTTGCTTTTC CATTCCTTAC CTGGCCTACT ATGACTCGAA CGTGGACCTG
    TTTACCTGGG GGACCCCTAT TGTGACAATC GCGCTGCTCA CTTTCCTGCT CCACCTGGGC
    ATTGAAACCA AAACCTGGAC CTGGCTCAAC TGGATAACGT GTGGCTTCAG TGTCCTTTTG
    TTTTTCACCG TGGCTTTGAT TTACAATGCG TCTTGTGCCA CGTGCTATCC TCCGTCCAAC
    CCTTACTGGA CTATGCAAGC CTTACTGGGT GACCCAGTGT TTTACTTGAC TTGCCTGATG
    ACGCCTGTCG CTGCACTGCT GCCCAGATTG TTTTTCAGAT CCCTCCAGGG GAGGGTTTTC
    CCCACACAAC TTCAGCTGGC ACGTCAGTTG ACCAGGAAGT CCCCCAGGAG ATGCAGTGCT
    CCCAAAGAGA CCTTTGCTCA GGGACGCCTC CCGAAGGACT CGGGAACCGA GCACTCATCA
    GGGAGGACAG TCAAGACCTC TGTGCCCCTG TCCCAGCCTT CTTGGCACAC ACAGCAGCCG
    GTCTGCTCCC TGGAGGCCAG CGGGGAGCCC AGCACAGTGG ACATGAGCAT GCCAGTGAGG
    GAGCACACCC TGCTGGAGGG GCTGAGCGCA CCGGCCCCCA TGTCCTCTGC GCCAGGGGAG
    GCTGTCCTGA GGAGTCCAGG AGGGTGTCCT GAGGAGTCCA AGGTGAGAGC TGCCAGCACC
    GGCAGGGTGA CCCCCCTGTC TTCCCTCTTC AGCCTGCCTA CCTTCAGCTT ACTCAACTGG
    ATTTCCTCCT GGTCGCTGGT CAGCAGGCTG GGGAGTGTCT TACAGTTCTC CCGGACGGAG
    CAGCTTGCAG ATGGACAAGC GGGACGTGGA CTTCCTGTCC AGCCCCACTC AGGCCGATCA
    GGACTTCAAG GGCCAGACCA CAGACTACTT ATAGGAGCAT CTTCAAGGCG GTCACAGTGA

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

    RefSeq NP_077816.1
    CDS107..4606
    Translation

    Target ORF information:

    RefSeq Version NM_024490.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_024490.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGCGGG AGCCGGCGGG GACCGAGGAG CCCGGGCCTC CGGGACGGCG GAGGCGCCGA 
    GAGGGCAGGA CGCGCACGGT GCGCTCCAAC CTGCTGCCGC CCCCGGGCGC CGAGGACCCT
    GCGGCTGGCG CGGCCAAGGG CGAGCGGCGA CGGCGGCGCG GGTGTGCCCA GCACCTGGCC
    GACAACCGGC TCAAGACTAC CAAGTACACG CTGCTGTCCT TCCTGCCCAA GAACCTGTTC
    GAGCAGTTCC ACCGCCCGGC CAACGTGTAC TTTGTCTTCA TCGCGCTGCT CAACTTCGTG
    CCGGCGGTGA ACGCCTTCCA GCCCGGCCTG GCACTGGCGC CGGTGCTCTT CATCCTGGCC
    ATCACGGCCT TCAGGGACCT GTGGGAGGAC TACAGCCGCC ACCGCTCCGA CCACAAGATC
    AACCACCTGG GCTGCCTGGT CTTCAGCAGG GAAGAAAAGA AATACGTGAA CCGATTCTGG
    AAAGAAATCC ACGTGGGAGA CTTTGTGCGT CTTCGCTGCA ACGAAATCTT CCCTGCGGAC
    ATTCTGCTGC TCTCCTCCAG TGACCCCGAC GGGCTATGCC ACATCGAGAC CGCCAACCTG
    GATGGAGAGA CCAACCTGAA GCGGCGGCAG GTGGTCCGCG GCTTCTCGGA GCTTGTCTCC
    GAATTCAATC CTTTGACGTT CACCAGCGTG ATCGAATGCG AGAAGCCAAA CAACGACCTG
    AGTAGGTTTC GCGGCTGCAT CATACATGAC AACGGGAAAA AGGCCGGGCT GTATAAAGAA
    AACCTGCTGC TGAGGGGCTG CACCCTTAGG AACACGGACG CAGTCGTCGG CATTGTCATC
    TACGCAGGAC ATGAAACCAA GGCTCTGCTG AACAACAGTG GGCCCCGCTA CAAGCGCAGC
    AAGCTGGAGA GGCAGATGAA CTGCGACGTG CTCTGGTGTG TCCTGCTCCT TGTTTGCATG
    TCTCTGTTTT CAGCAGTCGG ACATGGACTG TGGATATGGC GGTATCAAGA GAAGAAGTCA
    TTATTTTATG TCCCCAAGTC TGATGGAAGC TCCTTATCCC CAGTCACAGC TGCAGTTTAC
    TCATTTTTAA CAATGATAAT AGTTCTGCAG GTTTTGATCC CAATTTCCTT ATACGTTTCC
    ATTGAAATTG TTAAAGCATG CCAAGTGTAC TTCATTAACC AGGACATGCA GTTGTATGAC
    GAAGAAACAG ACTCGCAGCT GCAGTGCCGA GCTCTGAACA TCACGGAAGA CTTAGGACAG
    ATACAGTACA TTTTCTCAGA TAAAACTGGC ACTTTGACAG AGAATAAGAT GGTTTTCCGA
    AGATGCACTG TGTCTGGTGT AGAATATTCT CATGATGCAA ATGCGCAGCG TCTGGCCAGG
    TACCAAGAGG CAGACTCGGA GGAGGAGGAG GTGGTGCCCA GAGGGGGCTC GGTGTCCCAG
    CGCGGCAGCA TCGGCAGCCA CCAGAGTGTC CGGGTGGTGC ACAGAACCCA GAGCACCAAG
    TCCCACCGGC GCACGGGCAG CCGGGCCGAG GCCAAGAGGG CCAGCATGCT GTCCAAGCAC
    ACGGCCTTCA GCAGCCCCAT GGAGAAGGAT ATCACGCCCG ACCCAAAGCT GCTGGAGAAG
    GTGAGTGAGT GTGACAAGAG CCTAGCCGTG GCGAGGCATC AGGAGCACCT GCTGGCCCAC
    CTCTCGCCTG AGCTGTCTGA CGTCTTTGAT TTCTTCATCG CACTCACCAT CTGCAACACA
    GTCGTCGTCA CGTCCCCGGA TCAGCCACGA ACAAAGGTGA GGGTGAGGTT TGAGCTGAAG
    TCCCCGGTGA AGACGATAGA AGACTTCCTG CGGAGGTTCA CACCCAGCTG CCTGACCTCA
    GGCTGCAGCA GCATCGGGAG CCTGGCCGCC AACAAGTCCA GCCACAAGTT GGGCTCCAGC
    TTCCCGTCCA CCCCGTCCAG CGACGGCATG CTTCTCAGGC TGGAGGAGAG GCTGGGCCAG
    CCCACCTCGG CCATCGCCAG CAACGGCTAC AGCAGCCAGG CGGACAACTG GGCCTCGGAG
    CTTGCTCAGG AGCAGGAGTC AGAGCGCGAG CTGCGGTACG AGGCGGAGAG CCCGGATGAG
    GCCGCACTGG TGTATGCGGC CAGAGCCTAC AACTGCGTGC TTGTGGAGCG GCTGCACGAC
    CAAGTGTCAG TGGAGCTGCC CCACCTGGGC AGGCTCACCT TCGAGCTCCT GCACACACTG
    GGTTTCGATT CCGTCCGCAA GAGGATGTCA GTGGTGATCC GGCACCCGCT TACCGATGAG
    ATCAACGTCT ACACCAAGGG GGCCGACTCA GTGGTCATGG ATCTCCTGCA GCCCTGCTCT
    TCAGTTGACG CCAGAGGGAG GCATCAAAAA AAGATTCGGA GCAAAACTCA GAATTACCTC
    AACGTGTATG CGGCGGAAGG CCTGCGCACC TTGTGCATCG CCAAGAGAGT TCTGAGTAAA
    GAAGAGTATG CCTGCTGGTT GCAAAGCCAC CTAGAAGCCG AATCCTCCCT GGAAAACAGC
    GAGGAGCTCC TCTTCCAGTC TGCCATTCGC CTGGAGACCA ACCTGCACTT GTTAGGTGCC
    ACTGGGATTG AAGACCGCCT GCAGGACGGA GTCCCTGAAA CTATTTCTAA ATTGCGTCAA
    GCGGGCCTGC AGATTTGGGT TCTCACTGGT GACAAACAAG AAACAGCTGT CAACATTGCA
    TATGCCTGCA AACTGCTGGA CCACGACGAG GAGGTCATCA CCCTGAATGC CACCTCCCAG
    GAGGCGTGTG CAGCCCTGCT AGACCAGTGC CTATGCTACG TGCAGTCCAG AGGCCTCCAG
    AGAGCCCCTG AGAAGACCAA GGGCAAAGTG AGCATGAGGT TCTCCTCTCT CTGCCCACCC
    TCCACGTCCA CTGCCTCTGG CCGCAGACCC AGCCTCGTGA TCGATGGGAG AAGCCTGGCC
    TACGCTCTCG AGAAAAACCT GGAGGACAAA TTCCTCTTCC TTGCCAAGCA GTGCCGCTCC
    GTCCTCTGCT GTCGGTCGAC GCCTCTGCAG AAGAGCATGG TGGTGAAGCT GGTGCGGAGC
    AAGCTCAAGG CCATGACCCT GGCCATAGGT GATGGAGCCA ATGATGTCAG CATGATCCAG
    GTGGCAGATG TGGGTGTGGG AATCTCCGGC CAGGAGGGTA TGCAGGCAGT GATGGCCAGC
    GACTTTGCAG TGCCGAAATT CCGATACCTG GAGAGGCTCT TGATTCTTCA CGGGCATTGG
    TGCTACTCCC GACTTGCCAA CATGGTGCTG TACTTCTTCT ACAAAAACAC AATGTTCGTG
    GGCCTCCTGT TTTGGTTCCA GTTTTTCTGT GGCTTCTCTG CATCTACCAT GATTGACCAG
    TGGTATCTAA TCTTCTTTAA TCTGCTCTTC TCGTCACTTC CCCCGCTCGT GACTGGGGTG
    CTGGACAGGG ATGTGCCAGC CAATGTGCTG CTGACCAACC CGCAGCTCTA CAAGAGTGGC
    CAGAACATGG AGGAATACCG GCCACGAACG TTCTGGTTTA ACATGGCCGA CGCCGCCTTC
    CAGAGCCTGG TTTGCTTTTC CATTCCTTAC CTGGCCTACT ATGACTCGAA CGTGGACCTG
    TTTACCTGGG GGACCCCTAT TGTGACAATC GCGCTGCTCA CTTTCCTGCT CCACCTGGGC
    ATTGAAACCA AAACCTGGAC CTGGCTCAAC TGGATAACGT GTGGCTTCAG TGTCCTTTTG
    TTTTTCACCG TGGCTTTGAT TTACAATGCG TCTTGTGCCA CGTGCTATCC TCCGTCCAAC
    CCTTACTGGA CTATGCAAGC CTTACTGGGT GACCCAGTGT TTTACTTGAC TTGCCTGATG
    ACGCCTGTCG CTGCACTGCT GCCCAGATTG TTTTTCAGAT CCCTCCAGGG GAGGGTTTTC
    CCCACACAAC TTCAGCTGGC ACGTCAGTTG ACCAGGAAGT CCCCCAGGAG ATGCAGTGCT
    CCCAAAGAGA CCTTTGCTCA GGGACGCCTC CCGAAGGACT CGGGAACCGA GCACTCATCA
    GGGAGGACAG TCAAGACCTC TGTGCCCCTG TCCCAGCCTT CTTGGCACAC ACAGCAGCCG
    GTCTGCTCCC TGGAGGCCAG CGGGGAGCCC AGCACAGTGG ACATGAGCAT GCCAGTGAGG
    GAGCACACCC TGCTGGAGGG GCTGAGCGCA CCGGCCCCCA TGTCCTCTGC GCCAGGGGAG
    GCTGTCCTGA GGAGTCCAGG AGGGTGTCCT GAGGAGTCCA AGGTGAGAGC TGCCAGCACC
    GGCAGGGTGA CCCCCCTGTC TTCCCTCTTC AGCCTGCCTA CCTTCAGCTT ACTCAACTGG
    ATTTCCTCCT GGTCGCTGGT CAGCAGGCTG GGGAGTGTCT TACAGTTCTC CCGGACGGAG
    CAGCTTGCAG ATGGACAAGC GGGACGTGGA CTTCCTGTCC AGCCCCACTC AGGCCGATCA
    GGACTTCAAG GGCCAGACCA CAGACTACTT ATAGGAGCAT CTTCAAGGCG GTCACAGTGA

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

    CloneID OHu85571
    Clone ID Related Accession (Same CDS sequence) XM_017022436.1
    Accession Version XM_017022436.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4059bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VA isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGCTTGGGG AAGAAAAGAA ATACGTGAAC CGATTCTGGA AAGAAATCCA CGTGGGAGAC 
    TTTGTGCGTC TTCGCTGCAA CGAAATCTTC CCTGCGGACA TTCTGCTGCT CTCCTCCAGT
    GACCCCGACG GGCTATGCCA CATCGAGACC GCCAACCTGG ATGGAGAGAC CAACCTGAAG
    CGGCGGCAGG TGGTCCGCGG CTTCTCGGAG CTTGTCTCCG AATTCAATCC TTTGACGTTC
    ACCAGCGTGA TCGAATGCGA GAAGCCAAAC AACGACCTGA GTAGGTTTCG CGGCTGCATC
    ATACATGACA ACGGGAAAAA GGCCGGGCTG TATAAAGAAA ACCTGCTGCT GAGGGGCTGC
    ACCCTTAGGA ACACGGACGC AGTCGTCGGC ATTGTCATCT ACGCAGGACA TGAAACCAAG
    GCTCTGCTGA ACAACAGTGG GCCCCGCTAC AAGCGCAGCA AGCTGGAGAG GCAGATGAAC
    TGCGACGTGC TCTGGTGTGT CCTGCTCCTT GTTTGCATGT CTCTGTTTTC AGCAGTCGGA
    CATGGACTGT GGATATGGCG GTATCAAGAG AAGAAGTCAT TATTTTATGT CCCCAAGTCT
    GATGGAAGCT CCTTATCCCC AGTCACAGCT GCAGTTTACT CATTTTTAAC AATGATAATA
    GTTCTGCAGG TTTTGATCCC AATTTCCTTA TACGTTTCCA TTGAAATTGT TAAAGCATGC
    CAAGTGTACT TCATTAACCA GGACATGCAG TTGTATGACG AAGAAACAGA CTCGCAGCTG
    CAGTGCCGAG CTCTGAACAT CACGGAAGAC TTAGGACAGA TACAGTACAT TTTCTCAGAT
    AAAACTGGCA CTTTGACAGA GAATAAGATG GTTTTCCGAA GATGCACTGT GTCTGGTGTA
    GAATATTCTC ATGATGCAAA TGCGCAGCGT CTGGCCAGGT ACCAAGAGGC AGACTCGGAG
    GAGGAGGAGG TGGTGCCCAG AGGGGGCTCG GTGTCCCAGC GCGGCAGCAT CGGCAGCCAC
    CAGAGTGTCC GGGTGGTGCA CAGAACCCAG AGCACCAAGT CCCACCGGCG CACGGGCAGC
    CGGGCCGAGG CCAAGAGGGC CAGCATGCTG TCCAAGCACA CGGCCTTCAG CAGCCCCATG
    GAGAAGGATA TCACGCCCGA CCCAAAGCTG CTGGAGAAGG TGAGTGAGTG TGACAAGAGC
    CTAGCCGTGG CGAGGCATCA GGAGCACCTG CTGGCCCACC TCTCGCCTGA GCTGTCTGAC
    GTCTTTGATT TCTTCATCGC ACTCACCATC TGCAACACAG TCGTCGTCAC GTCCCCGGAT
    CAGCCACGAA CAAAGGTGAG GGTGAGGTTT GAGCTGAAGT CCCCGGTGAA GACGATAGAA
    GACTTCCTGC GGAGGTTCAC ACCCAGCTGC CTGACCTCAG GCTGCAGCAG CATCGGGAGC
    CTGGCCGCCA ACAAGTCCAG CCACAAGTTG GGCTCCAGCT TCCCGTCCAC CCCGTCCAGC
    GACGGCATGC TTCTCAGGCT GGAGGAGAGG CTGGGCCAGC CCACCTCGGC CATCGCCAGC
    AACGGCTACA GCAGCCAGGC GGACAACTGG GCCTCGGAGC TTGCTCAGGA GCAGGAGTCA
    GAGCGCGAGC TGCGGTACGA GGCGGAGAGC CCGGATGAGG CCGCACTGGT GTATGCGGCC
    AGAGCCTACA ACTGCGTGCT TGTGGAGCGG CTGCACGACC AAGTGTCAGT GGAGCTGCCC
    CACCTGGGCA GGCTCACCTT CGAGCTCCTG CACACACTGG GTTTCGATTC CGTCCGCAAG
    AGGATGTCAG TGGTGATCCG GCACCCGCTT ACCGATGAGA TCAACGTCTA CACCAAGGGG
    GCCGACTCAG TGGTCATGGA TCTCCTGCAG CCCTGCTCTT CAGTTGACGC CAGAGGGAGG
    CATCAAAAAA AGATTCGGAG CAAAACTCAG AATTACCTCA ACGTGTATGC GGCGGAAGGC
    CTGCGCACCT TGTGCATCGC CAAGAGAGTT CTGAGTAAAG AAGAGTATGC CTGCTGGTTG
    CAAAGCCACC TAGAAGCCGA ATCCTCCCTG GAAAACAGCG AGGAGCTCCT CTTCCAGTCT
    GCCATTCGCC TGGAGACCAA CCTGCACTTG TTAGGTGCCA CTGGGATTGA AGACCGCCTG
    CAGGACGGAG TCCCTGAAAC TATTTCTAAA TTGCGTCAAG CGGGCCTGCA GATTTGGGTT
    CTCACTGGTG ACAAACAAGA AACAGCTGTC AACATTGCAT ATGCCTGCAA ACTGCTGGAC
    CACGACGAGG AGGTCATCAC CCTGAATGCC ACCTCCCAGG AGGCGTGTGC AGCCCTGCTA
    GACCAGTGCC TATGCTACGT GCAGTCCAGA GGCCTCCAGA GAGCCCCTGA GAAGACCAAG
    GGCAAAGTGA GCATGAGGTT CTCCTCTCTC TGCCCACCCT CCACGTCCAC TGCCTCTGGC
    CGCAGACCCA GCCTCGTGAT CGATGGGAGA AGCCTGGCCT ACGCTCTCGA GAAAAACCTG
    GAGGACAAAT TCCTCTTCCT TGCCAAGCAG TGCCGCTCCG TCCTCTGCTG TCGGTCGACG
    CCTCTGCAGA AGAGCATGGT GGTGAAGCTG GTGCGGAGCA AGCTCAAGGC CATGACCCTG
    GCCATAGGTG ATGGAGCCAA TGATGTCAGC ATGATCCAGG TGGCAGATGT GGGTGTGGGA
    ATCTCCGGCC AGGAGGGTAT GCAGGCAGTG ATGGCCAGCG ACTTTGCAGT GCCGAAATTC
    CGATACCTGG AGAGGCTCTT GATTCTTCAC GGGCATTGGT GCTACTCCCG ACTTGCCAAC
    ATGGTGCTGT ACTTCTTCTA CAAAAACACA ATGTTCGTGG GCCTCCTGTT TTGGTTCCAG
    TTTTTCTGTG GCTTCTCTGC ATCTACCATG ATTGACCAGT GGTATCTAAT CTTCTTTAAT
    CTGCTCTTCT CGTCACTTCC CCCGCTCGTG ACTGGGGTGC TGGACAGGGA TGTGCCAGCC
    AATGTGCTGC TGACCAACCC GCAGCTCTAC AAGAGTGGCC AGAACATGGA GGAATACCGG
    CCACGAACGT TCTGGTTTAA CATGGCCGAC GCCGCCTTCC AGAGCCTGGT TTGCTTTTCC
    ATTCCTTACC TGGCCTACTA TGACTCGAAC GTGGACCTGT TTACCTGGGG GACCCCTATT
    GTGACAATCG CGCTGCTCAC TTTCCTGCTC CACCTGGGCA TTGAAACCAA AACCTGGACC
    TGGCTCAACT GGATAACGTG TGGCTTCAGT GTCCTTTTGT TTTTCACCGT GGCTTTGATT
    TACAATGCGT CTTGTGCCAC GTGCTATCCT CCGTCCAACC CTTACTGGAC TATGCAAGCC
    TTACTGGGTG ACCCAGTGTT TTACTTGACT TGCCTGATGA CGCCTGTCGC TGCACTGCTG
    CCCAGATTGT TTTTCAGATC CCTCCAGGGG AGGGTTTTCC CCACACAACT TCAGCTGGCA
    CGTCAGTTGA CCAGGAAGTC CCCCAGGAGA TGCAGTGCTC CCAAAGAGAC CTTTGCTCAG
    GGACGCCTCC CGAAGGACTC GGGAACCGAG CACTCATCAG GGAGGACAGT CAAGACCTCT
    GTGCCCCTGT CCCAGCCTTC TTGGCACACA CAGCAGCCGG TCTGCTCCCT GGAGGCCAGC
    GGGGAGCCCA GCACAGTGGA CATGAGCATG CCAGTGAGGG AGCACACCCT GCTGGAGGGG
    CTGAGCGCAC CGGCCCCCAT GTCCTCTGCG CCAGGGGAGG CTGTCCTGAG GAGTCCAGGA
    GGGTGTCCTG AGGAGTCCAA GGTGAGAGCT GCCAGCACCG GCAGGGTGAC CCCCCTGTCT
    TCCCTCTTCA GCCTGCCTAC CTTCAGCTTA CTCAACTGGA TTTCCTCCTG GTCGCTGGTC
    AGCAGGCTGG GGAGTGTCTT ACAGTTCTCC CGGACGGAGC AGCTTGCAGA TGGACAAGCG
    GGACGTGGAC TTCCTGTCCA GCCCCACTCA GGCCGATCAG GACTTCAAGG GCCAGACCAC
    AGACTACTTA TAGGAGCATC TTCAAGGCGG TCACAGTGA

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

    RefSeq XP_016877925.1
    CDS184..4242
    Translation

    Target ORF information:

    RefSeq Version XM_017022436.1
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017022436.1

    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
    ATGCTTGGGG AAGAAAAGAA ATACGTGAAC CGATTCTGGA AAGAAATCCA CGTGGGAGAC 
    TTTGTGCGTC TTCGCTGCAA CGAAATCTTC CCTGCGGACA TTCTGCTGCT CTCCTCCAGT
    GACCCCGACG GGCTATGCCA CATCGAGACC GCCAACCTGG ATGGAGAGAC CAACCTGAAG
    CGGCGGCAGG TGGTCCGCGG CTTCTCGGAG CTTGTCTCCG AATTCAATCC TTTGACGTTC
    ACCAGCGTGA TCGAATGCGA GAAGCCAAAC AACGACCTGA GTAGGTTTCG CGGCTGCATC
    ATACATGACA ACGGGAAAAA GGCCGGGCTG TATAAAGAAA ACCTGCTGCT GAGGGGCTGC
    ACCCTTAGGA ACACGGACGC AGTCGTCGGC ATTGTCATCT ACGCAGGACA TGAAACCAAG
    GCTCTGCTGA ACAACAGTGG GCCCCGCTAC AAGCGCAGCA AGCTGGAGAG GCAGATGAAC
    TGCGACGTGC TCTGGTGTGT CCTGCTCCTT GTTTGCATGT CTCTGTTTTC AGCAGTCGGA
    CATGGACTGT GGATATGGCG GTATCAAGAG AAGAAGTCAT TATTTTATGT CCCCAAGTCT
    GATGGAAGCT CCTTATCCCC AGTCACAGCT GCAGTTTACT CATTTTTAAC AATGATAATA
    GTTCTGCAGG TTTTGATCCC AATTTCCTTA TACGTTTCCA TTGAAATTGT TAAAGCATGC
    CAAGTGTACT TCATTAACCA GGACATGCAG TTGTATGACG AAGAAACAGA CTCGCAGCTG
    CAGTGCCGAG CTCTGAACAT CACGGAAGAC TTAGGACAGA TACAGTACAT TTTCTCAGAT
    AAAACTGGCA CTTTGACAGA GAATAAGATG GTTTTCCGAA GATGCACTGT GTCTGGTGTA
    GAATATTCTC ATGATGCAAA TGCGCAGCGT CTGGCCAGGT ACCAAGAGGC AGACTCGGAG
    GAGGAGGAGG TGGTGCCCAG AGGGGGCTCG GTGTCCCAGC GCGGCAGCAT CGGCAGCCAC
    CAGAGTGTCC GGGTGGTGCA CAGAACCCAG AGCACCAAGT CCCACCGGCG CACGGGCAGC
    CGGGCCGAGG CCAAGAGGGC CAGCATGCTG TCCAAGCACA CGGCCTTCAG CAGCCCCATG
    GAGAAGGATA TCACGCCCGA CCCAAAGCTG CTGGAGAAGG TGAGTGAGTG TGACAAGAGC
    CTAGCCGTGG CGAGGCATCA GGAGCACCTG CTGGCCCACC TCTCGCCTGA GCTGTCTGAC
    GTCTTTGATT TCTTCATCGC ACTCACCATC TGCAACACAG TCGTCGTCAC GTCCCCGGAT
    CAGCCACGAA CAAAGGTGAG GGTGAGGTTT GAGCTGAAGT CCCCGGTGAA GACGATAGAA
    GACTTCCTGC GGAGGTTCAC ACCCAGCTGC CTGACCTCAG GCTGCAGCAG CATCGGGAGC
    CTGGCCGCCA ACAAGTCCAG CCACAAGTTG GGCTCCAGCT TCCCGTCCAC CCCGTCCAGC
    GACGGCATGC TTCTCAGGCT GGAGGAGAGG CTGGGCCAGC CCACCTCGGC CATCGCCAGC
    AACGGCTACA GCAGCCAGGC GGACAACTGG GCCTCGGAGC TTGCTCAGGA GCAGGAGTCA
    GAGCGCGAGC TGCGGTACGA GGCGGAGAGC CCGGATGAGG CCGCACTGGT GTATGCGGCC
    AGAGCCTACA ACTGCGTGCT TGTGGAGCGG CTGCACGACC AAGTGTCAGT GGAGCTGCCC
    CACCTGGGCA GGCTCACCTT CGAGCTCCTG CACACACTGG GTTTCGATTC CGTCCGCAAG
    AGGATGTCAG TGGTGATCCG GCACCCGCTT ACCGATGAGA TCAACGTCTA CACCAAGGGG
    GCCGACTCAG TGGTCATGGA TCTCCTGCAG CCCTGCTCTT CAGTTGACGC CAGAGGGAGG
    CATCAAAAAA AGATTCGGAG CAAAACTCAG AATTACCTCA ACGTGTATGC GGCGGAAGGC
    CTGCGCACCT TGTGCATCGC CAAGAGAGTT CTGAGTAAAG AAGAGTATGC CTGCTGGTTG
    CAAAGCCACC TAGAAGCCGA ATCCTCCCTG GAAAACAGCG AGGAGCTCCT CTTCCAGTCT
    GCCATTCGCC TGGAGACCAA CCTGCACTTG TTAGGTGCCA CTGGGATTGA AGACCGCCTG
    CAGGACGGAG TCCCTGAAAC TATTTCTAAA TTGCGTCAAG CGGGCCTGCA GATTTGGGTT
    CTCACTGGTG ACAAACAAGA AACAGCTGTC AACATTGCAT ATGCCTGCAA ACTGCTGGAC
    CACGACGAGG AGGTCATCAC CCTGAATGCC ACCTCCCAGG AGGCGTGTGC AGCCCTGCTA
    GACCAGTGCC TATGCTACGT GCAGTCCAGA GGCCTCCAGA GAGCCCCTGA GAAGACCAAG
    GGCAAAGTGA GCATGAGGTT CTCCTCTCTC TGCCCACCCT CCACGTCCAC TGCCTCTGGC
    CGCAGACCCA GCCTCGTGAT CGATGGGAGA AGCCTGGCCT ACGCTCTCGA GAAAAACCTG
    GAGGACAAAT TCCTCTTCCT TGCCAAGCAG TGCCGCTCCG TCCTCTGCTG TCGGTCGACG
    CCTCTGCAGA AGAGCATGGT GGTGAAGCTG GTGCGGAGCA AGCTCAAGGC CATGACCCTG
    GCCATAGGTG ATGGAGCCAA TGATGTCAGC ATGATCCAGG TGGCAGATGT GGGTGTGGGA
    ATCTCCGGCC AGGAGGGTAT GCAGGCAGTG ATGGCCAGCG ACTTTGCAGT GCCGAAATTC
    CGATACCTGG AGAGGCTCTT GATTCTTCAC GGGCATTGGT GCTACTCCCG ACTTGCCAAC
    ATGGTGCTGT ACTTCTTCTA CAAAAACACA ATGTTCGTGG GCCTCCTGTT TTGGTTCCAG
    TTTTTCTGTG GCTTCTCTGC ATCTACCATG ATTGACCAGT GGTATCTAAT CTTCTTTAAT
    CTGCTCTTCT CGTCACTTCC CCCGCTCGTG ACTGGGGTGC TGGACAGGGA TGTGCCAGCC
    AATGTGCTGC TGACCAACCC GCAGCTCTAC AAGAGTGGCC AGAACATGGA GGAATACCGG
    CCACGAACGT TCTGGTTTAA CATGGCCGAC GCCGCCTTCC AGAGCCTGGT TTGCTTTTCC
    ATTCCTTACC TGGCCTACTA TGACTCGAAC GTGGACCTGT TTACCTGGGG GACCCCTATT
    GTGACAATCG CGCTGCTCAC TTTCCTGCTC CACCTGGGCA TTGAAACCAA AACCTGGACC
    TGGCTCAACT GGATAACGTG TGGCTTCAGT GTCCTTTTGT TTTTCACCGT GGCTTTGATT
    TACAATGCGT CTTGTGCCAC GTGCTATCCT CCGTCCAACC CTTACTGGAC TATGCAAGCC
    TTACTGGGTG ACCCAGTGTT TTACTTGACT TGCCTGATGA CGCCTGTCGC TGCACTGCTG
    CCCAGATTGT TTTTCAGATC CCTCCAGGGG AGGGTTTTCC CCACACAACT TCAGCTGGCA
    CGTCAGTTGA CCAGGAAGTC CCCCAGGAGA TGCAGTGCTC CCAAAGAGAC CTTTGCTCAG
    GGACGCCTCC CGAAGGACTC GGGAACCGAG CACTCATCAG GGAGGACAGT CAAGACCTCT
    GTGCCCCTGT CCCAGCCTTC TTGGCACACA CAGCAGCCGG TCTGCTCCCT GGAGGCCAGC
    GGGGAGCCCA GCACAGTGGA CATGAGCATG CCAGTGAGGG AGCACACCCT GCTGGAGGGG
    CTGAGCGCAC CGGCCCCCAT GTCCTCTGCG CCAGGGGAGG CTGTCCTGAG GAGTCCAGGA
    GGGTGTCCTG AGGAGTCCAA GGTGAGAGCT GCCAGCACCG GCAGGGTGAC CCCCCTGTCT
    TCCCTCTTCA GCCTGCCTAC CTTCAGCTTA CTCAACTGGA TTTCCTCCTG GTCGCTGGTC
    AGCAGGCTGG GGAGTGTCTT ACAGTTCTCC CGGACGGAGC AGCTTGCAGA TGGACAAGCG
    GGACGTGGAC TTCCTGTCCA GCCCCACTCA GGCCGATCAG GACTTCAAGG GCCAGACCAC
    AGACTACTTA TAGGAGCATC TTCAAGGCGG TCACAGTGA

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

    CloneID OHu85572
    Clone ID Related Accession (Same CDS sequence) XM_011521830.2
    Accession Version XM_011521830.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3324bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VA isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011521830.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGATGCAAA TGGGCAACAT CACAGTCAAG ATCATCTTGG ATGGAGTTTC AAAGCTGAGT 
    CCAAACCCTA GCTGTAGGGG TCCAAGCTGT GCAATCTGGG AGTGTGAGCC CCCCTGTGCC
    ATAGCATTTC ATCCAGACAG GAGCAGATGG TGGCCACCGT CCATGTGGGC AAGGAGCTCA
    GCACCAGCGC AGCGTCTGGC CAGGTACCAA GAGGCAGACT CGGAGGAGGA GGAGGTGGTG
    CCCAGAGGGG GCTCGGTGTC CCAGCGCGGC AGCATCGGCA GCCACCAGAG TGTCCGGGTG
    GTGCACAGAA CCCAGAGCAC CAAGTCCCAC CGGCGCACGG GCAGCCGGGC CGAGGCCAAG
    AGGGCCAGCA TGCTGTCCAA GCACACGGCC TTCAGCAGCC CCATGGAGAA GGATATCACG
    CCCGACCCAA AGCTGCTGGA GAAGGTGAGT GAGTGTGACA AGAGCCTAGC CGTGGCGAGG
    CATCAGGAGC ACCTGCTGGC CCACCTCTCG CCTGAGCTGT CTGACGTCTT TGATTTCTTC
    ATCGCACTCA CCATCTGCAA CACAGTCGTC GTCACGTCCC CGGATCAGCC ACGAACAAAG
    GTGAGGGTGA GGTTTGAGCT GAAGTCCCCG GTGAAGACGA TAGAAGACTT CCTGCGGAGG
    TTCACACCCA GCTGCCTGAC CTCAGGCTGC AGCAGCATCG GGAGCCTGGC CGCCAACAAG
    TCCAGCCACA AGTTGGGCTC CAGCTTCCCG TCCACCCCGT CCAGCGACGG CATGCTTCTC
    AGGCTGGAGG AGAGGCTGGG CCAGCCCACC TCGGCCATCG CCAGCAACGG CTACAGCAGC
    CAGGCGGACA ACTGGGCCTC GGAGCTTGCT CAGGAGCAGG AGTCAGAGCG CGAGCTGCGG
    TACGAGGCGG AGAGCCCGGA TGAGGCCGCA CTGGTGTATG CGGCCAGAGC CTACAACTGC
    GTGCTTGTGG AGCGGCTGCA CGACCAAGTG TCAGTGGAGC TGCCCCACCT GGGCAGGCTC
    ACCTTCGAGC TCCTGCACAC ACTGGGTTTC GATTCCGTCC GCAAGAGGAT GTCAGTGGTG
    ATCCGGCACC CGCTTACCGA TGAGATCAAC GTCTACACCA AGGGGGCCGA CTCAGTGGTC
    ATGGATCTCC TGCAGCCCTG CTCTTCAGTT GACGCCAGAG GGAGGCATCA AAAAAAGATT
    CGGAGCAAAA CTCAGAATTA CCTCAACGTG TATGCGGCGG AAGGCCTGCG CACCTTGTGC
    ATCGCCAAGA GAGTTCTGAG TAAAGAAGAG TATGCCTGCT GGTTGCAAAG CCACCTAGAA
    GCCGAATCCT CCCTGGAAAA CAGCGAGGAG CTCCTCTTCC AGTCTGCCAT TCGCCTGGAG
    ACCAACCTGC ACTTGTTAGG TGCCACTGGG ATTGAAGACC GCCTGCAGGA CGGAGTCCCT
    GAAACTATTT CTAAATTGCG TCAAGCGGGC CTGCAGATTT GGGTTCTCAC TGGTGACAAA
    CAAGAAACAG CTGTCAACAT TGCATATGCC TGCAAACTGC TGGACCACGA CGAGGAGGTC
    ATCACCCTGA ATGCCACCTC CCAGGAGGCG TGTGCAGCCC TGCTAGACCA GTGCCTATGC
    TACGTGCAGT CCAGAGGCCT CCAGAGAGCC CCTGAGAAGA CCAAGGGCAA AGTGAGCATG
    AGGTTCTCCT CTCTCTGCCC ACCCTCCACG TCCACTGCCT CTGGCCGCAG ACCCAGCCTC
    GTGATCGATG GGAGAAGCCT GGCCTACGCT CTCGAGAAAA ACCTGGAGGA CAAATTCCTC
    TTCCTTGCCA AGCAGTGCCG CTCCGTCCTC TGCTGTCGGT CGACGCCTCT GCAGAAGAGC
    ATGGTGGTGA AGCTGGTGCG GAGCAAGCTC AAGGCCATGA CCCTGGCCAT AGGTGATGGA
    GCCAATGATG TCAGCATGAT CCAGGTGGCA GATGTGGGTG TGGGAATCTC CGGCCAGGAG
    GGTATGCAGG CAGTGATGGC CAGCGACTTT GCAGTGCCGA AATTCCGATA CCTGGAGAGG
    CTCTTGATTC TTCACGGGCA TTGGTGCTAC TCCCGACTTG CCAACATGGT GCTGTACTTC
    TTCTACAAAA ACACAATGTT CGTGGGCCTC CTGTTTTGGT TCCAGTTTTT CTGTGGCTTC
    TCTGCATCTA CCATGATTGA CCAGTGGTAT CTAATCTTCT TTAATCTGCT CTTCTCGTCA
    CTTCCCCCGC TCGTGACTGG GGTGCTGGAC AGGGATGTGC CAGCCAATGT GCTGCTGACC
    AACCCGCAGC TCTACAAGAG TGGCCAGAAC ATGGAGGAAT ACCGGCCACG AACGTTCTGG
    TTTAACATGG CCGACGCCGC CTTCCAGAGC CTGGTTTGCT TTTCCATTCC TTACCTGGCC
    TACTATGACT CGAACGTGGA CCTGTTTACC TGGGGGACCC CTATTGTGAC AATCGCGCTG
    CTCACTTTCC TGCTCCACCT GGGCATTGAA ACCAAAACCT GGACCTGGCT CAACTGGATA
    ACGTGTGGCT TCAGTGTCCT TTTGTTTTTC ACCGTGGCTT TGATTTACAA TGCGTCTTGT
    GCCACGTGCT ATCCTCCGTC CAACCCTTAC TGGACTATGC AAGCCTTACT GGGTGACCCA
    GTGTTTTACT TGACTTGCCT GATGACGCCT GTCGCTGCAC TGCTGCCCAG ATTGTTTTTC
    AGATCCCTCC AGGGGAGGGT TTTCCCCACA CAACTTCAGC TGGCACGTCA GTTGACCAGG
    AAGTCCCCCA GGAGATGCAG TGCTCCCAAA GAGACCTTTG CTCAGGGACG CCTCCCGAAG
    GACTCGGGAA CCGAGCACTC ATCAGGGAGG ACAGTCAAGA CCTCTGTGCC CCTGTCCCAG
    CCTTCTTGGC ACACACAGCA GCCGGTCTGC TCCCTGGAGG CCAGCGGGGA GCCCAGCACA
    GTGGACATGA GCATGCCAGT GAGGGAGCAC ACCCTGCTGG AGGGGCTGAG CGCACCGGCC
    CCCATGTCCT CTGCGCCAGG GGAGGCTGTC CTGAGGAGTC CAGGAGGGTG TCCTGAGGAG
    TCCAAGGTGA GAGCTGCCAG CACCGGCAGG GTGACCCCCC TGTCTTCCCT CTTCAGCCTG
    CCTACCTTCA GCTTACTCAA CTGGATTTCC TCCTGGTCGC TGGTCAGCAG GCTGGGGAGT
    GTCTTACAGT TCTCCCGGAC GGAGCAGCTT GCAGATGGAC AAGCGGGACG TGGACTTCCT
    GTCCAGCCCC ACTCAGGCCG ATCAGGACTT CAAGGGCCAG ACCACAGACT ACTTATAGGA
    GCATCTTCAA GGCGGTCACA GTGA

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

    RefSeq XP_011520132.2
    CDS86..3409
    Translation

    Target ORF information:

    RefSeq Version XM_011521830.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011521830.2

    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
    ATGATGCAAA TGGGCAACAT CACAGTCAAG ATCATCTTGG ATGGAGTTTC AAAGCTGAGT 
    CCAAACCCTA GCTGTAGGGG TCCAAGCTGT GCAATCTGGG AGTGTGAGCC CCCCTGTGCC
    ATAGCATTTC ATCCAGACAG GAGCAGATGG TGGCCACCGT CCATGTGGGC AAGGAGCTCA
    GCACCAGCGC AGCGTCTGGC CAGGTACCAA GAGGCAGACT CGGAGGAGGA GGAGGTGGTG
    CCCAGAGGGG GCTCGGTGTC CCAGCGCGGC AGCATCGGCA GCCACCAGAG TGTCCGGGTG
    GTGCACAGAA CCCAGAGCAC CAAGTCCCAC CGGCGCACGG GCAGCCGGGC CGAGGCCAAG
    AGGGCCAGCA TGCTGTCCAA GCACACGGCC TTCAGCAGCC CCATGGAGAA GGATATCACG
    CCCGACCCAA AGCTGCTGGA GAAGGTGAGT GAGTGTGACA AGAGCCTAGC CGTGGCGAGG
    CATCAGGAGC ACCTGCTGGC CCACCTCTCG CCTGAGCTGT CTGACGTCTT TGATTTCTTC
    ATCGCACTCA CCATCTGCAA CACAGTCGTC GTCACGTCCC CGGATCAGCC ACGAACAAAG
    GTGAGGGTGA GGTTTGAGCT GAAGTCCCCG GTGAAGACGA TAGAAGACTT CCTGCGGAGG
    TTCACACCCA GCTGCCTGAC CTCAGGCTGC AGCAGCATCG GGAGCCTGGC CGCCAACAAG
    TCCAGCCACA AGTTGGGCTC CAGCTTCCCG TCCACCCCGT CCAGCGACGG CATGCTTCTC
    AGGCTGGAGG AGAGGCTGGG CCAGCCCACC TCGGCCATCG CCAGCAACGG CTACAGCAGC
    CAGGCGGACA ACTGGGCCTC GGAGCTTGCT CAGGAGCAGG AGTCAGAGCG CGAGCTGCGG
    TACGAGGCGG AGAGCCCGGA TGAGGCCGCA CTGGTGTATG CGGCCAGAGC CTACAACTGC
    GTGCTTGTGG AGCGGCTGCA CGACCAAGTG TCAGTGGAGC TGCCCCACCT GGGCAGGCTC
    ACCTTCGAGC TCCTGCACAC ACTGGGTTTC GATTCCGTCC GCAAGAGGAT GTCAGTGGTG
    ATCCGGCACC CGCTTACCGA TGAGATCAAC GTCTACACCA AGGGGGCCGA CTCAGTGGTC
    ATGGATCTCC TGCAGCCCTG CTCTTCAGTT GACGCCAGAG GGAGGCATCA AAAAAAGATT
    CGGAGCAAAA CTCAGAATTA CCTCAACGTG TATGCGGCGG AAGGCCTGCG CACCTTGTGC
    ATCGCCAAGA GAGTTCTGAG TAAAGAAGAG TATGCCTGCT GGTTGCAAAG CCACCTAGAA
    GCCGAATCCT CCCTGGAAAA CAGCGAGGAG CTCCTCTTCC AGTCTGCCAT TCGCCTGGAG
    ACCAACCTGC ACTTGTTAGG TGCCACTGGG ATTGAAGACC GCCTGCAGGA CGGAGTCCCT
    GAAACTATTT CTAAATTGCG TCAAGCGGGC CTGCAGATTT GGGTTCTCAC TGGTGACAAA
    CAAGAAACAG CTGTCAACAT TGCATATGCC TGCAAACTGC TGGACCACGA CGAGGAGGTC
    ATCACCCTGA ATGCCACCTC CCAGGAGGCG TGTGCAGCCC TGCTAGACCA GTGCCTATGC
    TACGTGCAGT CCAGAGGCCT CCAGAGAGCC CCTGAGAAGA CCAAGGGCAA AGTGAGCATG
    AGGTTCTCCT CTCTCTGCCC ACCCTCCACG TCCACTGCCT CTGGCCGCAG ACCCAGCCTC
    GTGATCGATG GGAGAAGCCT GGCCTACGCT CTCGAGAAAA ACCTGGAGGA CAAATTCCTC
    TTCCTTGCCA AGCAGTGCCG CTCCGTCCTC TGCTGTCGGT CGACGCCTCT GCAGAAGAGC
    ATGGTGGTGA AGCTGGTGCG GAGCAAGCTC AAGGCCATGA CCCTGGCCAT AGGTGATGGA
    GCCAATGATG TCAGCATGAT CCAGGTGGCA GATGTGGGTG TGGGAATCTC CGGCCAGGAG
    GGTATGCAGG CAGTGATGGC CAGCGACTTT GCAGTGCCGA AATTCCGATA CCTGGAGAGG
    CTCTTGATTC TTCACGGGCA TTGGTGCTAC TCCCGACTTG CCAACATGGT GCTGTACTTC
    TTCTACAAAA ACACAATGTT CGTGGGCCTC CTGTTTTGGT TCCAGTTTTT CTGTGGCTTC
    TCTGCATCTA CCATGATTGA CCAGTGGTAT CTAATCTTCT TTAATCTGCT CTTCTCGTCA
    CTTCCCCCGC TCGTGACTGG GGTGCTGGAC AGGGATGTGC CAGCCAATGT GCTGCTGACC
    AACCCGCAGC TCTACAAGAG TGGCCAGAAC ATGGAGGAAT ACCGGCCACG AACGTTCTGG
    TTTAACATGG CCGACGCCGC CTTCCAGAGC CTGGTTTGCT TTTCCATTCC TTACCTGGCC
    TACTATGACT CGAACGTGGA CCTGTTTACC TGGGGGACCC CTATTGTGAC AATCGCGCTG
    CTCACTTTCC TGCTCCACCT GGGCATTGAA ACCAAAACCT GGACCTGGCT CAACTGGATA
    ACGTGTGGCT TCAGTGTCCT TTTGTTTTTC ACCGTGGCTT TGATTTACAA TGCGTCTTGT
    GCCACGTGCT ATCCTCCGTC CAACCCTTAC TGGACTATGC AAGCCTTACT GGGTGACCCA
    GTGTTTTACT TGACTTGCCT GATGACGCCT GTCGCTGCAC TGCTGCCCAG ATTGTTTTTC
    AGATCCCTCC AGGGGAGGGT TTTCCCCACA CAACTTCAGC TGGCACGTCA GTTGACCAGG
    AAGTCCCCCA GGAGATGCAG TGCTCCCAAA GAGACCTTTG CTCAGGGACG CCTCCCGAAG
    GACTCGGGAA CCGAGCACTC ATCAGGGAGG ACAGTCAAGA CCTCTGTGCC CCTGTCCCAG
    CCTTCTTGGC ACACACAGCA GCCGGTCTGC TCCCTGGAGG CCAGCGGGGA GCCCAGCACA
    GTGGACATGA GCATGCCAGT GAGGGAGCAC ACCCTGCTGG AGGGGCTGAG CGCACCGGCC
    CCCATGTCCT CTGCGCCAGG GGAGGCTGTC CTGAGGAGTC CAGGAGGGTG TCCTGAGGAG
    TCCAAGGTGA GAGCTGCCAG CACCGGCAGG GTGACCCCCC TGTCTTCCCT CTTCAGCCTG
    CCTACCTTCA GCTTACTCAA CTGGATTTCC TCCTGGTCGC TGGTCAGCAG GCTGGGGAGT
    GTCTTACAGT TCTCCCGGAC GGAGCAGCTT GCAGATGGAC AAGCGGGACG TGGACTTCCT
    GTCCAGCCCC ACTCAGGCCG ATCAGGACTT CAAGGGCCAG ACCACAGACT ACTTATAGGA
    GCATCTTCAA GGCGGTCACA GTGA

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

    CloneID OHu70374
    Clone ID Related Accession (Same CDS sequence) XM_017022437.1 , XM_011521829.2
    Accession Version XM_017022437.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3585bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VA isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAACTGCG ACGTGCTCTG GTGTGTCCTG CTCCTTGTTT GCATGTCTCT GTTTTCAGCA 
    GTCGGACATG GACTGTGGAT ATGGCGGTAT CAAGAGAAGA AGTCATTATT TTATGTCCCC
    AAGTCTGATG GAAGCTCCTT ATCCCCAGTC ACAGCTGCAG TTTACTCATT TTTAACAATG
    ATAATAGTTC TGCAGGTTTT GATCCCAATT TCCTTATACG TTTCCATTGA AATTGTTAAA
    GCATGCCAAG TGTACTTCAT TAACCAGGAC ATGCAGTTGT ATGACGAAGA AACAGACTCG
    CAGCTGCAGT GCCGAGCTCT GAACATCACG GAAGACTTAG GACAGATACA GTACATTTTC
    TCAGATAAAA CTGGCACTTT GACAGAGAAT AAGATGGTTT TCCGAAGATG CACTGTGTCT
    GGTGTAGAAT ATTCTCATGA TGCAAATGCG CAGCGTCTGG CCAGGTACCA AGAGGCAGAC
    TCGGAGGAGG AGGAGGTGGT GCCCAGAGGG GGCTCGGTGT CCCAGCGCGG CAGCATCGGC
    AGCCACCAGA GTGTCCGGGT GGTGCACAGA ACCCAGAGCA CCAAGTCCCA CCGGCGCACG
    GGCAGCCGGG CCGAGGCCAA GAGGGCCAGC ATGCTGTCCA AGCACACGGC CTTCAGCAGC
    CCCATGGAGA AGGATATCAC GCCCGACCCA AAGCTGCTGG AGAAGGTGAG TGAGTGTGAC
    AAGAGCCTAG CCGTGGCGAG GCATCAGGAG CACCTGCTGG CCCACCTCTC GCCTGAGCTG
    TCTGACGTCT TTGATTTCTT CATCGCACTC ACCATCTGCA ACACAGTCGT CGTCACGTCC
    CCGGATCAGC CACGAACAAA GGTGAGGGTG AGGTTTGAGC TGAAGTCCCC GGTGAAGACG
    ATAGAAGACT TCCTGCGGAG GTTCACACCC AGCTGCCTGA CCTCAGGCTG CAGCAGCATC
    GGGAGCCTGG CCGCCAACAA GTCCAGCCAC AAGTTGGGCT CCAGCTTCCC GTCCACCCCG
    TCCAGCGACG GCATGCTTCT CAGGCTGGAG GAGAGGCTGG GCCAGCCCAC CTCGGCCATC
    GCCAGCAACG GCTACAGCAG CCAGGCGGAC AACTGGGCCT CGGAGCTTGC TCAGGAGCAG
    GAGTCAGAGC GCGAGCTGCG GTACGAGGCG GAGAGCCCGG ATGAGGCCGC ACTGGTGTAT
    GCGGCCAGAG CCTACAACTG CGTGCTTGTG GAGCGGCTGC ACGACCAAGT GTCAGTGGAG
    CTGCCCCACC TGGGCAGGCT CACCTTCGAG CTCCTGCACA CACTGGGTTT CGATTCCGTC
    CGCAAGAGGA TGTCAGTGGT GATCCGGCAC CCGCTTACCG ATGAGATCAA CGTCTACACC
    AAGGGGGCCG ACTCAGTGGT CATGGATCTC CTGCAGCCCT GCTCTTCAGT TGACGCCAGA
    GGGAGGCATC AAAAAAAGAT TCGGAGCAAA ACTCAGAATT ACCTCAACGT GTATGCGGCG
    GAAGGCCTGC GCACCTTGTG CATCGCCAAG AGAGTTCTGA GTAAAGAAGA GTATGCCTGC
    TGGTTGCAAA GCCACCTAGA AGCCGAATCC TCCCTGGAAA ACAGCGAGGA GCTCCTCTTC
    CAGTCTGCCA TTCGCCTGGA GACCAACCTG CACTTGTTAG GTGCCACTGG GATTGAAGAC
    CGCCTGCAGG ACGGAGTCCC TGAAACTATT TCTAAATTGC GTCAAGCGGG CCTGCAGATT
    TGGGTTCTCA CTGGTGACAA ACAAGAAACA GCTGTCAACA TTGCATATGC CTGCAAACTG
    CTGGACCACG ACGAGGAGGT CATCACCCTG AATGCCACCT CCCAGGAGGC GTGTGCAGCC
    CTGCTAGACC AGTGCCTATG CTACGTGCAG TCCAGAGGCC TCCAGAGAGC CCCTGAGAAG
    ACCAAGGGCA AAGTGAGCAT GAGGTTCTCC TCTCTCTGCC CACCCTCCAC GTCCACTGCC
    TCTGGCCGCA GACCCAGCCT CGTGATCGAT GGGAGAAGCC TGGCCTACGC TCTCGAGAAA
    AACCTGGAGG ACAAATTCCT CTTCCTTGCC AAGCAGTGCC GCTCCGTCCT CTGCTGTCGG
    TCGACGCCTC TGCAGAAGAG CATGGTGGTG AAGCTGGTGC GGAGCAAGCT CAAGGCCATG
    ACCCTGGCCA TAGGTGATGG AGCCAATGAT GTCAGCATGA TCCAGGTGGC AGATGTGGGT
    GTGGGAATCT CCGGCCAGGA GGGTATGCAG GCAGTGATGG CCAGCGACTT TGCAGTGCCG
    AAATTCCGAT ACCTGGAGAG GCTCTTGATT CTTCACGGGC ATTGGTGCTA CTCCCGACTT
    GCCAACATGG TGCTGTACTT CTTCTACAAA AACACAATGT TCGTGGGCCT CCTGTTTTGG
    TTCCAGTTTT TCTGTGGCTT CTCTGCATCT ACCATGATTG ACCAGTGGTA TCTAATCTTC
    TTTAATCTGC TCTTCTCGTC ACTTCCCCCG CTCGTGACTG GGGTGCTGGA CAGGGATGTG
    CCAGCCAATG TGCTGCTGAC CAACCCGCAG CTCTACAAGA GTGGCCAGAA CATGGAGGAA
    TACCGGCCAC GAACGTTCTG GTTTAACATG GCCGACGCCG CCTTCCAGAG CCTGGTTTGC
    TTTTCCATTC CTTACCTGGC CTACTATGAC TCGAACGTGG ACCTGTTTAC CTGGGGGACC
    CCTATTGTGA CAATCGCGCT GCTCACTTTC CTGCTCCACC TGGGCATTGA AACCAAAACC
    TGGACCTGGC TCAACTGGAT AACGTGTGGC TTCAGTGTCC TTTTGTTTTT CACCGTGGCT
    TTGATTTACA ATGCGTCTTG TGCCACGTGC TATCCTCCGT CCAACCCTTA CTGGACTATG
    CAAGCCTTAC TGGGTGACCC AGTGTTTTAC TTGACTTGCC TGATGACGCC TGTCGCTGCA
    CTGCTGCCCA GATTGTTTTT CAGATCCCTC CAGGGGAGGG TTTTCCCCAC ACAACTTCAG
    CTGGCACGTC AGTTGACCAG GAAGTCCCCC AGGAGATGCA GTGCTCCCAA AGAGACCTTT
    GCTCAGGGAC GCCTCCCGAA GGACTCGGGA ACCGAGCACT CATCAGGGAG GACAGTCAAG
    ACCTCTGTGC CCCTGTCCCA GCCTTCTTGG CACACACAGC AGCCGGTCTG CTCCCTGGAG
    GCCAGCGGGG AGCCCAGCAC AGTGGACATG AGCATGCCAG TGAGGGAGCA CACCCTGCTG
    GAGGGGCTGA GCGCACCGGC CCCCATGTCC TCTGCGCCAG GGGAGGCTGT CCTGAGGAGT
    CCAGGAGGGT GTCCTGAGGA GTCCAAGGTG AGAGCTGCCA GCACCGGCAG GGTGACCCCC
    CTGTCTTCCC TCTTCAGCCT GCCTACCTTC AGCTTACTCA ACTGGATTTC CTCCTGGTCG
    CTGGTCAGCA GGCTGGGGAG TGTCTTACAG TTCTCCCGGA CGGAGCAGCT TGCAGATGGA
    CAAGCGGGAC GTGGACTTCC TGTCCAGCCC CACTCAGGCC GATCAGGACT TCAAGGGCCA
    GACCACAGAC TACTTATAGG AGCATCTTCA AGGCGGTCAC AGTGA

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

    RefSeq XP_016877926.1
    CDS1022..4606
    Translation

    Target ORF information:

    RefSeq Version XM_017022437.1
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017022437.1

    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
    ATGAACTGCG ACGTGCTCTG GTGTGTCCTG CTCCTTGTTT GCATGTCTCT GTTTTCAGCA 
    GTCGGACATG GACTGTGGAT ATGGCGGTAT CAAGAGAAGA AGTCATTATT TTATGTCCCC
    AAGTCTGATG GAAGCTCCTT ATCCCCAGTC ACAGCTGCAG TTTACTCATT TTTAACAATG
    ATAATAGTTC TGCAGGTTTT GATCCCAATT TCCTTATACG TTTCCATTGA AATTGTTAAA
    GCATGCCAAG TGTACTTCAT TAACCAGGAC ATGCAGTTGT ATGACGAAGA AACAGACTCG
    CAGCTGCAGT GCCGAGCTCT GAACATCACG GAAGACTTAG GACAGATACA GTACATTTTC
    TCAGATAAAA CTGGCACTTT GACAGAGAAT AAGATGGTTT TCCGAAGATG CACTGTGTCT
    GGTGTAGAAT ATTCTCATGA TGCAAATGCG CAGCGTCTGG CCAGGTACCA AGAGGCAGAC
    TCGGAGGAGG AGGAGGTGGT GCCCAGAGGG GGCTCGGTGT CCCAGCGCGG CAGCATCGGC
    AGCCACCAGA GTGTCCGGGT GGTGCACAGA ACCCAGAGCA CCAAGTCCCA CCGGCGCACG
    GGCAGCCGGG CCGAGGCCAA GAGGGCCAGC ATGCTGTCCA AGCACACGGC CTTCAGCAGC
    CCCATGGAGA AGGATATCAC GCCCGACCCA AAGCTGCTGG AGAAGGTGAG TGAGTGTGAC
    AAGAGCCTAG CCGTGGCGAG GCATCAGGAG CACCTGCTGG CCCACCTCTC GCCTGAGCTG
    TCTGACGTCT TTGATTTCTT CATCGCACTC ACCATCTGCA ACACAGTCGT CGTCACGTCC
    CCGGATCAGC CACGAACAAA GGTGAGGGTG AGGTTTGAGC TGAAGTCCCC GGTGAAGACG
    ATAGAAGACT TCCTGCGGAG GTTCACACCC AGCTGCCTGA CCTCAGGCTG CAGCAGCATC
    GGGAGCCTGG CCGCCAACAA GTCCAGCCAC AAGTTGGGCT CCAGCTTCCC GTCCACCCCG
    TCCAGCGACG GCATGCTTCT CAGGCTGGAG GAGAGGCTGG GCCAGCCCAC CTCGGCCATC
    GCCAGCAACG GCTACAGCAG CCAGGCGGAC AACTGGGCCT CGGAGCTTGC TCAGGAGCAG
    GAGTCAGAGC GCGAGCTGCG GTACGAGGCG GAGAGCCCGG ATGAGGCCGC ACTGGTGTAT
    GCGGCCAGAG CCTACAACTG CGTGCTTGTG GAGCGGCTGC ACGACCAAGT GTCAGTGGAG
    CTGCCCCACC TGGGCAGGCT CACCTTCGAG CTCCTGCACA CACTGGGTTT CGATTCCGTC
    CGCAAGAGGA TGTCAGTGGT GATCCGGCAC CCGCTTACCG ATGAGATCAA CGTCTACACC
    AAGGGGGCCG ACTCAGTGGT CATGGATCTC CTGCAGCCCT GCTCTTCAGT TGACGCCAGA
    GGGAGGCATC AAAAAAAGAT TCGGAGCAAA ACTCAGAATT ACCTCAACGT GTATGCGGCG
    GAAGGCCTGC GCACCTTGTG CATCGCCAAG AGAGTTCTGA GTAAAGAAGA GTATGCCTGC
    TGGTTGCAAA GCCACCTAGA AGCCGAATCC TCCCTGGAAA ACAGCGAGGA GCTCCTCTTC
    CAGTCTGCCA TTCGCCTGGA GACCAACCTG CACTTGTTAG GTGCCACTGG GATTGAAGAC
    CGCCTGCAGG ACGGAGTCCC TGAAACTATT TCTAAATTGC GTCAAGCGGG CCTGCAGATT
    TGGGTTCTCA CTGGTGACAA ACAAGAAACA GCTGTCAACA TTGCATATGC CTGCAAACTG
    CTGGACCACG ACGAGGAGGT CATCACCCTG AATGCCACCT CCCAGGAGGC GTGTGCAGCC
    CTGCTAGACC AGTGCCTATG CTACGTGCAG TCCAGAGGCC TCCAGAGAGC CCCTGAGAAG
    ACCAAGGGCA AAGTGAGCAT GAGGTTCTCC TCTCTCTGCC CACCCTCCAC GTCCACTGCC
    TCTGGCCGCA GACCCAGCCT CGTGATCGAT GGGAGAAGCC TGGCCTACGC TCTCGAGAAA
    AACCTGGAGG ACAAATTCCT CTTCCTTGCC AAGCAGTGCC GCTCCGTCCT CTGCTGTCGG
    TCGACGCCTC TGCAGAAGAG CATGGTGGTG AAGCTGGTGC GGAGCAAGCT CAAGGCCATG
    ACCCTGGCCA TAGGTGATGG AGCCAATGAT GTCAGCATGA TCCAGGTGGC AGATGTGGGT
    GTGGGAATCT CCGGCCAGGA GGGTATGCAG GCAGTGATGG CCAGCGACTT TGCAGTGCCG
    AAATTCCGAT ACCTGGAGAG GCTCTTGATT CTTCACGGGC ATTGGTGCTA CTCCCGACTT
    GCCAACATGG TGCTGTACTT CTTCTACAAA AACACAATGT TCGTGGGCCT CCTGTTTTGG
    TTCCAGTTTT TCTGTGGCTT CTCTGCATCT ACCATGATTG ACCAGTGGTA TCTAATCTTC
    TTTAATCTGC TCTTCTCGTC ACTTCCCCCG CTCGTGACTG GGGTGCTGGA CAGGGATGTG
    CCAGCCAATG TGCTGCTGAC CAACCCGCAG CTCTACAAGA GTGGCCAGAA CATGGAGGAA
    TACCGGCCAC GAACGTTCTG GTTTAACATG GCCGACGCCG CCTTCCAGAG CCTGGTTTGC
    TTTTCCATTC CTTACCTGGC CTACTATGAC TCGAACGTGG ACCTGTTTAC CTGGGGGACC
    CCTATTGTGA CAATCGCGCT GCTCACTTTC CTGCTCCACC TGGGCATTGA AACCAAAACC
    TGGACCTGGC TCAACTGGAT AACGTGTGGC TTCAGTGTCC TTTTGTTTTT CACCGTGGCT
    TTGATTTACA ATGCGTCTTG TGCCACGTGC TATCCTCCGT CCAACCCTTA CTGGACTATG
    CAAGCCTTAC TGGGTGACCC AGTGTTTTAC TTGACTTGCC TGATGACGCC TGTCGCTGCA
    CTGCTGCCCA GATTGTTTTT CAGATCCCTC CAGGGGAGGG TTTTCCCCAC ACAACTTCAG
    CTGGCACGTC AGTTGACCAG GAAGTCCCCC AGGAGATGCA GTGCTCCCAA AGAGACCTTT
    GCTCAGGGAC GCCTCCCGAA GGACTCGGGA ACCGAGCACT CATCAGGGAG GACAGTCAAG
    ACCTCTGTGC CCCTGTCCCA GCCTTCTTGG CACACACAGC AGCCGGTCTG CTCCCTGGAG
    GCCAGCGGGG AGCCCAGCAC AGTGGACATG AGCATGCCAG TGAGGGAGCA CACCCTGCTG
    GAGGGGCTGA GCGCACCGGC CCCCATGTCC TCTGCGCCAG GGGAGGCTGT CCTGAGGAGT
    CCAGGAGGGT GTCCTGAGGA GTCCAAGGTG AGAGCTGCCA GCACCGGCAG GGTGACCCCC
    CTGTCTTCCC TCTTCAGCCT GCCTACCTTC AGCTTACTCA ACTGGATTTC CTCCTGGTCG
    CTGGTCAGCA GGCTGGGGAG TGTCTTACAG TTCTCCCGGA CGGAGCAGCT TGCAGATGGA
    CAAGCGGGAC GTGGACTTCC TGTCCAGCCC CACTCAGGCC GATCAGGACT TCAAGGGCCA
    GACCACAGAC TACTTATAGG AGCATCTTCA AGGCGGTCAC AGTGA

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

    CloneID OHu70374
    Clone ID Related Accession (Same CDS sequence) XM_017022437.1 , XM_011521829.2
    Accession Version XM_011521829.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3585bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VA isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011521829.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAACTGCG ACGTGCTCTG GTGTGTCCTG CTCCTTGTTT GCATGTCTCT GTTTTCAGCA 
    GTCGGACATG GACTGTGGAT ATGGCGGTAT CAAGAGAAGA AGTCATTATT TTATGTCCCC
    AAGTCTGATG GAAGCTCCTT ATCCCCAGTC ACAGCTGCAG TTTACTCATT TTTAACAATG
    ATAATAGTTC TGCAGGTTTT GATCCCAATT TCCTTATACG TTTCCATTGA AATTGTTAAA
    GCATGCCAAG TGTACTTCAT TAACCAGGAC ATGCAGTTGT ATGACGAAGA AACAGACTCG
    CAGCTGCAGT GCCGAGCTCT GAACATCACG GAAGACTTAG GACAGATACA GTACATTTTC
    TCAGATAAAA CTGGCACTTT GACAGAGAAT AAGATGGTTT TCCGAAGATG CACTGTGTCT
    GGTGTAGAAT ATTCTCATGA TGCAAATGCG CAGCGTCTGG CCAGGTACCA AGAGGCAGAC
    TCGGAGGAGG AGGAGGTGGT GCCCAGAGGG GGCTCGGTGT CCCAGCGCGG CAGCATCGGC
    AGCCACCAGA GTGTCCGGGT GGTGCACAGA ACCCAGAGCA CCAAGTCCCA CCGGCGCACG
    GGCAGCCGGG CCGAGGCCAA GAGGGCCAGC ATGCTGTCCA AGCACACGGC CTTCAGCAGC
    CCCATGGAGA AGGATATCAC GCCCGACCCA AAGCTGCTGG AGAAGGTGAG TGAGTGTGAC
    AAGAGCCTAG CCGTGGCGAG GCATCAGGAG CACCTGCTGG CCCACCTCTC GCCTGAGCTG
    TCTGACGTCT TTGATTTCTT CATCGCACTC ACCATCTGCA ACACAGTCGT CGTCACGTCC
    CCGGATCAGC CACGAACAAA GGTGAGGGTG AGGTTTGAGC TGAAGTCCCC GGTGAAGACG
    ATAGAAGACT TCCTGCGGAG GTTCACACCC AGCTGCCTGA CCTCAGGCTG CAGCAGCATC
    GGGAGCCTGG CCGCCAACAA GTCCAGCCAC AAGTTGGGCT CCAGCTTCCC GTCCACCCCG
    TCCAGCGACG GCATGCTTCT CAGGCTGGAG GAGAGGCTGG GCCAGCCCAC CTCGGCCATC
    GCCAGCAACG GCTACAGCAG CCAGGCGGAC AACTGGGCCT CGGAGCTTGC TCAGGAGCAG
    GAGTCAGAGC GCGAGCTGCG GTACGAGGCG GAGAGCCCGG ATGAGGCCGC ACTGGTGTAT
    GCGGCCAGAG CCTACAACTG CGTGCTTGTG GAGCGGCTGC ACGACCAAGT GTCAGTGGAG
    CTGCCCCACC TGGGCAGGCT CACCTTCGAG CTCCTGCACA CACTGGGTTT CGATTCCGTC
    CGCAAGAGGA TGTCAGTGGT GATCCGGCAC CCGCTTACCG ATGAGATCAA CGTCTACACC
    AAGGGGGCCG ACTCAGTGGT CATGGATCTC CTGCAGCCCT GCTCTTCAGT TGACGCCAGA
    GGGAGGCATC AAAAAAAGAT TCGGAGCAAA ACTCAGAATT ACCTCAACGT GTATGCGGCG
    GAAGGCCTGC GCACCTTGTG CATCGCCAAG AGAGTTCTGA GTAAAGAAGA GTATGCCTGC
    TGGTTGCAAA GCCACCTAGA AGCCGAATCC TCCCTGGAAA ACAGCGAGGA GCTCCTCTTC
    CAGTCTGCCA TTCGCCTGGA GACCAACCTG CACTTGTTAG GTGCCACTGG GATTGAAGAC
    CGCCTGCAGG ACGGAGTCCC TGAAACTATT TCTAAATTGC GTCAAGCGGG CCTGCAGATT
    TGGGTTCTCA CTGGTGACAA ACAAGAAACA GCTGTCAACA TTGCATATGC CTGCAAACTG
    CTGGACCACG ACGAGGAGGT CATCACCCTG AATGCCACCT CCCAGGAGGC GTGTGCAGCC
    CTGCTAGACC AGTGCCTATG CTACGTGCAG TCCAGAGGCC TCCAGAGAGC CCCTGAGAAG
    ACCAAGGGCA AAGTGAGCAT GAGGTTCTCC TCTCTCTGCC CACCCTCCAC GTCCACTGCC
    TCTGGCCGCA GACCCAGCCT CGTGATCGAT GGGAGAAGCC TGGCCTACGC TCTCGAGAAA
    AACCTGGAGG ACAAATTCCT CTTCCTTGCC AAGCAGTGCC GCTCCGTCCT CTGCTGTCGG
    TCGACGCCTC TGCAGAAGAG CATGGTGGTG AAGCTGGTGC GGAGCAAGCT CAAGGCCATG
    ACCCTGGCCA TAGGTGATGG AGCCAATGAT GTCAGCATGA TCCAGGTGGC AGATGTGGGT
    GTGGGAATCT CCGGCCAGGA GGGTATGCAG GCAGTGATGG CCAGCGACTT TGCAGTGCCG
    AAATTCCGAT ACCTGGAGAG GCTCTTGATT CTTCACGGGC ATTGGTGCTA CTCCCGACTT
    GCCAACATGG TGCTGTACTT CTTCTACAAA AACACAATGT TCGTGGGCCT CCTGTTTTGG
    TTCCAGTTTT TCTGTGGCTT CTCTGCATCT ACCATGATTG ACCAGTGGTA TCTAATCTTC
    TTTAATCTGC TCTTCTCGTC ACTTCCCCCG CTCGTGACTG GGGTGCTGGA CAGGGATGTG
    CCAGCCAATG TGCTGCTGAC CAACCCGCAG CTCTACAAGA GTGGCCAGAA CATGGAGGAA
    TACCGGCCAC GAACGTTCTG GTTTAACATG GCCGACGCCG CCTTCCAGAG CCTGGTTTGC
    TTTTCCATTC CTTACCTGGC CTACTATGAC TCGAACGTGG ACCTGTTTAC CTGGGGGACC
    CCTATTGTGA CAATCGCGCT GCTCACTTTC CTGCTCCACC TGGGCATTGA AACCAAAACC
    TGGACCTGGC TCAACTGGAT AACGTGTGGC TTCAGTGTCC TTTTGTTTTT CACCGTGGCT
    TTGATTTACA ATGCGTCTTG TGCCACGTGC TATCCTCCGT CCAACCCTTA CTGGACTATG
    CAAGCCTTAC TGGGTGACCC AGTGTTTTAC TTGACTTGCC TGATGACGCC TGTCGCTGCA
    CTGCTGCCCA GATTGTTTTT CAGATCCCTC CAGGGGAGGG TTTTCCCCAC ACAACTTCAG
    CTGGCACGTC AGTTGACCAG GAAGTCCCCC AGGAGATGCA GTGCTCCCAA AGAGACCTTT
    GCTCAGGGAC GCCTCCCGAA GGACTCGGGA ACCGAGCACT CATCAGGGAG GACAGTCAAG
    ACCTCTGTGC CCCTGTCCCA GCCTTCTTGG CACACACAGC AGCCGGTCTG CTCCCTGGAG
    GCCAGCGGGG AGCCCAGCAC AGTGGACATG AGCATGCCAG TGAGGGAGCA CACCCTGCTG
    GAGGGGCTGA GCGCACCGGC CCCCATGTCC TCTGCGCCAG GGGAGGCTGT CCTGAGGAGT
    CCAGGAGGGT GTCCTGAGGA GTCCAAGGTG AGAGCTGCCA GCACCGGCAG GGTGACCCCC
    CTGTCTTCCC TCTTCAGCCT GCCTACCTTC AGCTTACTCA ACTGGATTTC CTCCTGGTCG
    CTGGTCAGCA GGCTGGGGAG TGTCTTACAG TTCTCCCGGA CGGAGCAGCT TGCAGATGGA
    CAAGCGGGAC GTGGACTTCC TGTCCAGCCC CACTCAGGCC GATCAGGACT TCAAGGGCCA
    GACCACAGAC TACTTATAGG AGCATCTTCA AGGCGGTCAC AGTGA

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

    RefSeq XP_011520131.1
    CDS155..3739
    Translation

    Target ORF information:

    RefSeq Version XM_011521829.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011521829.2

    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
    ATGAACTGCG ACGTGCTCTG GTGTGTCCTG CTCCTTGTTT GCATGTCTCT GTTTTCAGCA 
    GTCGGACATG GACTGTGGAT ATGGCGGTAT CAAGAGAAGA AGTCATTATT TTATGTCCCC
    AAGTCTGATG GAAGCTCCTT ATCCCCAGTC ACAGCTGCAG TTTACTCATT TTTAACAATG
    ATAATAGTTC TGCAGGTTTT GATCCCAATT TCCTTATACG TTTCCATTGA AATTGTTAAA
    GCATGCCAAG TGTACTTCAT TAACCAGGAC ATGCAGTTGT ATGACGAAGA AACAGACTCG
    CAGCTGCAGT GCCGAGCTCT GAACATCACG GAAGACTTAG GACAGATACA GTACATTTTC
    TCAGATAAAA CTGGCACTTT GACAGAGAAT AAGATGGTTT TCCGAAGATG CACTGTGTCT
    GGTGTAGAAT ATTCTCATGA TGCAAATGCG CAGCGTCTGG CCAGGTACCA AGAGGCAGAC
    TCGGAGGAGG AGGAGGTGGT GCCCAGAGGG GGCTCGGTGT CCCAGCGCGG CAGCATCGGC
    AGCCACCAGA GTGTCCGGGT GGTGCACAGA ACCCAGAGCA CCAAGTCCCA CCGGCGCACG
    GGCAGCCGGG CCGAGGCCAA GAGGGCCAGC ATGCTGTCCA AGCACACGGC CTTCAGCAGC
    CCCATGGAGA AGGATATCAC GCCCGACCCA AAGCTGCTGG AGAAGGTGAG TGAGTGTGAC
    AAGAGCCTAG CCGTGGCGAG GCATCAGGAG CACCTGCTGG CCCACCTCTC GCCTGAGCTG
    TCTGACGTCT TTGATTTCTT CATCGCACTC ACCATCTGCA ACACAGTCGT CGTCACGTCC
    CCGGATCAGC CACGAACAAA GGTGAGGGTG AGGTTTGAGC TGAAGTCCCC GGTGAAGACG
    ATAGAAGACT TCCTGCGGAG GTTCACACCC AGCTGCCTGA CCTCAGGCTG CAGCAGCATC
    GGGAGCCTGG CCGCCAACAA GTCCAGCCAC AAGTTGGGCT CCAGCTTCCC GTCCACCCCG
    TCCAGCGACG GCATGCTTCT CAGGCTGGAG GAGAGGCTGG GCCAGCCCAC CTCGGCCATC
    GCCAGCAACG GCTACAGCAG CCAGGCGGAC AACTGGGCCT CGGAGCTTGC TCAGGAGCAG
    GAGTCAGAGC GCGAGCTGCG GTACGAGGCG GAGAGCCCGG ATGAGGCCGC ACTGGTGTAT
    GCGGCCAGAG CCTACAACTG CGTGCTTGTG GAGCGGCTGC ACGACCAAGT GTCAGTGGAG
    CTGCCCCACC TGGGCAGGCT CACCTTCGAG CTCCTGCACA CACTGGGTTT CGATTCCGTC
    CGCAAGAGGA TGTCAGTGGT GATCCGGCAC CCGCTTACCG ATGAGATCAA CGTCTACACC
    AAGGGGGCCG ACTCAGTGGT CATGGATCTC CTGCAGCCCT GCTCTTCAGT TGACGCCAGA
    GGGAGGCATC AAAAAAAGAT TCGGAGCAAA ACTCAGAATT ACCTCAACGT GTATGCGGCG
    GAAGGCCTGC GCACCTTGTG CATCGCCAAG AGAGTTCTGA GTAAAGAAGA GTATGCCTGC
    TGGTTGCAAA GCCACCTAGA AGCCGAATCC TCCCTGGAAA ACAGCGAGGA GCTCCTCTTC
    CAGTCTGCCA TTCGCCTGGA GACCAACCTG CACTTGTTAG GTGCCACTGG GATTGAAGAC
    CGCCTGCAGG ACGGAGTCCC TGAAACTATT TCTAAATTGC GTCAAGCGGG CCTGCAGATT
    TGGGTTCTCA CTGGTGACAA ACAAGAAACA GCTGTCAACA TTGCATATGC CTGCAAACTG
    CTGGACCACG ACGAGGAGGT CATCACCCTG AATGCCACCT CCCAGGAGGC GTGTGCAGCC
    CTGCTAGACC AGTGCCTATG CTACGTGCAG TCCAGAGGCC TCCAGAGAGC CCCTGAGAAG
    ACCAAGGGCA AAGTGAGCAT GAGGTTCTCC TCTCTCTGCC CACCCTCCAC GTCCACTGCC
    TCTGGCCGCA GACCCAGCCT CGTGATCGAT GGGAGAAGCC TGGCCTACGC TCTCGAGAAA
    AACCTGGAGG ACAAATTCCT CTTCCTTGCC AAGCAGTGCC GCTCCGTCCT CTGCTGTCGG
    TCGACGCCTC TGCAGAAGAG CATGGTGGTG AAGCTGGTGC GGAGCAAGCT CAAGGCCATG
    ACCCTGGCCA TAGGTGATGG AGCCAATGAT GTCAGCATGA TCCAGGTGGC AGATGTGGGT
    GTGGGAATCT CCGGCCAGGA GGGTATGCAG GCAGTGATGG CCAGCGACTT TGCAGTGCCG
    AAATTCCGAT ACCTGGAGAG GCTCTTGATT CTTCACGGGC ATTGGTGCTA CTCCCGACTT
    GCCAACATGG TGCTGTACTT CTTCTACAAA AACACAATGT TCGTGGGCCT CCTGTTTTGG
    TTCCAGTTTT TCTGTGGCTT CTCTGCATCT ACCATGATTG ACCAGTGGTA TCTAATCTTC
    TTTAATCTGC TCTTCTCGTC ACTTCCCCCG CTCGTGACTG GGGTGCTGGA CAGGGATGTG
    CCAGCCAATG TGCTGCTGAC CAACCCGCAG CTCTACAAGA GTGGCCAGAA CATGGAGGAA
    TACCGGCCAC GAACGTTCTG GTTTAACATG GCCGACGCCG CCTTCCAGAG CCTGGTTTGC
    TTTTCCATTC CTTACCTGGC CTACTATGAC TCGAACGTGG ACCTGTTTAC CTGGGGGACC
    CCTATTGTGA CAATCGCGCT GCTCACTTTC CTGCTCCACC TGGGCATTGA AACCAAAACC
    TGGACCTGGC TCAACTGGAT AACGTGTGGC TTCAGTGTCC TTTTGTTTTT CACCGTGGCT
    TTGATTTACA ATGCGTCTTG TGCCACGTGC TATCCTCCGT CCAACCCTTA CTGGACTATG
    CAAGCCTTAC TGGGTGACCC AGTGTTTTAC TTGACTTGCC TGATGACGCC TGTCGCTGCA
    CTGCTGCCCA GATTGTTTTT CAGATCCCTC CAGGGGAGGG TTTTCCCCAC ACAACTTCAG
    CTGGCACGTC AGTTGACCAG GAAGTCCCCC AGGAGATGCA GTGCTCCCAA AGAGACCTTT
    GCTCAGGGAC GCCTCCCGAA GGACTCGGGA ACCGAGCACT CATCAGGGAG GACAGTCAAG
    ACCTCTGTGC CCCTGTCCCA GCCTTCTTGG CACACACAGC AGCCGGTCTG CTCCCTGGAG
    GCCAGCGGGG AGCCCAGCAC AGTGGACATG AGCATGCCAG TGAGGGAGCA CACCCTGCTG
    GAGGGGCTGA GCGCACCGGC CCCCATGTCC TCTGCGCCAG GGGAGGCTGT CCTGAGGAGT
    CCAGGAGGGT GTCCTGAGGA GTCCAAGGTG AGAGCTGCCA GCACCGGCAG GGTGACCCCC
    CTGTCTTCCC TCTTCAGCCT GCCTACCTTC AGCTTACTCA ACTGGATTTC CTCCTGGTCG
    CTGGTCAGCA GGCTGGGGAG TGTCTTACAG TTCTCCCGGA CGGAGCAGCT TGCAGATGGA
    CAAGCGGGAC GTGGACTTCC TGTCCAGCCC CACTCAGGCC GATCAGGACT TCAAGGGCCA
    GACCACAGAC TACTTATAGG AGCATCTTCA AGGCGGTCAC AGTGA

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

    CloneID OHu17963
    Clone ID Related Accession (Same CDS sequence) XM_005268261.4 , NM_024490.3 , XM_011521826.2
    Accession Version XM_005268261.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4500bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VA isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005268261.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGCGGG AGCCGGCGGG GACCGAGGAG CCCGGGCCTC CGGGACGGCG GAGGCGCCGA 
    GAGGGCAGGA CGCGCACGGT GCGCTCCAAC CTGCTGCCGC CCCCGGGCGC CGAGGACCCT
    GCGGCTGGCG CGGCCAAGGG CGAGCGGCGA CGGCGGCGCG GGTGTGCCCA GCACCTGGCC
    GACAACCGGC TCAAGACTAC CAAGTACACG CTGCTGTCCT TCCTGCCCAA GAACCTGTTC
    GAGCAGTTCC ACCGCCCGGC CAACGTGTAC TTTGTCTTCA TCGCGCTGCT CAACTTCGTG
    CCGGCGGTGA ACGCCTTCCA GCCCGGCCTG GCACTGGCGC CGGTGCTCTT CATCCTGGCC
    ATCACGGCCT TCAGGGACCT GTGGGAGGAC TACAGCCGCC ACCGCTCCGA CCACAAGATC
    AACCACCTGG GCTGCCTGGT CTTCAGCAGG GAAGAAAAGA AATACGTGAA CCGATTCTGG
    AAAGAAATCC ACGTGGGAGA CTTTGTGCGT CTTCGCTGCA ACGAAATCTT CCCTGCGGAC
    ATTCTGCTGC TCTCCTCCAG TGACCCCGAC GGGCTATGCC ACATCGAGAC CGCCAACCTG
    GATGGAGAGA CCAACCTGAA GCGGCGGCAG GTGGTCCGCG GCTTCTCGGA GCTTGTCTCC
    GAATTCAATC CTTTGACGTT CACCAGCGTG ATCGAATGCG AGAAGCCAAA CAACGACCTG
    AGTAGGTTTC GCGGCTGCAT CATACATGAC AACGGGAAAA AGGCCGGGCT GTATAAAGAA
    AACCTGCTGC TGAGGGGCTG CACCCTTAGG AACACGGACG CAGTCGTCGG CATTGTCATC
    TACGCAGGAC ATGAAACCAA GGCTCTGCTG AACAACAGTG GGCCCCGCTA CAAGCGCAGC
    AAGCTGGAGA GGCAGATGAA CTGCGACGTG CTCTGGTGTG TCCTGCTCCT TGTTTGCATG
    TCTCTGTTTT CAGCAGTCGG ACATGGACTG TGGATATGGC GGTATCAAGA GAAGAAGTCA
    TTATTTTATG TCCCCAAGTC TGATGGAAGC TCCTTATCCC CAGTCACAGC TGCAGTTTAC
    TCATTTTTAA CAATGATAAT AGTTCTGCAG GTTTTGATCC CAATTTCCTT ATACGTTTCC
    ATTGAAATTG TTAAAGCATG CCAAGTGTAC TTCATTAACC AGGACATGCA GTTGTATGAC
    GAAGAAACAG ACTCGCAGCT GCAGTGCCGA GCTCTGAACA TCACGGAAGA CTTAGGACAG
    ATACAGTACA TTTTCTCAGA TAAAACTGGC ACTTTGACAG AGAATAAGAT GGTTTTCCGA
    AGATGCACTG TGTCTGGTGT AGAATATTCT CATGATGCAA ATGCGCAGCG TCTGGCCAGG
    TACCAAGAGG CAGACTCGGA GGAGGAGGAG GTGGTGCCCA GAGGGGGCTC GGTGTCCCAG
    CGCGGCAGCA TCGGCAGCCA CCAGAGTGTC CGGGTGGTGC ACAGAACCCA GAGCACCAAG
    TCCCACCGGC GCACGGGCAG CCGGGCCGAG GCCAAGAGGG CCAGCATGCT GTCCAAGCAC
    ACGGCCTTCA GCAGCCCCAT GGAGAAGGAT ATCACGCCCG ACCCAAAGCT GCTGGAGAAG
    GTGAGTGAGT GTGACAAGAG CCTAGCCGTG GCGAGGCATC AGGAGCACCT GCTGGCCCAC
    CTCTCGCCTG AGCTGTCTGA CGTCTTTGAT TTCTTCATCG CACTCACCAT CTGCAACACA
    GTCGTCGTCA CGTCCCCGGA TCAGCCACGA ACAAAGGTGA GGGTGAGGTT TGAGCTGAAG
    TCCCCGGTGA AGACGATAGA AGACTTCCTG CGGAGGTTCA CACCCAGCTG CCTGACCTCA
    GGCTGCAGCA GCATCGGGAG CCTGGCCGCC AACAAGTCCA GCCACAAGTT GGGCTCCAGC
    TTCCCGTCCA CCCCGTCCAG CGACGGCATG CTTCTCAGGC TGGAGGAGAG GCTGGGCCAG
    CCCACCTCGG CCATCGCCAG CAACGGCTAC AGCAGCCAGG CGGACAACTG GGCCTCGGAG
    CTTGCTCAGG AGCAGGAGTC AGAGCGCGAG CTGCGGTACG AGGCGGAGAG CCCGGATGAG
    GCCGCACTGG TGTATGCGGC CAGAGCCTAC AACTGCGTGC TTGTGGAGCG GCTGCACGAC
    CAAGTGTCAG TGGAGCTGCC CCACCTGGGC AGGCTCACCT TCGAGCTCCT GCACACACTG
    GGTTTCGATT CCGTCCGCAA GAGGATGTCA GTGGTGATCC GGCACCCGCT TACCGATGAG
    ATCAACGTCT ACACCAAGGG GGCCGACTCA GTGGTCATGG ATCTCCTGCA GCCCTGCTCT
    TCAGTTGACG CCAGAGGGAG GCATCAAAAA AAGATTCGGA GCAAAACTCA GAATTACCTC
    AACGTGTATG CGGCGGAAGG CCTGCGCACC TTGTGCATCG CCAAGAGAGT TCTGAGTAAA
    GAAGAGTATG CCTGCTGGTT GCAAAGCCAC CTAGAAGCCG AATCCTCCCT GGAAAACAGC
    GAGGAGCTCC TCTTCCAGTC TGCCATTCGC CTGGAGACCA ACCTGCACTT GTTAGGTGCC
    ACTGGGATTG AAGACCGCCT GCAGGACGGA GTCCCTGAAA CTATTTCTAA ATTGCGTCAA
    GCGGGCCTGC AGATTTGGGT TCTCACTGGT GACAAACAAG AAACAGCTGT CAACATTGCA
    TATGCCTGCA AACTGCTGGA CCACGACGAG GAGGTCATCA CCCTGAATGC CACCTCCCAG
    GAGGCGTGTG CAGCCCTGCT AGACCAGTGC CTATGCTACG TGCAGTCCAG AGGCCTCCAG
    AGAGCCCCTG AGAAGACCAA GGGCAAAGTG AGCATGAGGT TCTCCTCTCT CTGCCCACCC
    TCCACGTCCA CTGCCTCTGG CCGCAGACCC AGCCTCGTGA TCGATGGGAG AAGCCTGGCC
    TACGCTCTCG AGAAAAACCT GGAGGACAAA TTCCTCTTCC TTGCCAAGCA GTGCCGCTCC
    GTCCTCTGCT GTCGGTCGAC GCCTCTGCAG AAGAGCATGG TGGTGAAGCT GGTGCGGAGC
    AAGCTCAAGG CCATGACCCT GGCCATAGGT GATGGAGCCA ATGATGTCAG CATGATCCAG
    GTGGCAGATG TGGGTGTGGG AATCTCCGGC CAGGAGGGTA TGCAGGCAGT GATGGCCAGC
    GACTTTGCAG TGCCGAAATT CCGATACCTG GAGAGGCTCT TGATTCTTCA CGGGCATTGG
    TGCTACTCCC GACTTGCCAA CATGGTGCTG TACTTCTTCT ACAAAAACAC AATGTTCGTG
    GGCCTCCTGT TTTGGTTCCA GTTTTTCTGT GGCTTCTCTG CATCTACCAT GATTGACCAG
    TGGTATCTAA TCTTCTTTAA TCTGCTCTTC TCGTCACTTC CCCCGCTCGT GACTGGGGTG
    CTGGACAGGG ATGTGCCAGC CAATGTGCTG CTGACCAACC CGCAGCTCTA CAAGAGTGGC
    CAGAACATGG AGGAATACCG GCCACGAACG TTCTGGTTTA ACATGGCCGA CGCCGCCTTC
    CAGAGCCTGG TTTGCTTTTC CATTCCTTAC CTGGCCTACT ATGACTCGAA CGTGGACCTG
    TTTACCTGGG GGACCCCTAT TGTGACAATC GCGCTGCTCA CTTTCCTGCT CCACCTGGGC
    ATTGAAACCA AAACCTGGAC CTGGCTCAAC TGGATAACGT GTGGCTTCAG TGTCCTTTTG
    TTTTTCACCG TGGCTTTGAT TTACAATGCG TCTTGTGCCA CGTGCTATCC TCCGTCCAAC
    CCTTACTGGA CTATGCAAGC CTTACTGGGT GACCCAGTGT TTTACTTGAC TTGCCTGATG
    ACGCCTGTCG CTGCACTGCT GCCCAGATTG TTTTTCAGAT CCCTCCAGGG GAGGGTTTTC
    CCCACACAAC TTCAGCTGGC ACGTCAGTTG ACCAGGAAGT CCCCCAGGAG ATGCAGTGCT
    CCCAAAGAGA CCTTTGCTCA GGGACGCCTC CCGAAGGACT CGGGAACCGA GCACTCATCA
    GGGAGGACAG TCAAGACCTC TGTGCCCCTG TCCCAGCCTT CTTGGCACAC ACAGCAGCCG
    GTCTGCTCCC TGGAGGCCAG CGGGGAGCCC AGCACAGTGG ACATGAGCAT GCCAGTGAGG
    GAGCACACCC TGCTGGAGGG GCTGAGCGCA CCGGCCCCCA TGTCCTCTGC GCCAGGGGAG
    GCTGTCCTGA GGAGTCCAGG AGGGTGTCCT GAGGAGTCCA AGGTGAGAGC TGCCAGCACC
    GGCAGGGTGA CCCCCCTGTC TTCCCTCTTC AGCCTGCCTA CCTTCAGCTT ACTCAACTGG
    ATTTCCTCCT GGTCGCTGGT CAGCAGGCTG GGGAGTGTCT TACAGTTCTC CCGGACGGAG
    CAGCTTGCAG ATGGACAAGC GGGACGTGGA CTTCCTGTCC AGCCCCACTC AGGCCGATCA
    GGACTTCAAG GGCCAGACCA CAGACTACTT ATAGGAGCAT CTTCAAGGCG GTCACAGTGA

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

    RefSeq XP_005268318.1
    CDS237..4736
    Translation

    Target ORF information:

    RefSeq Version XM_005268261.4
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005268261.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGCGGG AGCCGGCGGG GACCGAGGAG CCCGGGCCTC CGGGACGGCG GAGGCGCCGA 
    GAGGGCAGGA CGCGCACGGT GCGCTCCAAC CTGCTGCCGC CCCCGGGCGC CGAGGACCCT
    GCGGCTGGCG CGGCCAAGGG CGAGCGGCGA CGGCGGCGCG GGTGTGCCCA GCACCTGGCC
    GACAACCGGC TCAAGACTAC CAAGTACACG CTGCTGTCCT TCCTGCCCAA GAACCTGTTC
    GAGCAGTTCC ACCGCCCGGC CAACGTGTAC TTTGTCTTCA TCGCGCTGCT CAACTTCGTG
    CCGGCGGTGA ACGCCTTCCA GCCCGGCCTG GCACTGGCGC CGGTGCTCTT CATCCTGGCC
    ATCACGGCCT TCAGGGACCT GTGGGAGGAC TACAGCCGCC ACCGCTCCGA CCACAAGATC
    AACCACCTGG GCTGCCTGGT CTTCAGCAGG GAAGAAAAGA AATACGTGAA CCGATTCTGG
    AAAGAAATCC ACGTGGGAGA CTTTGTGCGT CTTCGCTGCA ACGAAATCTT CCCTGCGGAC
    ATTCTGCTGC TCTCCTCCAG TGACCCCGAC GGGCTATGCC ACATCGAGAC CGCCAACCTG
    GATGGAGAGA CCAACCTGAA GCGGCGGCAG GTGGTCCGCG GCTTCTCGGA GCTTGTCTCC
    GAATTCAATC CTTTGACGTT CACCAGCGTG ATCGAATGCG AGAAGCCAAA CAACGACCTG
    AGTAGGTTTC GCGGCTGCAT CATACATGAC AACGGGAAAA AGGCCGGGCT GTATAAAGAA
    AACCTGCTGC TGAGGGGCTG CACCCTTAGG AACACGGACG CAGTCGTCGG CATTGTCATC
    TACGCAGGAC ATGAAACCAA GGCTCTGCTG AACAACAGTG GGCCCCGCTA CAAGCGCAGC
    AAGCTGGAGA GGCAGATGAA CTGCGACGTG CTCTGGTGTG TCCTGCTCCT TGTTTGCATG
    TCTCTGTTTT CAGCAGTCGG ACATGGACTG TGGATATGGC GGTATCAAGA GAAGAAGTCA
    TTATTTTATG TCCCCAAGTC TGATGGAAGC TCCTTATCCC CAGTCACAGC TGCAGTTTAC
    TCATTTTTAA CAATGATAAT AGTTCTGCAG GTTTTGATCC CAATTTCCTT ATACGTTTCC
    ATTGAAATTG TTAAAGCATG CCAAGTGTAC TTCATTAACC AGGACATGCA GTTGTATGAC
    GAAGAAACAG ACTCGCAGCT GCAGTGCCGA GCTCTGAACA TCACGGAAGA CTTAGGACAG
    ATACAGTACA TTTTCTCAGA TAAAACTGGC ACTTTGACAG AGAATAAGAT GGTTTTCCGA
    AGATGCACTG TGTCTGGTGT AGAATATTCT CATGATGCAA ATGCGCAGCG TCTGGCCAGG
    TACCAAGAGG CAGACTCGGA GGAGGAGGAG GTGGTGCCCA GAGGGGGCTC GGTGTCCCAG
    CGCGGCAGCA TCGGCAGCCA CCAGAGTGTC CGGGTGGTGC ACAGAACCCA GAGCACCAAG
    TCCCACCGGC GCACGGGCAG CCGGGCCGAG GCCAAGAGGG CCAGCATGCT GTCCAAGCAC
    ACGGCCTTCA GCAGCCCCAT GGAGAAGGAT ATCACGCCCG ACCCAAAGCT GCTGGAGAAG
    GTGAGTGAGT GTGACAAGAG CCTAGCCGTG GCGAGGCATC AGGAGCACCT GCTGGCCCAC
    CTCTCGCCTG AGCTGTCTGA CGTCTTTGAT TTCTTCATCG CACTCACCAT CTGCAACACA
    GTCGTCGTCA CGTCCCCGGA TCAGCCACGA ACAAAGGTGA GGGTGAGGTT TGAGCTGAAG
    TCCCCGGTGA AGACGATAGA AGACTTCCTG CGGAGGTTCA CACCCAGCTG CCTGACCTCA
    GGCTGCAGCA GCATCGGGAG CCTGGCCGCC AACAAGTCCA GCCACAAGTT GGGCTCCAGC
    TTCCCGTCCA CCCCGTCCAG CGACGGCATG CTTCTCAGGC TGGAGGAGAG GCTGGGCCAG
    CCCACCTCGG CCATCGCCAG CAACGGCTAC AGCAGCCAGG CGGACAACTG GGCCTCGGAG
    CTTGCTCAGG AGCAGGAGTC AGAGCGCGAG CTGCGGTACG AGGCGGAGAG CCCGGATGAG
    GCCGCACTGG TGTATGCGGC CAGAGCCTAC AACTGCGTGC TTGTGGAGCG GCTGCACGAC
    CAAGTGTCAG TGGAGCTGCC CCACCTGGGC AGGCTCACCT TCGAGCTCCT GCACACACTG
    GGTTTCGATT CCGTCCGCAA GAGGATGTCA GTGGTGATCC GGCACCCGCT TACCGATGAG
    ATCAACGTCT ACACCAAGGG GGCCGACTCA GTGGTCATGG ATCTCCTGCA GCCCTGCTCT
    TCAGTTGACG CCAGAGGGAG GCATCAAAAA AAGATTCGGA GCAAAACTCA GAATTACCTC
    AACGTGTATG CGGCGGAAGG CCTGCGCACC TTGTGCATCG CCAAGAGAGT TCTGAGTAAA
    GAAGAGTATG CCTGCTGGTT GCAAAGCCAC CTAGAAGCCG AATCCTCCCT GGAAAACAGC
    GAGGAGCTCC TCTTCCAGTC TGCCATTCGC CTGGAGACCA ACCTGCACTT GTTAGGTGCC
    ACTGGGATTG AAGACCGCCT GCAGGACGGA GTCCCTGAAA CTATTTCTAA ATTGCGTCAA
    GCGGGCCTGC AGATTTGGGT TCTCACTGGT GACAAACAAG AAACAGCTGT CAACATTGCA
    TATGCCTGCA AACTGCTGGA CCACGACGAG GAGGTCATCA CCCTGAATGC CACCTCCCAG
    GAGGCGTGTG CAGCCCTGCT AGACCAGTGC CTATGCTACG TGCAGTCCAG AGGCCTCCAG
    AGAGCCCCTG AGAAGACCAA GGGCAAAGTG AGCATGAGGT TCTCCTCTCT CTGCCCACCC
    TCCACGTCCA CTGCCTCTGG CCGCAGACCC AGCCTCGTGA TCGATGGGAG AAGCCTGGCC
    TACGCTCTCG AGAAAAACCT GGAGGACAAA TTCCTCTTCC TTGCCAAGCA GTGCCGCTCC
    GTCCTCTGCT GTCGGTCGAC GCCTCTGCAG AAGAGCATGG TGGTGAAGCT GGTGCGGAGC
    AAGCTCAAGG CCATGACCCT GGCCATAGGT GATGGAGCCA ATGATGTCAG CATGATCCAG
    GTGGCAGATG TGGGTGTGGG AATCTCCGGC CAGGAGGGTA TGCAGGCAGT GATGGCCAGC
    GACTTTGCAG TGCCGAAATT CCGATACCTG GAGAGGCTCT TGATTCTTCA CGGGCATTGG
    TGCTACTCCC GACTTGCCAA CATGGTGCTG TACTTCTTCT ACAAAAACAC AATGTTCGTG
    GGCCTCCTGT TTTGGTTCCA GTTTTTCTGT GGCTTCTCTG CATCTACCAT GATTGACCAG
    TGGTATCTAA TCTTCTTTAA TCTGCTCTTC TCGTCACTTC CCCCGCTCGT GACTGGGGTG
    CTGGACAGGG ATGTGCCAGC CAATGTGCTG CTGACCAACC CGCAGCTCTA CAAGAGTGGC
    CAGAACATGG AGGAATACCG GCCACGAACG TTCTGGTTTA ACATGGCCGA CGCCGCCTTC
    CAGAGCCTGG TTTGCTTTTC CATTCCTTAC CTGGCCTACT ATGACTCGAA CGTGGACCTG
    TTTACCTGGG GGACCCCTAT TGTGACAATC GCGCTGCTCA CTTTCCTGCT CCACCTGGGC
    ATTGAAACCA AAACCTGGAC CTGGCTCAAC TGGATAACGT GTGGCTTCAG TGTCCTTTTG
    TTTTTCACCG TGGCTTTGAT TTACAATGCG TCTTGTGCCA CGTGCTATCC TCCGTCCAAC
    CCTTACTGGA CTATGCAAGC CTTACTGGGT GACCCAGTGT TTTACTTGAC TTGCCTGATG
    ACGCCTGTCG CTGCACTGCT GCCCAGATTG TTTTTCAGAT CCCTCCAGGG GAGGGTTTTC
    CCCACACAAC TTCAGCTGGC ACGTCAGTTG ACCAGGAAGT CCCCCAGGAG ATGCAGTGCT
    CCCAAAGAGA CCTTTGCTCA GGGACGCCTC CCGAAGGACT CGGGAACCGA GCACTCATCA
    GGGAGGACAG TCAAGACCTC TGTGCCCCTG TCCCAGCCTT CTTGGCACAC ACAGCAGCCG
    GTCTGCTCCC TGGAGGCCAG CGGGGAGCCC AGCACAGTGG ACATGAGCAT GCCAGTGAGG
    GAGCACACCC TGCTGGAGGG GCTGAGCGCA CCGGCCCCCA TGTCCTCTGC GCCAGGGGAG
    GCTGTCCTGA GGAGTCCAGG AGGGTGTCCT GAGGAGTCCA AGGTGAGAGC TGCCAGCACC
    GGCAGGGTGA CCCCCCTGTC TTCCCTCTTC AGCCTGCCTA CCTTCAGCTT ACTCAACTGG
    ATTTCCTCCT GGTCGCTGGT CAGCAGGCTG GGGAGTGTCT TACAGTTCTC CCGGACGGAG
    CAGCTTGCAG ATGGACAAGC GGGACGTGGA CTTCCTGTCC AGCCCCACTC AGGCCGATCA
    GGACTTCAAG GGCCAGACCA CAGACTACTT ATAGGAGCAT CTTCAAGGCG GTCACAGTGA

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

    CloneID OHu17963
    Clone ID Related Accession (Same CDS sequence) XM_005268261.4 , NM_024490.3 , XM_011521826.2
    Accession Version XM_011521826.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4500bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VA isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011521826.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGCGGG AGCCGGCGGG GACCGAGGAG CCCGGGCCTC CGGGACGGCG GAGGCGCCGA 
    GAGGGCAGGA CGCGCACGGT GCGCTCCAAC CTGCTGCCGC CCCCGGGCGC CGAGGACCCT
    GCGGCTGGCG CGGCCAAGGG CGAGCGGCGA CGGCGGCGCG GGTGTGCCCA GCACCTGGCC
    GACAACCGGC TCAAGACTAC CAAGTACACG CTGCTGTCCT TCCTGCCCAA GAACCTGTTC
    GAGCAGTTCC ACCGCCCGGC CAACGTGTAC TTTGTCTTCA TCGCGCTGCT CAACTTCGTG
    CCGGCGGTGA ACGCCTTCCA GCCCGGCCTG GCACTGGCGC CGGTGCTCTT CATCCTGGCC
    ATCACGGCCT TCAGGGACCT GTGGGAGGAC TACAGCCGCC ACCGCTCCGA CCACAAGATC
    AACCACCTGG GCTGCCTGGT CTTCAGCAGG GAAGAAAAGA AATACGTGAA CCGATTCTGG
    AAAGAAATCC ACGTGGGAGA CTTTGTGCGT CTTCGCTGCA ACGAAATCTT CCCTGCGGAC
    ATTCTGCTGC TCTCCTCCAG TGACCCCGAC GGGCTATGCC ACATCGAGAC CGCCAACCTG
    GATGGAGAGA CCAACCTGAA GCGGCGGCAG GTGGTCCGCG GCTTCTCGGA GCTTGTCTCC
    GAATTCAATC CTTTGACGTT CACCAGCGTG ATCGAATGCG AGAAGCCAAA CAACGACCTG
    AGTAGGTTTC GCGGCTGCAT CATACATGAC AACGGGAAAA AGGCCGGGCT GTATAAAGAA
    AACCTGCTGC TGAGGGGCTG CACCCTTAGG AACACGGACG CAGTCGTCGG CATTGTCATC
    TACGCAGGAC ATGAAACCAA GGCTCTGCTG AACAACAGTG GGCCCCGCTA CAAGCGCAGC
    AAGCTGGAGA GGCAGATGAA CTGCGACGTG CTCTGGTGTG TCCTGCTCCT TGTTTGCATG
    TCTCTGTTTT CAGCAGTCGG ACATGGACTG TGGATATGGC GGTATCAAGA GAAGAAGTCA
    TTATTTTATG TCCCCAAGTC TGATGGAAGC TCCTTATCCC CAGTCACAGC TGCAGTTTAC
    TCATTTTTAA CAATGATAAT AGTTCTGCAG GTTTTGATCC CAATTTCCTT ATACGTTTCC
    ATTGAAATTG TTAAAGCATG CCAAGTGTAC TTCATTAACC AGGACATGCA GTTGTATGAC
    GAAGAAACAG ACTCGCAGCT GCAGTGCCGA GCTCTGAACA TCACGGAAGA CTTAGGACAG
    ATACAGTACA TTTTCTCAGA TAAAACTGGC ACTTTGACAG AGAATAAGAT GGTTTTCCGA
    AGATGCACTG TGTCTGGTGT AGAATATTCT CATGATGCAA ATGCGCAGCG TCTGGCCAGG
    TACCAAGAGG CAGACTCGGA GGAGGAGGAG GTGGTGCCCA GAGGGGGCTC GGTGTCCCAG
    CGCGGCAGCA TCGGCAGCCA CCAGAGTGTC CGGGTGGTGC ACAGAACCCA GAGCACCAAG
    TCCCACCGGC GCACGGGCAG CCGGGCCGAG GCCAAGAGGG CCAGCATGCT GTCCAAGCAC
    ACGGCCTTCA GCAGCCCCAT GGAGAAGGAT ATCACGCCCG ACCCAAAGCT GCTGGAGAAG
    GTGAGTGAGT GTGACAAGAG CCTAGCCGTG GCGAGGCATC AGGAGCACCT GCTGGCCCAC
    CTCTCGCCTG AGCTGTCTGA CGTCTTTGAT TTCTTCATCG CACTCACCAT CTGCAACACA
    GTCGTCGTCA CGTCCCCGGA TCAGCCACGA ACAAAGGTGA GGGTGAGGTT TGAGCTGAAG
    TCCCCGGTGA AGACGATAGA AGACTTCCTG CGGAGGTTCA CACCCAGCTG CCTGACCTCA
    GGCTGCAGCA GCATCGGGAG CCTGGCCGCC AACAAGTCCA GCCACAAGTT GGGCTCCAGC
    TTCCCGTCCA CCCCGTCCAG CGACGGCATG CTTCTCAGGC TGGAGGAGAG GCTGGGCCAG
    CCCACCTCGG CCATCGCCAG CAACGGCTAC AGCAGCCAGG CGGACAACTG GGCCTCGGAG
    CTTGCTCAGG AGCAGGAGTC AGAGCGCGAG CTGCGGTACG AGGCGGAGAG CCCGGATGAG
    GCCGCACTGG TGTATGCGGC CAGAGCCTAC AACTGCGTGC TTGTGGAGCG GCTGCACGAC
    CAAGTGTCAG TGGAGCTGCC CCACCTGGGC AGGCTCACCT TCGAGCTCCT GCACACACTG
    GGTTTCGATT CCGTCCGCAA GAGGATGTCA GTGGTGATCC GGCACCCGCT TACCGATGAG
    ATCAACGTCT ACACCAAGGG GGCCGACTCA GTGGTCATGG ATCTCCTGCA GCCCTGCTCT
    TCAGTTGACG CCAGAGGGAG GCATCAAAAA AAGATTCGGA GCAAAACTCA GAATTACCTC
    AACGTGTATG CGGCGGAAGG CCTGCGCACC TTGTGCATCG CCAAGAGAGT TCTGAGTAAA
    GAAGAGTATG CCTGCTGGTT GCAAAGCCAC CTAGAAGCCG AATCCTCCCT GGAAAACAGC
    GAGGAGCTCC TCTTCCAGTC TGCCATTCGC CTGGAGACCA ACCTGCACTT GTTAGGTGCC
    ACTGGGATTG AAGACCGCCT GCAGGACGGA GTCCCTGAAA CTATTTCTAA ATTGCGTCAA
    GCGGGCCTGC AGATTTGGGT TCTCACTGGT GACAAACAAG AAACAGCTGT CAACATTGCA
    TATGCCTGCA AACTGCTGGA CCACGACGAG GAGGTCATCA CCCTGAATGC CACCTCCCAG
    GAGGCGTGTG CAGCCCTGCT AGACCAGTGC CTATGCTACG TGCAGTCCAG AGGCCTCCAG
    AGAGCCCCTG AGAAGACCAA GGGCAAAGTG AGCATGAGGT TCTCCTCTCT CTGCCCACCC
    TCCACGTCCA CTGCCTCTGG CCGCAGACCC AGCCTCGTGA TCGATGGGAG AAGCCTGGCC
    TACGCTCTCG AGAAAAACCT GGAGGACAAA TTCCTCTTCC TTGCCAAGCA GTGCCGCTCC
    GTCCTCTGCT GTCGGTCGAC GCCTCTGCAG AAGAGCATGG TGGTGAAGCT GGTGCGGAGC
    AAGCTCAAGG CCATGACCCT GGCCATAGGT GATGGAGCCA ATGATGTCAG CATGATCCAG
    GTGGCAGATG TGGGTGTGGG AATCTCCGGC CAGGAGGGTA TGCAGGCAGT GATGGCCAGC
    GACTTTGCAG TGCCGAAATT CCGATACCTG GAGAGGCTCT TGATTCTTCA CGGGCATTGG
    TGCTACTCCC GACTTGCCAA CATGGTGCTG TACTTCTTCT ACAAAAACAC AATGTTCGTG
    GGCCTCCTGT TTTGGTTCCA GTTTTTCTGT GGCTTCTCTG CATCTACCAT GATTGACCAG
    TGGTATCTAA TCTTCTTTAA TCTGCTCTTC TCGTCACTTC CCCCGCTCGT GACTGGGGTG
    CTGGACAGGG ATGTGCCAGC CAATGTGCTG CTGACCAACC CGCAGCTCTA CAAGAGTGGC
    CAGAACATGG AGGAATACCG GCCACGAACG TTCTGGTTTA ACATGGCCGA CGCCGCCTTC
    CAGAGCCTGG TTTGCTTTTC CATTCCTTAC CTGGCCTACT ATGACTCGAA CGTGGACCTG
    TTTACCTGGG GGACCCCTAT TGTGACAATC GCGCTGCTCA CTTTCCTGCT CCACCTGGGC
    ATTGAAACCA AAACCTGGAC CTGGCTCAAC TGGATAACGT GTGGCTTCAG TGTCCTTTTG
    TTTTTCACCG TGGCTTTGAT TTACAATGCG TCTTGTGCCA CGTGCTATCC TCCGTCCAAC
    CCTTACTGGA CTATGCAAGC CTTACTGGGT GACCCAGTGT TTTACTTGAC TTGCCTGATG
    ACGCCTGTCG CTGCACTGCT GCCCAGATTG TTTTTCAGAT CCCTCCAGGG GAGGGTTTTC
    CCCACACAAC TTCAGCTGGC ACGTCAGTTG ACCAGGAAGT CCCCCAGGAG ATGCAGTGCT
    CCCAAAGAGA CCTTTGCTCA GGGACGCCTC CCGAAGGACT CGGGAACCGA GCACTCATCA
    GGGAGGACAG TCAAGACCTC TGTGCCCCTG TCCCAGCCTT CTTGGCACAC ACAGCAGCCG
    GTCTGCTCCC TGGAGGCCAG CGGGGAGCCC AGCACAGTGG ACATGAGCAT GCCAGTGAGG
    GAGCACACCC TGCTGGAGGG GCTGAGCGCA CCGGCCCCCA TGTCCTCTGC GCCAGGGGAG
    GCTGTCCTGA GGAGTCCAGG AGGGTGTCCT GAGGAGTCCA AGGTGAGAGC TGCCAGCACC
    GGCAGGGTGA CCCCCCTGTC TTCCCTCTTC AGCCTGCCTA CCTTCAGCTT ACTCAACTGG
    ATTTCCTCCT GGTCGCTGGT CAGCAGGCTG GGGAGTGTCT TACAGTTCTC CCGGACGGAG
    CAGCTTGCAG ATGGACAAGC GGGACGTGGA CTTCCTGTCC AGCCCCACTC AGGCCGATCA
    GGACTTCAAG GGCCAGACCA CAGACTACTT ATAGGAGCAT CTTCAAGGCG GTCACAGTGA

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

    RefSeq XP_011520128.1
    CDS408..4907
    Translation

    Target ORF information:

    RefSeq Version XM_011521826.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011521826.2

    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
    ATGGAGCGGG AGCCGGCGGG GACCGAGGAG CCCGGGCCTC CGGGACGGCG GAGGCGCCGA 
    GAGGGCAGGA CGCGCACGGT GCGCTCCAAC CTGCTGCCGC CCCCGGGCGC CGAGGACCCT
    GCGGCTGGCG CGGCCAAGGG CGAGCGGCGA CGGCGGCGCG GGTGTGCCCA GCACCTGGCC
    GACAACCGGC TCAAGACTAC CAAGTACACG CTGCTGTCCT TCCTGCCCAA GAACCTGTTC
    GAGCAGTTCC ACCGCCCGGC CAACGTGTAC TTTGTCTTCA TCGCGCTGCT CAACTTCGTG
    CCGGCGGTGA ACGCCTTCCA GCCCGGCCTG GCACTGGCGC CGGTGCTCTT CATCCTGGCC
    ATCACGGCCT TCAGGGACCT GTGGGAGGAC TACAGCCGCC ACCGCTCCGA CCACAAGATC
    AACCACCTGG GCTGCCTGGT CTTCAGCAGG GAAGAAAAGA AATACGTGAA CCGATTCTGG
    AAAGAAATCC ACGTGGGAGA CTTTGTGCGT CTTCGCTGCA ACGAAATCTT CCCTGCGGAC
    ATTCTGCTGC TCTCCTCCAG TGACCCCGAC GGGCTATGCC ACATCGAGAC CGCCAACCTG
    GATGGAGAGA CCAACCTGAA GCGGCGGCAG GTGGTCCGCG GCTTCTCGGA GCTTGTCTCC
    GAATTCAATC CTTTGACGTT CACCAGCGTG ATCGAATGCG AGAAGCCAAA CAACGACCTG
    AGTAGGTTTC GCGGCTGCAT CATACATGAC AACGGGAAAA AGGCCGGGCT GTATAAAGAA
    AACCTGCTGC TGAGGGGCTG CACCCTTAGG AACACGGACG CAGTCGTCGG CATTGTCATC
    TACGCAGGAC ATGAAACCAA GGCTCTGCTG AACAACAGTG GGCCCCGCTA CAAGCGCAGC
    AAGCTGGAGA GGCAGATGAA CTGCGACGTG CTCTGGTGTG TCCTGCTCCT TGTTTGCATG
    TCTCTGTTTT CAGCAGTCGG ACATGGACTG TGGATATGGC GGTATCAAGA GAAGAAGTCA
    TTATTTTATG TCCCCAAGTC TGATGGAAGC TCCTTATCCC CAGTCACAGC TGCAGTTTAC
    TCATTTTTAA CAATGATAAT AGTTCTGCAG GTTTTGATCC CAATTTCCTT ATACGTTTCC
    ATTGAAATTG TTAAAGCATG CCAAGTGTAC TTCATTAACC AGGACATGCA GTTGTATGAC
    GAAGAAACAG ACTCGCAGCT GCAGTGCCGA GCTCTGAACA TCACGGAAGA CTTAGGACAG
    ATACAGTACA TTTTCTCAGA TAAAACTGGC ACTTTGACAG AGAATAAGAT GGTTTTCCGA
    AGATGCACTG TGTCTGGTGT AGAATATTCT CATGATGCAA ATGCGCAGCG TCTGGCCAGG
    TACCAAGAGG CAGACTCGGA GGAGGAGGAG GTGGTGCCCA GAGGGGGCTC GGTGTCCCAG
    CGCGGCAGCA TCGGCAGCCA CCAGAGTGTC CGGGTGGTGC ACAGAACCCA GAGCACCAAG
    TCCCACCGGC GCACGGGCAG CCGGGCCGAG GCCAAGAGGG CCAGCATGCT GTCCAAGCAC
    ACGGCCTTCA GCAGCCCCAT GGAGAAGGAT ATCACGCCCG ACCCAAAGCT GCTGGAGAAG
    GTGAGTGAGT GTGACAAGAG CCTAGCCGTG GCGAGGCATC AGGAGCACCT GCTGGCCCAC
    CTCTCGCCTG AGCTGTCTGA CGTCTTTGAT TTCTTCATCG CACTCACCAT CTGCAACACA
    GTCGTCGTCA CGTCCCCGGA TCAGCCACGA ACAAAGGTGA GGGTGAGGTT TGAGCTGAAG
    TCCCCGGTGA AGACGATAGA AGACTTCCTG CGGAGGTTCA CACCCAGCTG CCTGACCTCA
    GGCTGCAGCA GCATCGGGAG CCTGGCCGCC AACAAGTCCA GCCACAAGTT GGGCTCCAGC
    TTCCCGTCCA CCCCGTCCAG CGACGGCATG CTTCTCAGGC TGGAGGAGAG GCTGGGCCAG
    CCCACCTCGG CCATCGCCAG CAACGGCTAC AGCAGCCAGG CGGACAACTG GGCCTCGGAG
    CTTGCTCAGG AGCAGGAGTC AGAGCGCGAG CTGCGGTACG AGGCGGAGAG CCCGGATGAG
    GCCGCACTGG TGTATGCGGC CAGAGCCTAC AACTGCGTGC TTGTGGAGCG GCTGCACGAC
    CAAGTGTCAG TGGAGCTGCC CCACCTGGGC AGGCTCACCT TCGAGCTCCT GCACACACTG
    GGTTTCGATT CCGTCCGCAA GAGGATGTCA GTGGTGATCC GGCACCCGCT TACCGATGAG
    ATCAACGTCT ACACCAAGGG GGCCGACTCA GTGGTCATGG ATCTCCTGCA GCCCTGCTCT
    TCAGTTGACG CCAGAGGGAG GCATCAAAAA AAGATTCGGA GCAAAACTCA GAATTACCTC
    AACGTGTATG CGGCGGAAGG CCTGCGCACC TTGTGCATCG CCAAGAGAGT TCTGAGTAAA
    GAAGAGTATG CCTGCTGGTT GCAAAGCCAC CTAGAAGCCG AATCCTCCCT GGAAAACAGC
    GAGGAGCTCC TCTTCCAGTC TGCCATTCGC CTGGAGACCA ACCTGCACTT GTTAGGTGCC
    ACTGGGATTG AAGACCGCCT GCAGGACGGA GTCCCTGAAA CTATTTCTAA ATTGCGTCAA
    GCGGGCCTGC AGATTTGGGT TCTCACTGGT GACAAACAAG AAACAGCTGT CAACATTGCA
    TATGCCTGCA AACTGCTGGA CCACGACGAG GAGGTCATCA CCCTGAATGC CACCTCCCAG
    GAGGCGTGTG CAGCCCTGCT AGACCAGTGC CTATGCTACG TGCAGTCCAG AGGCCTCCAG
    AGAGCCCCTG AGAAGACCAA GGGCAAAGTG AGCATGAGGT TCTCCTCTCT CTGCCCACCC
    TCCACGTCCA CTGCCTCTGG CCGCAGACCC AGCCTCGTGA TCGATGGGAG AAGCCTGGCC
    TACGCTCTCG AGAAAAACCT GGAGGACAAA TTCCTCTTCC TTGCCAAGCA GTGCCGCTCC
    GTCCTCTGCT GTCGGTCGAC GCCTCTGCAG AAGAGCATGG TGGTGAAGCT GGTGCGGAGC
    AAGCTCAAGG CCATGACCCT GGCCATAGGT GATGGAGCCA ATGATGTCAG CATGATCCAG
    GTGGCAGATG TGGGTGTGGG AATCTCCGGC CAGGAGGGTA TGCAGGCAGT GATGGCCAGC
    GACTTTGCAG TGCCGAAATT CCGATACCTG GAGAGGCTCT TGATTCTTCA CGGGCATTGG
    TGCTACTCCC GACTTGCCAA CATGGTGCTG TACTTCTTCT ACAAAAACAC AATGTTCGTG
    GGCCTCCTGT TTTGGTTCCA GTTTTTCTGT GGCTTCTCTG CATCTACCAT GATTGACCAG
    TGGTATCTAA TCTTCTTTAA TCTGCTCTTC TCGTCACTTC CCCCGCTCGT GACTGGGGTG
    CTGGACAGGG ATGTGCCAGC CAATGTGCTG CTGACCAACC CGCAGCTCTA CAAGAGTGGC
    CAGAACATGG AGGAATACCG GCCACGAACG TTCTGGTTTA ACATGGCCGA CGCCGCCTTC
    CAGAGCCTGG TTTGCTTTTC CATTCCTTAC CTGGCCTACT ATGACTCGAA CGTGGACCTG
    TTTACCTGGG GGACCCCTAT TGTGACAATC GCGCTGCTCA CTTTCCTGCT CCACCTGGGC
    ATTGAAACCA AAACCTGGAC CTGGCTCAAC TGGATAACGT GTGGCTTCAG TGTCCTTTTG
    TTTTTCACCG TGGCTTTGAT TTACAATGCG TCTTGTGCCA CGTGCTATCC TCCGTCCAAC
    CCTTACTGGA CTATGCAAGC CTTACTGGGT GACCCAGTGT TTTACTTGAC TTGCCTGATG
    ACGCCTGTCG CTGCACTGCT GCCCAGATTG TTTTTCAGAT CCCTCCAGGG GAGGGTTTTC
    CCCACACAAC TTCAGCTGGC ACGTCAGTTG ACCAGGAAGT CCCCCAGGAG ATGCAGTGCT
    CCCAAAGAGA CCTTTGCTCA GGGACGCCTC CCGAAGGACT CGGGAACCGA GCACTCATCA
    GGGAGGACAG TCAAGACCTC TGTGCCCCTG TCCCAGCCTT CTTGGCACAC ACAGCAGCCG
    GTCTGCTCCC TGGAGGCCAG CGGGGAGCCC AGCACAGTGG ACATGAGCAT GCCAGTGAGG
    GAGCACACCC TGCTGGAGGG GCTGAGCGCA CCGGCCCCCA TGTCCTCTGC GCCAGGGGAG
    GCTGTCCTGA GGAGTCCAGG AGGGTGTCCT GAGGAGTCCA AGGTGAGAGC TGCCAGCACC
    GGCAGGGTGA CCCCCCTGTC TTCCCTCTTC AGCCTGCCTA CCTTCAGCTT ACTCAACTGG
    ATTTCCTCCT GGTCGCTGGT CAGCAGGCTG GGGAGTGTCT TACAGTTCTC CCGGACGGAG
    CAGCTTGCAG ATGGACAAGC GGGACGTGGA CTTCCTGTCC AGCCCCACTC AGGCCGATCA
    GGACTTCAAG GGCCAGACCA CAGACTACTT ATAGGAGCAT CTTCAAGGCG GTCACAGTGA

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

    CloneID OHu70373
    Clone ID Related Accession (Same CDS sequence) XM_011521828.2
    Accession Version XM_011521828.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4251bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VA isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011521828.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAGCGGG AGCCGGCGGG GACCGAGGAG CCCGGGCCTC CGGGACGGCG GAGGCGCCGA 
    GAGGGCAGGA CGCGCACGGT GCGCTCCAAC CTGCTGCCGC CCCCGGGCGC CGAGGACCCT
    GCGGCTGGCG CGGCCAAGGG CGAGCGGCGA CGGCGGCGCG GGTGTGCCCA GCACCTGGCC
    GACAACCGGC TCAAGACTAC CAAGTACACG CTGCTGTCCT TCCTGCCCAA GAACCTGTTC
    GAGCAGTTCC ACCGCCCGGC CAACGTGTAC TTTGTCTTCA TCGCGCTGCT CAACTTCGTG
    CCGGCGGTGA ACGCCTTCCA GCCCGGCCTG GCACTGGCGC CGGTGCTCTT CATCCTGGCC
    ATCACGGCCT TCAGGGACCT GTGGGAGGAC TACAGCCGCC ACCGCTCCGA CCACAAGATC
    AACCACCTGG GCTGCCTGGT CTTCAGCAGG GAAGAAAAGA AATACGTGAA CCGATTCTGG
    AAAGAAATCC ACGTGGGAGA CTTTGTGCGT CTTCGCTGCA ACGAAATCTT CCCTGCGGAC
    ATTCTGCTGC TCTCCTCCAG TGACCCCGAC GGGCTATGCC ACATCGAGAC CGCCAACCTG
    GATGGAGAGA CCAACCTGAA GCGGCGGCAG GTGGTCCGCG GCTTCTCGGA GCTTGTCTCC
    GAATTCAATC CTTTGACGTT CACCAGCGTG ATCGAATGCG AGAAGCCAAA CAACGACCTG
    AGTAGGTTTC GCGGCTGCAT CATACATGAC AACGGGAAAA AGGCCGGGCT GTATAAAGAA
    AACCTGCTGC TGAGGGGCTG CACCCTTAGG AACACGGACG CAGTCGTCGG CATTGTCATC
    TACGCAGGAC ATGAAACCAA GGCTCTGCTG AACAACAGTG GGCCCCGCTA CAAGCGCAGC
    AAGCTGGAGA GGCAGATGAA CTGCGACGTG CTCTGGTGTG TCCTGCTCCT TGTTTGCATG
    TCTCTGTTTT CAGCAGTCGG ACATGGACTG TGGATATGGC GGTATCAAGA GAAGAAGTCA
    TTATTTTATG TCCCCAAGTC TGATGGAAGC TCCTTATCCC CAGTCACAGC TGCAGTTTAC
    TCATTTTTAA CAATGATAAT AGTTCTGCAG GTTTTGATCC CAATTTCCTT ATACGTTTCC
    ATTGAAATTG TTAAAGCATG CCAAGTGTAC TTCATTAACC AGGACATGCA GTTGTATGAC
    GAAGAAACAG ACTCGCAGCT GCAGTGCCGA GCTCTGAACA TCACGGAAGA CTTAGGACAG
    ATACAGTACA TTTTCTCAGA TAAAACTGGC ACTTTGACAG AGAATAAGAT GGTTTTCCGA
    AGATGCACTG TGTCTGGTGT AGAATATTCT CATGATGCAA ATGCGCAGCG TCTGGCCAGG
    TACCAAGAGG CAGACTCGGA GGAGGAGGAG GTGGTGCCCA GAGGGGGCTC GGTGTCCCAG
    CGCGGCAGCA TCGGCAGCCA CCAGAGTGTC CGGGTGGTGC ACAGAACCCA GAGCACCAAG
    TCCCACCGGC GCACGGGCAG CCGGGCCGAG GCCAAGAGGG CCAGCATGCT GTCCAAGCAC
    ACGGCCTTCA GCAGCCCCAT GGAGAAGGAT ATCACGCCCG ACCCAAAGCT GCTGGAGAAG
    GTGAGTGAGT GTGACAAGAG CCTAGCCGTG GCGAGGCATC AGGAGCACCT GCTGGCCCAC
    CTCTCGCCTG AGCTGTCTGA CGTCTTTGAT TTCTTCATCG CACTCACCAT CTGCAACACA
    GTCGTCGTCA CGTCCCCGGA TCAGCCACGA ACAAAGGTGA GGGTGAGGTT TGAGCTGAAG
    TCCCCGGTGA AGACGATAGA AGACTTCCTG CGGAGGTTCA CACCCAGCTG CCTGACCTCA
    GGCTGCAGCA GCATCGGGAG CCTGGCCGCC AACAAGTCCA GCCACAAGTT GGGCTCCAGC
    TTCCCGTCCA CCCCGTCCAG CGACGGCATG CTTCTCAGGC TGGAGGAGAG GCTGGGCCAG
    CCCACCTCGG CCATCGCCAG CAACGGCTAC AGCAGCCAGG CGGACAACTG GGCCTCGGAG
    CTTGCTCAGG AGCAGGAGTC AGAGCGCGAG CTGCGGTACG AGGCGGAGAG CCCGGATGAG
    GCCGCACTGG TGTATGCGGC CAGAGCCTAC AACTGCGTGC TTGTGGAGCG GCTGCACGAC
    CAAGTGTCAG TGGAGCTGCC CCACCTGGGC AGGCTCACCT TCGAGCTCCT GCACACACTG
    GGTTTCGATT CCGTCCGCAA GAGGATGTCA GTGGTGATCC GGCACCCGCT TACCGATGAG
    ATCAACGTCT ACACCAAGGG GGCCGACTCA GTGGTCATGG ATCTCCTGCA GCCCTGCTCT
    TCAGTTGACG CCAGAGGGAG GCATCAAAAA AAGATTCGGA GCAAAACTCA GAATTACCTC
    AACGTGTATG CGGCGGAAGG CCTGCGCACC TTGTGCATCG CCAAGAGAGT TCTGAGTAAA
    GAAGAGTATG CCTGCTGGTT GCAAAGCCAC CTAGAAGCCG AATCCTCCCT GGAAAACAGC
    GAGGAGCTCC TCTTCCAGTC TGCCATTCGC CTGGAGACCA ACCTGCACTT GTTAGGTGCC
    ACTGGGATTG AAGACCGCCT GCAGGACGGA GTCCCTGAAA CTATTTCTAA ATTGCGTCAA
    GCGGGCCTGC AGATTTGGGT TCTCACTGGT GACAAACAAG AAACAGCTGT CAACATTGCA
    TATGCCTGCA AACTGCTGGA CCACGACGAG GAGGTCATCA CCCTGAATGC CACCTCCCAG
    GAGGCGTGTG CAGCCCTGCT AGACCAGTGC CTATGCTACG TGCAGTCCAG AGGCCTCCAG
    AGAGCCCCTG AGAAGACCAA GGGCAAAGTG AGCATGAGGT TCTCCTCTCT CTGCCCACCC
    TCCACGTCCA CTGCCTCTGG CCGCAGACCC AGCCTCGTGA TCGATGGGAG AAGCCTGGCC
    TACGCTCTCG AGAAAAACCT GGAGGACAAA TTCCTCTTCC TTGCCAAGCA GTGCCGCTCC
    GTCCTCTGCT GTCGGTCGAC GCCTCTGCAG AAGAGCATGG TGGTGAAGCT GGTGCGGAGC
    AAGCTCAAGG CCATGACCCT GGCCATAGGT GATGGAGCCA ATGATGTCAG CATGATCCAG
    GTGGCAGATG TGGGTGTGGG AATCTCCGGC CAGGAGGGTA TGCAGGCAGT GATGGCCAGC
    GACTTTGCAG TGCCGAAATT CCGATACCTG GAGAGGCTCT TGATTCTTCA CGGGCATTGG
    TGCTACTCCC GACTTGCCAA CATGGTGCTG TACTTCTTCT ACAAAAACAC AATGTTCGTG
    GGCCTCCTGT TTTGGTTCCA GTTTTTCTGT GGCTTCTCTG CATCTACCAT GATTGACCAG
    TGGTATCTAA TCTTCTTTAA TCTGCTCTTC TCGTCACTTC CCCCGCTCGT GACTGGGGTG
    CTGGACAGGG ATGTGCCAGC CAATGTGCTG CTGACCAACC CGCAGCTCTA CAAGAGTGGC
    CAGAACATGG AGGAATACCG GCCACGAACG TTCTGGTTTA ACATGGCCGA CGCCGCCTTC
    CAGAGCCTGG TTTGCTTTTC CATTCCTTAC CTGGCCTACT ATGACTCGAA CGTGGACCTG
    TTTACCTGGG GGACCCCTAT TGTGACAATC GCGCTGCTCA CTTTCCTGCT CCACCTGGGC
    ATTGAAACCA AAACCTGGAC CTGGCTCAAC TGGATAACGT GTGGCTTCAG TGTCCTTTTG
    TTTTTCACCG TGGCTTTGAT TTACAATGCG TCTTGTGCCA CGTGCTATCC TCCGTCCAAC
    CCTTACTGGA CTATGCAAGC CTTACTGGGT GACCCAGTGT TTTACTTGAC TTGCCTGATG
    ACGCCTGTCG CTGCACTGCT GCCCAGATTG TTTTTCAGAT CCCTCCAGGG GAGGGTTTTC
    CCCACACAAC TTCAGCTGGC ACGTCAGTTG ACCAGGAAGT CCCCCAGGAG ATGCAGTGCT
    CCCAAAGAGA CCTTTGCTCA GGGACGCCTC CCGAAGGACT CGGGAACCGA GCACTCATCA
    GGGAGGACAG TCAAGACCTC TGTGCCCCTG TCCCAGCCTT CTTGGCACAC ACAGCAGCCG
    GTCTGCTCCC TGGAGGCCAG CGGGGAGCCC AGCACAGTGG ACATGAGCAT GCCAGTGAGG
    GAGCACACCC TGCTGGAGGG GCTGAGCGCA CCGGCCCCCA TGTCCTCTGC GCCAGGGGAG
    GCTGTCCTGA GGAGTCCAGG AGGGTGTCCT GAGGAGTCCA AGCTGATGTA G

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

    RefSeq XP_011520130.1
    CDS836..5086
    Translation

    Target ORF information:

    RefSeq Version XM_011521828.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10A (putative) (ATP10A), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011521828.2

    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
    ATGGAGCGGG AGCCGGCGGG GACCGAGGAG CCCGGGCCTC CGGGACGGCG GAGGCGCCGA 
    GAGGGCAGGA CGCGCACGGT GCGCTCCAAC CTGCTGCCGC CCCCGGGCGC CGAGGACCCT
    GCGGCTGGCG CGGCCAAGGG CGAGCGGCGA CGGCGGCGCG GGTGTGCCCA GCACCTGGCC
    GACAACCGGC TCAAGACTAC CAAGTACACG CTGCTGTCCT TCCTGCCCAA GAACCTGTTC
    GAGCAGTTCC ACCGCCCGGC CAACGTGTAC TTTGTCTTCA TCGCGCTGCT CAACTTCGTG
    CCGGCGGTGA ACGCCTTCCA GCCCGGCCTG GCACTGGCGC CGGTGCTCTT CATCCTGGCC
    ATCACGGCCT TCAGGGACCT GTGGGAGGAC TACAGCCGCC ACCGCTCCGA CCACAAGATC
    AACCACCTGG GCTGCCTGGT CTTCAGCAGG GAAGAAAAGA AATACGTGAA CCGATTCTGG
    AAAGAAATCC ACGTGGGAGA CTTTGTGCGT CTTCGCTGCA ACGAAATCTT CCCTGCGGAC
    ATTCTGCTGC TCTCCTCCAG TGACCCCGAC GGGCTATGCC ACATCGAGAC CGCCAACCTG
    GATGGAGAGA CCAACCTGAA GCGGCGGCAG GTGGTCCGCG GCTTCTCGGA GCTTGTCTCC
    GAATTCAATC CTTTGACGTT CACCAGCGTG ATCGAATGCG AGAAGCCAAA CAACGACCTG
    AGTAGGTTTC GCGGCTGCAT CATACATGAC AACGGGAAAA AGGCCGGGCT GTATAAAGAA
    AACCTGCTGC TGAGGGGCTG CACCCTTAGG AACACGGACG CAGTCGTCGG CATTGTCATC
    TACGCAGGAC ATGAAACCAA GGCTCTGCTG AACAACAGTG GGCCCCGCTA CAAGCGCAGC
    AAGCTGGAGA GGCAGATGAA CTGCGACGTG CTCTGGTGTG TCCTGCTCCT TGTTTGCATG
    TCTCTGTTTT CAGCAGTCGG ACATGGACTG TGGATATGGC GGTATCAAGA GAAGAAGTCA
    TTATTTTATG TCCCCAAGTC TGATGGAAGC TCCTTATCCC CAGTCACAGC TGCAGTTTAC
    TCATTTTTAA CAATGATAAT AGTTCTGCAG GTTTTGATCC CAATTTCCTT ATACGTTTCC
    ATTGAAATTG TTAAAGCATG CCAAGTGTAC TTCATTAACC AGGACATGCA GTTGTATGAC
    GAAGAAACAG ACTCGCAGCT GCAGTGCCGA GCTCTGAACA TCACGGAAGA CTTAGGACAG
    ATACAGTACA TTTTCTCAGA TAAAACTGGC ACTTTGACAG AGAATAAGAT GGTTTTCCGA
    AGATGCACTG TGTCTGGTGT AGAATATTCT CATGATGCAA ATGCGCAGCG TCTGGCCAGG
    TACCAAGAGG CAGACTCGGA GGAGGAGGAG GTGGTGCCCA GAGGGGGCTC GGTGTCCCAG
    CGCGGCAGCA TCGGCAGCCA CCAGAGTGTC CGGGTGGTGC ACAGAACCCA GAGCACCAAG
    TCCCACCGGC GCACGGGCAG CCGGGCCGAG GCCAAGAGGG CCAGCATGCT GTCCAAGCAC
    ACGGCCTTCA GCAGCCCCAT GGAGAAGGAT ATCACGCCCG ACCCAAAGCT GCTGGAGAAG
    GTGAGTGAGT GTGACAAGAG CCTAGCCGTG GCGAGGCATC AGGAGCACCT GCTGGCCCAC
    CTCTCGCCTG AGCTGTCTGA CGTCTTTGAT TTCTTCATCG CACTCACCAT CTGCAACACA
    GTCGTCGTCA CGTCCCCGGA TCAGCCACGA ACAAAGGTGA GGGTGAGGTT TGAGCTGAAG
    TCCCCGGTGA AGACGATAGA AGACTTCCTG CGGAGGTTCA CACCCAGCTG CCTGACCTCA
    GGCTGCAGCA GCATCGGGAG CCTGGCCGCC AACAAGTCCA GCCACAAGTT GGGCTCCAGC
    TTCCCGTCCA CCCCGTCCAG CGACGGCATG CTTCTCAGGC TGGAGGAGAG GCTGGGCCAG
    CCCACCTCGG CCATCGCCAG CAACGGCTAC AGCAGCCAGG CGGACAACTG GGCCTCGGAG
    CTTGCTCAGG AGCAGGAGTC AGAGCGCGAG CTGCGGTACG AGGCGGAGAG CCCGGATGAG
    GCCGCACTGG TGTATGCGGC CAGAGCCTAC AACTGCGTGC TTGTGGAGCG GCTGCACGAC
    CAAGTGTCAG TGGAGCTGCC CCACCTGGGC AGGCTCACCT TCGAGCTCCT GCACACACTG
    GGTTTCGATT CCGTCCGCAA GAGGATGTCA GTGGTGATCC GGCACCCGCT TACCGATGAG
    ATCAACGTCT ACACCAAGGG GGCCGACTCA GTGGTCATGG ATCTCCTGCA GCCCTGCTCT
    TCAGTTGACG CCAGAGGGAG GCATCAAAAA AAGATTCGGA GCAAAACTCA GAATTACCTC
    AACGTGTATG CGGCGGAAGG CCTGCGCACC TTGTGCATCG CCAAGAGAGT TCTGAGTAAA
    GAAGAGTATG CCTGCTGGTT GCAAAGCCAC CTAGAAGCCG AATCCTCCCT GGAAAACAGC
    GAGGAGCTCC TCTTCCAGTC TGCCATTCGC CTGGAGACCA ACCTGCACTT GTTAGGTGCC
    ACTGGGATTG AAGACCGCCT GCAGGACGGA GTCCCTGAAA CTATTTCTAA ATTGCGTCAA
    GCGGGCCTGC AGATTTGGGT TCTCACTGGT GACAAACAAG AAACAGCTGT CAACATTGCA
    TATGCCTGCA AACTGCTGGA CCACGACGAG GAGGTCATCA CCCTGAATGC CACCTCCCAG
    GAGGCGTGTG CAGCCCTGCT AGACCAGTGC CTATGCTACG TGCAGTCCAG AGGCCTCCAG
    AGAGCCCCTG AGAAGACCAA GGGCAAAGTG AGCATGAGGT TCTCCTCTCT CTGCCCACCC
    TCCACGTCCA CTGCCTCTGG CCGCAGACCC AGCCTCGTGA TCGATGGGAG AAGCCTGGCC
    TACGCTCTCG AGAAAAACCT GGAGGACAAA TTCCTCTTCC TTGCCAAGCA GTGCCGCTCC
    GTCCTCTGCT GTCGGTCGAC GCCTCTGCAG AAGAGCATGG TGGTGAAGCT GGTGCGGAGC
    AAGCTCAAGG CCATGACCCT GGCCATAGGT GATGGAGCCA ATGATGTCAG CATGATCCAG
    GTGGCAGATG TGGGTGTGGG AATCTCCGGC CAGGAGGGTA TGCAGGCAGT GATGGCCAGC
    GACTTTGCAG TGCCGAAATT CCGATACCTG GAGAGGCTCT TGATTCTTCA CGGGCATTGG
    TGCTACTCCC GACTTGCCAA CATGGTGCTG TACTTCTTCT ACAAAAACAC AATGTTCGTG
    GGCCTCCTGT TTTGGTTCCA GTTTTTCTGT GGCTTCTCTG CATCTACCAT GATTGACCAG
    TGGTATCTAA TCTTCTTTAA TCTGCTCTTC TCGTCACTTC CCCCGCTCGT GACTGGGGTG
    CTGGACAGGG ATGTGCCAGC CAATGTGCTG CTGACCAACC CGCAGCTCTA CAAGAGTGGC
    CAGAACATGG AGGAATACCG GCCACGAACG TTCTGGTTTA ACATGGCCGA CGCCGCCTTC
    CAGAGCCTGG TTTGCTTTTC CATTCCTTAC CTGGCCTACT ATGACTCGAA CGTGGACCTG
    TTTACCTGGG GGACCCCTAT TGTGACAATC GCGCTGCTCA CTTTCCTGCT CCACCTGGGC
    ATTGAAACCA AAACCTGGAC CTGGCTCAAC TGGATAACGT GTGGCTTCAG TGTCCTTTTG
    TTTTTCACCG TGGCTTTGAT TTACAATGCG TCTTGTGCCA CGTGCTATCC TCCGTCCAAC
    CCTTACTGGA CTATGCAAGC CTTACTGGGT GACCCAGTGT TTTACTTGAC TTGCCTGATG
    ACGCCTGTCG CTGCACTGCT GCCCAGATTG TTTTTCAGAT CCCTCCAGGG GAGGGTTTTC
    CCCACACAAC TTCAGCTGGC ACGTCAGTTG ACCAGGAAGT CCCCCAGGAG ATGCAGTGCT
    CCCAAAGAGA CCTTTGCTCA GGGACGCCTC CCGAAGGACT CGGGAACCGA GCACTCATCA
    GGGAGGACAG TCAAGACCTC TGTGCCCCTG TCCCAGCCTT CTTGGCACAC ACAGCAGCCG
    GTCTGCTCCC TGGAGGCCAG CGGGGAGCCC AGCACAGTGG ACATGAGCAT GCCAGTGAGG
    GAGCACACCC TGCTGGAGGG GCTGAGCGCA CCGGCCCCCA TGTCCTCTGC GCCAGGGGAG
    GCTGTCCTGA GGAGTCCAGG AGGGTGTCCT GAGGAGTCCA AGCTGATGTA G

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