ORF » Species Summary » Homo sapiens » ATP9A cDNA ORF clone

ATP9A cDNA ORF clone, Homo sapiens(human)

The following ATP9A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP9A 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
OHu63680 NM_006045.3
Latest version!		 Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $741.30
$1059.00
OHu63679 XM_011528481.3
Latest version!		 Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
View Old Accession Versions >>
OHu63679 XM_011528481.2 Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu63680 NM_006045.2 Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $741.30
$1059.00
Hide Old Accession Versions >>

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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)
    ATP9A ( NM_006045.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_006036.1 Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), mRNA.
    Price & Availability↑
    CloneID OHu63680
    Clone ID Related Accession (Same CDS sequence) NM_006045.2 , NM_006045.3
    Accession Version NM_006045.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3144bp)
    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 2019-02-23
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase IIA
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from HY147052.1, AK299064.1, BC110592.1, BF089115.1 and AL035684.25. On Dec 11, 2014 this sequence version replaced NM_006045.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.6425.1, SRR1803611.253656.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGACGGACA ACATCCCGCT GCAGCCGGTG CGCCAGAAGA AGCGGATGGA CAGCAGGCCC 
    CGCGCCGGGT GCTGCGAGTG GCTGAGATGC TGCGGTGGAG GGGAGGCCAG GCCCCGCACT 
    GTCTGGCTGG GGCACCCCGA GAAGAGAGAC CAGAGGTATC CTCGGAATGT CATCAACAAT 
    CAGAAGTACA ATTTCTTCAC CTTTCTTCCT GGGGTGCTGT TCAACCAGTT CAAATACTTT 
    TTCAACCTCT ATTTCTTACT TCTTGCCTGC TCTCAGTTTG TTCCCGAAAT GAGACTTGGT 
    GCACTCTATA CCTACTGGGT TCCCCTGGGC TTCGTGCTGG CCGTCACTGT CATCCGTGAG 
    GCGGTGGAGG AGATCCGATG CTACGTGCGG GACAAGGAAG TCAACTCCCA GGTCTACAGC 
    CGGCTCACAG CACGAGGCAC AGTGAAGGTG AAGAGTTCTA ACATCCAAGT TGGAGACCTT 
    ATCATCGTTG AAAAGAACCA GCGGGTCCCT GCCGACATGA TCTTCCTGAG GACATCAGAA 
    AAAAACGGGT CATGCTTCTT GCGGACGGAT CAGCTGGATG GGGAGACGGA CTGGAAGCTG 
    CGGCTTCCCG TGGCCTGCAC GCAGAGGCTC CCCACGGCCG CCGACCTTCT TCAGATTCGA 
    TCGTATGTGT ACGCAGAAGA GCCAAATATT GACATTCACA ACTTCGTGGG AACTTTTACC 
    CGAGAAGACA GCGACCCCCC GATCAGCGAG AGCCTGAGCA TAGAGAACAC GCTGTGGGCT 
    GGCACTGTGG TCGCATCAGG TACTGTTGTG GGTGTTGTTC TTTACACTGG CAGAGAACTC 
    CGGAGTGTCA TGAATACCTC AAATCCCCGA AGTAAGATCG GCCTGTTCGA CTTGGAAGTG 
    AACTGCCTCA CCAAGATCCT CTTTGGTGCC CTGGTGGTGG TCTCGCTGGT CATGGTTGCC 
    CTTCAGCACT TTGCAGGCCG TTGGTACCTG CAGATCATCC GCTTCCTCCT CTTGTTTTCC 
    AACATCATCC CCATTAGTTT GCGTGTGAAC CTGGACATGG GCAAGATCGT GTACAGCTGG 
    GTGATTCGAA GGGACTCGAA AATCCCCGGG ACCGTGGTTC GCTCCAGCAC GATTCCTGAG 
    CAGCTGGGCA GGATTTCGTA CTTACTCACA GACAAGACAG GCACTCTTAC CCAGAACGAG 
    ATGATTTTCA AACGGCTCCA TCTCGGAACA GTAGCCTACG GCCTCGACTC AATGGACGAA 
    GTACAAAGCC ACATTTTCAG CATTTACACC CAGCAATCCC AGGACCCACC GGCTCAGAAG 
    GGCCCAACGC TCACCACTAA GGTCCGGCGG ACCATGAGCA GCCGCGTGCA CGAAGCCGTG 
    AAGGCCATCG CGCTCTGCCA CAACGTGACT CCCGTGTATG AGTCCAACGG TGTGACTGAT 
    CAGGCTGAGG CCGAGAAGCA GTACGAAGAC TCCTGCCGCG TATACCAGGC ATCCAGCCCC 
    GATGAGGTGG CCCTGGTACA GTGGACGGAA AGTGTGGGCT TAACCCTGGT GGGCCGAGAC 
    CAGTCTTCCA TGCAGCTGAG GACCCCTGGC GACCAGATCC TGAACTTCAC CATCCTACAG 
    ATCTTCCCTT TCACCTATGA AAGCAAACGT ATGGGCATCA TCGTGCGGGA TGAATCAACT 
    GGAGAAATTA CGTTTTACAT GAAGGGAGCA GATGTGGTCA TGGCTGGCAT TGTGCAGTAC 
    AATGACTGGT TGGAGGAAGA GTGTGGCAAC ATGGCCCGAG AAGGGCTGCG GGTGCTCGTG 
    GTGGCAAAGA AGTCTCTTGC AGAGGAGCAG TATCAGGACT TTGAAGCCCG CTACGTCCAG 
    GCCAAGCTGA GTGTGCACGA CCGCTCCCTC AAAGTGGCCA CGGTGATCGA GAGCCTGGAG 
    ATGGAGATGG AACTGCTGTG CCTGACGGGC GTGGAGGACC AGCTGCAGGC AGATGTGCGG 
    CCCACGCTGG AGACCCTGAG GAATGCTGGC ATCAAGGTTT GGATGCTGAC AGGGGACAAG 
    CTGGAGACAG CTACGTGCAC AGCGAAGAAT GCACATCTGG TGACCAGAAA CCAAGACATC 
    CACGTTTTTC GGCTGGTGAC CAACCGCGGG GAGGCTCACC TCGAGCTGAA CGCCTTCCGC 
    AGGAAGCATG ATTGTGCCCT GGTCATCTCG GGAGACTCCC TGGAGGTTTG CCTCAAGTAC 
    TATGAGTACG AGTTCATGGA GCTGGCCTGC CAGTGCCCGG CCGTAGTCTG CTGCCGATGT 
    GCCCCCACCC AGAAGGCCCA GATCGTGCGC CTGCTTCAGG AGCGCACGGG CAAGCTCACC 
    TGTGCAGTAG GGGACGGAGG CAATGACGTC AGCATGATTC AGGAATCTGA CTGCGGCGTG 
    GGAGTGGAAG GAAAGGAAGG AAAACAGGCT TCGTTGGCTG CAGACTTCTC CATCACTCAA 
    TTTAAGCATC TTGGCCGGTT GCTTATGGTG CATGGCCGGA ACAGCTACAA GCGGTCAGCC 
    GCCCTCAGCC AGTTCGTGAT TCACAGGAGC CTCTGTATCA GCACCATGCA GGCTGTCTTT 
    TCCTCCGTGT TTTACTTTGC CTCCGTCCCT CTCTATCAAG GATTCCTCAT CATTGGGTAC 
    TCCACAATTT ACACCATGTT TCCTGTGTTT TCTCTGGTCC TGGACAAAGA TGTCAAATCG 
    GAAGTTGCCA TGCTGTATCC TGAGCTCTAC AAGGATCTTC TCAAGGGACG GCCGTTGTCC 
    TACAAGACAT TCTTAATATG GGTTTTGATT AGCATCTATC AAGGGAGCAC CATCATGTAC 
    GGGGCGCTGC TGCTGTTTGA GTCGGAGTTC GTGCACATCG TGGCCATCTC CTTCACCTCG 
    CTGATCCTCA CCGAGCTGCT CATGGTGGCG CTGACCATCC AGACCTGGCA CTGGCTCATG 
    ACAGTGGCGG AGCTGCTCAG CCTGGCCTGC TACATCGCCT CCCTGGTGTT CTTACACGAG 
    TTCATCGATG TGTACTTCAT CGCCACCTTG TCATTCTTGT GGAAAGTCTC CGTCATCACT 
    CTGGTCAGCT GCCTCCCCCT CTATGTCCTC AAGTACCTGC GAAGACGGTT CTCTCCCCCC 
    AGCTACTCAA AGCTCACATC ATAG

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

    RefSeq NP_006036.1
    CDS43..3186
    Translation

    Target ORF information:

    RefSeq Version NM_006045.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_006045.2

    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
    ATGACGGACA ACATCCCGCT GCAGCCGGTG CGCCAGAAGA AGCGGATGGA CAGCAGGCCC 
    CGCGCCGGGT GCTGCGAGTG GCTGAGATGC TGCGGTGGAG GGGAGGCCAG GCCCCGCACT 
    GTCTGGCTGG GGCACCCCGA GAAGAGAGAC CAGAGGTATC CTCGGAATGT CATCAACAAT 
    CAGAAGTACA ATTTCTTCAC CTTTCTTCCT GGGGTGCTGT TCAACCAGTT CAAATACTTT 
    TTCAACCTCT ATTTCTTACT TCTTGCCTGC TCTCAGTTTG TTCCCGAAAT GAGACTTGGT 
    GCACTCTATA CCTACTGGGT TCCCCTGGGC TTCGTGCTGG CCGTCACTGT CATCCGTGAG 
    GCGGTGGAGG AGATCCGATG CTACGTGCGG GACAAGGAAG TCAACTCCCA GGTCTACAGC 
    CGGCTCACAG CACGAGGCAC AGTGAAGGTG AAGAGTTCTA ACATCCAAGT TGGAGACCTT 
    ATCATCGTTG AAAAGAACCA GCGGGTCCCT GCCGACATGA TCTTCCTGAG GACATCAGAA 
    AAAAACGGGT CATGCTTCTT GCGGACGGAT CAGCTGGATG GGGAGACGGA CTGGAAGCTG 
    CGGCTTCCCG TGGCCTGCAC GCAGAGGCTC CCCACGGCCG CCGACCTTCT TCAGATTCGA 
    TCGTATGTGT ACGCAGAAGA GCCAAATATT GACATTCACA ACTTCGTGGG AACTTTTACC 
    CGAGAAGACA GCGACCCCCC GATCAGCGAG AGCCTGAGCA TAGAGAACAC GCTGTGGGCT 
    GGCACTGTGG TCGCATCAGG TACTGTTGTG GGTGTTGTTC TTTACACTGG CAGAGAACTC 
    CGGAGTGTCA TGAATACCTC AAATCCCCGA AGTAAGATCG GCCTGTTCGA CTTGGAAGTG 
    AACTGCCTCA CCAAGATCCT CTTTGGTGCC CTGGTGGTGG TCTCGCTGGT CATGGTTGCC 
    CTTCAGCACT TTGCAGGCCG TTGGTACCTG CAGATCATCC GCTTCCTCCT CTTGTTTTCC 
    AACATCATCC CCATTAGTTT GCGTGTGAAC CTGGACATGG GCAAGATCGT GTACAGCTGG 
    GTGATTCGAA GGGACTCGAA AATCCCCGGG ACCGTGGTTC GCTCCAGCAC GATTCCTGAG 
    CAGCTGGGCA GGATTTCGTA CTTACTCACA GACAAGACAG GCACTCTTAC CCAGAACGAG 
    ATGATTTTCA AACGGCTCCA TCTCGGAACA GTAGCCTACG GCCTCGACTC AATGGACGAA 
    GTACAAAGCC ACATTTTCAG CATTTACACC CAGCAATCCC AGGACCCACC GGCTCAGAAG 
    GGCCCAACGC TCACCACTAA GGTCCGGCGG ACCATGAGCA GCCGCGTGCA CGAAGCCGTG 
    AAGGCCATCG CGCTCTGCCA CAACGTGACT CCCGTGTATG AGTCCAACGG TGTGACTGAT 
    CAGGCTGAGG CCGAGAAGCA GTACGAAGAC TCCTGCCGCG TATACCAGGC ATCCAGCCCC 
    GATGAGGTGG CCCTGGTACA GTGGACGGAA AGTGTGGGCT TAACCCTGGT GGGCCGAGAC 
    CAGTCTTCCA TGCAGCTGAG GACCCCTGGC GACCAGATCC TGAACTTCAC CATCCTACAG 
    ATCTTCCCTT TCACCTATGA AAGCAAACGT ATGGGCATCA TCGTGCGGGA TGAATCAACT 
    GGAGAAATTA CGTTTTACAT GAAGGGAGCA GATGTGGTCA TGGCTGGCAT TGTGCAGTAC 
    AATGACTGGT TGGAGGAAGA GTGTGGCAAC ATGGCCCGAG AAGGGCTGCG GGTGCTCGTG 
    GTGGCAAAGA AGTCTCTTGC AGAGGAGCAG TATCAGGACT TTGAAGCCCG CTACGTCCAG 
    GCCAAGCTGA GTGTGCACGA CCGCTCCCTC AAAGTGGCCA CGGTGATCGA GAGCCTGGAG 
    ATGGAGATGG AACTGCTGTG CCTGACGGGC GTGGAGGACC AGCTGCAGGC AGATGTGCGG 
    CCCACGCTGG AGACCCTGAG GAATGCTGGC ATCAAGGTTT GGATGCTGAC AGGGGACAAG 
    CTGGAGACAG CTACGTGCAC AGCGAAGAAT GCACATCTGG TGACCAGAAA CCAAGACATC 
    CACGTTTTTC GGCTGGTGAC CAACCGCGGG GAGGCTCACC TCGAGCTGAA CGCCTTCCGC 
    AGGAAGCATG ATTGTGCCCT GGTCATCTCG GGAGACTCCC TGGAGGTTTG CCTCAAGTAC 
    TATGAGTACG AGTTCATGGA GCTGGCCTGC CAGTGCCCGG CCGTAGTCTG CTGCCGATGT 
    GCCCCCACCC AGAAGGCCCA GATCGTGCGC CTGCTTCAGG AGCGCACGGG CAAGCTCACC 
    TGTGCAGTAG GGGACGGAGG CAATGACGTC AGCATGATTC AGGAATCTGA CTGCGGCGTG 
    GGAGTGGAAG GAAAGGAAGG AAAACAGGCT TCGTTGGCTG CAGACTTCTC CATCACTCAA 
    TTTAAGCATC TTGGCCGGTT GCTTATGGTG CATGGCCGGA ACAGCTACAA GCGGTCAGCC 
    GCCCTCAGCC AGTTCGTGAT TCACAGGAGC CTCTGTATCA GCACCATGCA GGCTGTCTTT 
    TCCTCCGTGT TTTACTTTGC CTCCGTCCCT CTCTATCAAG GATTCCTCAT CATTGGGTAC 
    TCCACAATTT ACACCATGTT TCCTGTGTTT TCTCTGGTCC TGGACAAAGA TGTCAAATCG 
    GAAGTTGCCA TGCTGTATCC TGAGCTCTAC AAGGATCTTC TCAAGGGACG GCCGTTGTCC 
    TACAAGACAT TCTTAATATG GGTTTTGATT AGCATCTATC AAGGGAGCAC CATCATGTAC 
    GGGGCGCTGC TGCTGTTTGA GTCGGAGTTC GTGCACATCG TGGCCATCTC CTTCACCTCG 
    CTGATCCTCA CCGAGCTGCT CATGGTGGCG CTGACCATCC AGACCTGGCA CTGGCTCATG 
    ACAGTGGCGG AGCTGCTCAG CCTGGCCTGC TACATCGCCT CCCTGGTGTT CTTACACGAG 
    TTCATCGATG TGTACTTCAT CGCCACCTTG TCATTCTTGT GGAAAGTCTC CGTCATCACT 
    CTGGTCAGCT GCCTCCCCCT CTATGTCCTC AAGTACCTGC GAAGACGGTT CTCTCCCCCC 
    AGCTACTCAA AGCTCACATC ATAG

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

    ATP9A ( NM_006045.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_006036.1 Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), mRNA.
    Price & Availability↑
    CloneID OHu63680
    Clone ID Related Accession (Same CDS sequence) NM_006045.2 , NM_006045.3
    Accession Version NM_006045.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3144bp)
    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 2020-01-01
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase IIA
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from HY147052.1, AK299064.1, BC110592.1, BF089115.1 and AL035684.25. On May 17, 2019 this sequence version replaced NM_006045.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.196180.1, SRR1803614.38645.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000338821.6/ ENSP00000342481.5 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGACGGACA ACATCCCGCT GCAGCCGGTG CGCCAGAAGA AGCGGATGGA CAGCAGGCCC 
    CGCGCCGGGT GCTGCGAGTG GCTGAGATGC TGCGGTGGAG GGGAGGCCAG GCCCCGCACT 
    GTCTGGCTGG GGCACCCCGA GAAGAGAGAC CAGAGGTATC CTCGGAATGT CATCAACAAT 
    CAGAAGTACA ATTTCTTCAC CTTTCTTCCT GGGGTGCTGT TCAACCAGTT CAAATACTTT 
    TTCAACCTCT ATTTCTTACT TCTTGCCTGC TCTCAGTTTG TTCCCGAAAT GAGACTTGGT 
    GCACTCTATA CCTACTGGGT TCCCCTGGGC TTCGTGCTGG CCGTCACTGT CATCCGTGAG 
    GCGGTGGAGG AGATCCGATG CTACGTGCGG GACAAGGAAG TCAACTCCCA GGTCTACAGC 
    CGGCTCACAG CACGAGGCAC AGTGAAGGTG AAGAGTTCTA ACATCCAAGT TGGAGACCTT 
    ATCATCGTTG AAAAGAACCA GCGGGTCCCT GCCGACATGA TCTTCCTGAG GACATCAGAA 
    AAAAACGGGT CATGCTTCTT GCGGACGGAT CAGCTGGATG GGGAGACGGA CTGGAAGCTG 
    CGGCTTCCCG TGGCCTGCAC GCAGAGGCTC CCCACGGCCG CCGACCTTCT TCAGATTCGA 
    TCGTATGTGT ACGCAGAAGA GCCAAATATT GACATTCACA ACTTCGTGGG AACTTTTACC 
    CGAGAAGACA GCGACCCCCC GATCAGCGAG AGCCTGAGCA TAGAGAACAC GCTGTGGGCT 
    GGCACTGTGG TCGCATCAGG TACTGTTGTG GGTGTTGTTC TTTACACTGG CAGAGAACTC 
    CGGAGTGTCA TGAATACCTC AAATCCCCGA AGTAAGATCG GCCTGTTCGA CTTGGAAGTG 
    AACTGCCTCA CCAAGATCCT CTTTGGTGCC CTGGTGGTGG TCTCGCTGGT CATGGTTGCC 
    CTTCAGCACT TTGCAGGCCG TTGGTACCTG CAGATCATCC GCTTCCTCCT CTTGTTTTCC 
    AACATCATCC CCATTAGTTT GCGTGTGAAC CTGGACATGG GCAAGATCGT GTACAGCTGG 
    GTGATTCGAA GGGACTCGAA AATCCCCGGG ACCGTGGTTC GCTCCAGCAC GATTCCTGAG 
    CAGCTGGGCA GGATTTCGTA CTTACTCACA GACAAGACAG GCACTCTTAC CCAGAACGAG 
    ATGATTTTCA AACGGCTCCA TCTCGGAACA GTAGCCTACG GCCTCGACTC AATGGACGAA 
    GTACAAAGCC ACATTTTCAG CATTTACACC CAGCAATCCC AGGACCCACC GGCTCAGAAG 
    GGCCCAACGC TCACCACTAA GGTCCGGCGG ACCATGAGCA GCCGCGTGCA CGAAGCCGTG 
    AAGGCCATCG CGCTCTGCCA CAACGTGACT CCCGTGTATG AGTCCAACGG TGTGACTGAT 
    CAGGCTGAGG CCGAGAAGCA GTACGAAGAC TCCTGCCGCG TATACCAGGC ATCCAGCCCC 
    GATGAGGTGG CCCTGGTACA GTGGACGGAA AGTGTGGGCT TAACCCTGGT GGGCCGAGAC 
    CAGTCTTCCA TGCAGCTGAG GACCCCTGGC GACCAGATCC TGAACTTCAC CATCCTACAG 
    ATCTTCCCTT TCACCTATGA AAGCAAACGT ATGGGCATCA TCGTGCGGGA TGAATCAACT 
    GGAGAAATTA CGTTTTACAT GAAGGGAGCA GATGTGGTCA TGGCTGGCAT TGTGCAGTAC 
    AATGACTGGT TGGAGGAAGA GTGTGGCAAC ATGGCCCGAG AAGGGCTGCG GGTGCTCGTG 
    GTGGCAAAGA AGTCTCTTGC AGAGGAGCAG TATCAGGACT TTGAAGCCCG CTACGTCCAG 
    GCCAAGCTGA GTGTGCACGA CCGCTCCCTC AAAGTGGCCA CGGTGATCGA GAGCCTGGAG 
    ATGGAGATGG AACTGCTGTG CCTGACGGGC GTGGAGGACC AGCTGCAGGC AGATGTGCGG 
    CCCACGCTGG AGACCCTGAG GAATGCTGGC ATCAAGGTTT GGATGCTGAC AGGGGACAAG 
    CTGGAGACAG CTACGTGCAC AGCGAAGAAT GCACATCTGG TGACCAGAAA CCAAGACATC 
    CACGTTTTTC GGCTGGTGAC CAACCGCGGG GAGGCTCACC TCGAGCTGAA CGCCTTCCGC 
    AGGAAGCATG ATTGTGCCCT GGTCATCTCG GGAGACTCCC TGGAGGTTTG CCTCAAGTAC 
    TATGAGTACG AGTTCATGGA GCTGGCCTGC CAGTGCCCGG CCGTAGTCTG CTGCCGATGT 
    GCCCCCACCC AGAAGGCCCA GATCGTGCGC CTGCTTCAGG AGCGCACGGG CAAGCTCACC 
    TGTGCAGTAG GGGACGGAGG CAATGACGTC AGCATGATTC AGGAATCTGA CTGCGGCGTG 
    GGAGTGGAAG GAAAGGAAGG AAAACAGGCT TCGTTGGCTG CAGACTTCTC CATCACTCAA 
    TTTAAGCATC TTGGCCGGTT GCTTATGGTG CATGGCCGGA ACAGCTACAA GCGGTCAGCC 
    GCCCTCAGCC AGTTCGTGAT TCACAGGAGC CTCTGTATCA GCACCATGCA GGCTGTCTTT 
    TCCTCCGTGT TTTACTTTGC CTCCGTCCCT CTCTATCAAG GATTCCTCAT CATTGGGTAC 
    TCCACAATTT ACACCATGTT TCCTGTGTTT TCTCTGGTCC TGGACAAAGA TGTCAAATCG 
    GAAGTTGCCA TGCTGTATCC TGAGCTCTAC AAGGATCTTC TCAAGGGACG GCCGTTGTCC 
    TACAAGACAT TCTTAATATG GGTTTTGATT AGCATCTATC AAGGGAGCAC CATCATGTAC 
    GGGGCGCTGC TGCTGTTTGA GTCGGAGTTC GTGCACATCG TGGCCATCTC CTTCACCTCG 
    CTGATCCTCA CCGAGCTGCT CATGGTGGCG CTGACCATCC AGACCTGGCA CTGGCTCATG 
    ACAGTGGCGG AGCTGCTCAG CCTGGCCTGC TACATCGCCT CCCTGGTGTT CTTACACGAG 
    TTCATCGATG TGTACTTCAT CGCCACCTTG TCATTCTTGT GGAAAGTCTC CGTCATCACT 
    CTGGTCAGCT GCCTCCCCCT CTATGTCCTC AAGTACCTGC GAAGACGGTT CTCTCCCCCC 
    AGCTACTCAA AGCTCACATC ATAG

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

    RefSeq NP_006036.1
    CDS22..3165
    Translation

    Target ORF information:

    RefSeq Version NM_006045.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_006045.3

    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
    ATGACGGACA ACATCCCGCT GCAGCCGGTG CGCCAGAAGA AGCGGATGGA CAGCAGGCCC 
    CGCGCCGGGT GCTGCGAGTG GCTGAGATGC TGCGGTGGAG GGGAGGCCAG GCCCCGCACT 
    GTCTGGCTGG GGCACCCCGA GAAGAGAGAC CAGAGGTATC CTCGGAATGT CATCAACAAT 
    CAGAAGTACA ATTTCTTCAC CTTTCTTCCT GGGGTGCTGT TCAACCAGTT CAAATACTTT 
    TTCAACCTCT ATTTCTTACT TCTTGCCTGC TCTCAGTTTG TTCCCGAAAT GAGACTTGGT 
    GCACTCTATA CCTACTGGGT TCCCCTGGGC TTCGTGCTGG CCGTCACTGT CATCCGTGAG 
    GCGGTGGAGG AGATCCGATG CTACGTGCGG GACAAGGAAG TCAACTCCCA GGTCTACAGC 
    CGGCTCACAG CACGAGGCAC AGTGAAGGTG AAGAGTTCTA ACATCCAAGT TGGAGACCTT 
    ATCATCGTTG AAAAGAACCA GCGGGTCCCT GCCGACATGA TCTTCCTGAG GACATCAGAA 
    AAAAACGGGT CATGCTTCTT GCGGACGGAT CAGCTGGATG GGGAGACGGA CTGGAAGCTG 
    CGGCTTCCCG TGGCCTGCAC GCAGAGGCTC CCCACGGCCG CCGACCTTCT TCAGATTCGA 
    TCGTATGTGT ACGCAGAAGA GCCAAATATT GACATTCACA ACTTCGTGGG AACTTTTACC 
    CGAGAAGACA GCGACCCCCC GATCAGCGAG AGCCTGAGCA TAGAGAACAC GCTGTGGGCT 
    GGCACTGTGG TCGCATCAGG TACTGTTGTG GGTGTTGTTC TTTACACTGG CAGAGAACTC 
    CGGAGTGTCA TGAATACCTC AAATCCCCGA AGTAAGATCG GCCTGTTCGA CTTGGAAGTG 
    AACTGCCTCA CCAAGATCCT CTTTGGTGCC CTGGTGGTGG TCTCGCTGGT CATGGTTGCC 
    CTTCAGCACT TTGCAGGCCG TTGGTACCTG CAGATCATCC GCTTCCTCCT CTTGTTTTCC 
    AACATCATCC CCATTAGTTT GCGTGTGAAC CTGGACATGG GCAAGATCGT GTACAGCTGG 
    GTGATTCGAA GGGACTCGAA AATCCCCGGG ACCGTGGTTC GCTCCAGCAC GATTCCTGAG 
    CAGCTGGGCA GGATTTCGTA CTTACTCACA GACAAGACAG GCACTCTTAC CCAGAACGAG 
    ATGATTTTCA AACGGCTCCA TCTCGGAACA GTAGCCTACG GCCTCGACTC AATGGACGAA 
    GTACAAAGCC ACATTTTCAG CATTTACACC CAGCAATCCC AGGACCCACC GGCTCAGAAG 
    GGCCCAACGC TCACCACTAA GGTCCGGCGG ACCATGAGCA GCCGCGTGCA CGAAGCCGTG 
    AAGGCCATCG CGCTCTGCCA CAACGTGACT CCCGTGTATG AGTCCAACGG TGTGACTGAT 
    CAGGCTGAGG CCGAGAAGCA GTACGAAGAC TCCTGCCGCG TATACCAGGC ATCCAGCCCC 
    GATGAGGTGG CCCTGGTACA GTGGACGGAA AGTGTGGGCT TAACCCTGGT GGGCCGAGAC 
    CAGTCTTCCA TGCAGCTGAG GACCCCTGGC GACCAGATCC TGAACTTCAC CATCCTACAG 
    ATCTTCCCTT TCACCTATGA AAGCAAACGT ATGGGCATCA TCGTGCGGGA TGAATCAACT 
    GGAGAAATTA CGTTTTACAT GAAGGGAGCA GATGTGGTCA TGGCTGGCAT TGTGCAGTAC 
    AATGACTGGT TGGAGGAAGA GTGTGGCAAC ATGGCCCGAG AAGGGCTGCG GGTGCTCGTG 
    GTGGCAAAGA AGTCTCTTGC AGAGGAGCAG TATCAGGACT TTGAAGCCCG CTACGTCCAG 
    GCCAAGCTGA GTGTGCACGA CCGCTCCCTC AAAGTGGCCA CGGTGATCGA GAGCCTGGAG 
    ATGGAGATGG AACTGCTGTG CCTGACGGGC GTGGAGGACC AGCTGCAGGC AGATGTGCGG 
    CCCACGCTGG AGACCCTGAG GAATGCTGGC ATCAAGGTTT GGATGCTGAC AGGGGACAAG 
    CTGGAGACAG CTACGTGCAC AGCGAAGAAT GCACATCTGG TGACCAGAAA CCAAGACATC 
    CACGTTTTTC GGCTGGTGAC CAACCGCGGG GAGGCTCACC TCGAGCTGAA CGCCTTCCGC 
    AGGAAGCATG ATTGTGCCCT GGTCATCTCG GGAGACTCCC TGGAGGTTTG CCTCAAGTAC 
    TATGAGTACG AGTTCATGGA GCTGGCCTGC CAGTGCCCGG CCGTAGTCTG CTGCCGATGT 
    GCCCCCACCC AGAAGGCCCA GATCGTGCGC CTGCTTCAGG AGCGCACGGG CAAGCTCACC 
    TGTGCAGTAG GGGACGGAGG CAATGACGTC AGCATGATTC AGGAATCTGA CTGCGGCGTG 
    GGAGTGGAAG GAAAGGAAGG AAAACAGGCT TCGTTGGCTG CAGACTTCTC CATCACTCAA 
    TTTAAGCATC TTGGCCGGTT GCTTATGGTG CATGGCCGGA ACAGCTACAA GCGGTCAGCC 
    GCCCTCAGCC AGTTCGTGAT TCACAGGAGC CTCTGTATCA GCACCATGCA GGCTGTCTTT 
    TCCTCCGTGT TTTACTTTGC CTCCGTCCCT CTCTATCAAG GATTCCTCAT CATTGGGTAC 
    TCCACAATTT ACACCATGTT TCCTGTGTTT TCTCTGGTCC TGGACAAAGA TGTCAAATCG 
    GAAGTTGCCA TGCTGTATCC TGAGCTCTAC AAGGATCTTC TCAAGGGACG GCCGTTGTCC 
    TACAAGACAT TCTTAATATG GGTTTTGATT AGCATCTATC AAGGGAGCAC CATCATGTAC 
    GGGGCGCTGC TGCTGTTTGA GTCGGAGTTC GTGCACATCG TGGCCATCTC CTTCACCTCG 
    CTGATCCTCA CCGAGCTGCT CATGGTGGCG CTGACCATCC AGACCTGGCA CTGGCTCATG 
    ACAGTGGCGG AGCTGCTCAG CCTGGCCTGC TACATCGCCT CCCTGGTGTT CTTACACGAG 
    TTCATCGATG TGTACTTCAT CGCCACCTTG TCATTCTTGT GGAAAGTCTC CGTCATCACT 
    CTGGTCAGCT GCCTCCCCCT CTATGTCCTC AAGTACCTGC GAAGACGGTT CTCTCCCCCC 
    AGCTACTCAA AGCTCACATC ATAG

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

    ATP9A ( XM_011528481.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011526783.1 Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu63679
    Clone ID Related Accession (Same CDS sequence) XM_011528481.3 , XM_011528481.2
    Accession Version XM_011528481.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3078bp)
    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 IIA isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011528481.2. ##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
    ATGTGCTGCG AGTGGCTGAG ATGCTGCGGT GGAGGGGAGG CCAGGCCCCG CACTGTCTGG 
    CTGGGGCACC CCGAGAAGAG AGACCAGAGG TATCCTCGGA ATGTCATCAA CAATCAGAAG 
    TACAATTTCT TCACCTTTCT TCCTGGGGTG CTGTTCAACC AGTTCAAATA CTTTTTCAAC 
    CTCTATTTCT TACTTCTTGC CTGCTCTCAG TTTGTTCCCG AAATGAGACT TGGTGCACTC 
    TATACCTACT GGGTTCCCCT GGGCTTCGTG CTGGCCGTCA CTGTCATCCG TGAGGCGGTG 
    GAGGAGATCC GATGCTACGT GCGGGACAAG GAAGTCAACT CCCAGGTCTA CAGCCGGCTC 
    ACAGCACGAG GCACAGTGAA GGTGAAGAGT TCTAACATCC AAGTTGGAGA CCTTATCATC 
    GTTGAAAAGA ACCAGCGGGT CCCTGCCGAC ATGATCTTCC TGAGGACATC AGAAAAAAAC 
    GGGTCATGCT TCTTGCGGAC GGATCAGCTG GATGGGGAGA CGGACTGGAA GCTGCGGCTT 
    CCCGTGGCCT GCACGCAGAG GCTCCCCACG GCCGCCGACC TTCTTCAGAT TCGATCGTAT 
    GTGTACGCAG AAGAGCCAAA TATTGACATT CACAACTTCG TGGGAACTTT TACCCGAGAA 
    GACAGCGACC CCCCGATCAG CGAGAGCCTG AGCATAGAGA ACACGCTGTG GGCTGGCACT 
    GTGGTCGCAT CAGGTACTGT TGTGGGTGTT GTTCTTTACA CTGGCAGAGA ACTCCGGAGT 
    GTCATGAATA CCTCAAATCC CCGAAGTAAG ATCGGCCTGT TCGACTTGGA AGTGAACTGC 
    CTCACCAAGA TCCTCTTTGG TGCCCTGGTG GTGGTCTCGC TGGTCATGGT TGCCCTTCAG 
    CACTTTGCAG GCCGTTGGTA CCTGCAGATC ATCCGCTTCC TCCTCTTGTT TTCCAACATC 
    ATCCCCATTA GTTTGCGTGT GAACCTGGAC ATGGGCAAGA TCGTGTACAG CTGGGTGATT 
    CGAAGGGACT CGAAAATCCC CGGGACCGTG GTTCGCTCCA GCACGATTCC TGAGCAGCTG 
    GGCAGGATTT CGTACTTACT CACAGACAAG ACAGGCACTC TTACCCAGAA CGAGATGATT 
    TTCAAACGGC TCCATCTCGG AACAGTAGCC TACGGCCTCG ACTCAATGGA CGAAGTACAA 
    AGCCACATTT TCAGCATTTA CACCCAGCAA TCCCAGGACC CACCGGCTCA GAAGGGCCCA 
    ACGCTCACCA CTAAGGTCCG GCGGACCATG AGCAGCCGCG TGCACGAAGC CGTGAAGGCC 
    ATCGCGCTCT GCCACAACGT GACTCCCGTG TATGAGTCCA ACGGTGTGAC TGATCAGGCT 
    GAGGCCGAGA AGCAGTACGA AGACTCCTGC CGCGTATACC AGGCATCCAG CCCCGATGAG 
    GTGGCCCTGG TACAGTGGAC GGAAAGTGTG GGCTTAACCC TGGTGGGCCG AGACCAGTCT 
    TCCATGCAGC TGAGGACCCC TGGCGACCAG ATCCTGAACT TCACCATCCT ACAGATCTTC 
    CCTTTCACCT ATGAAAGCAA ACGTATGGGC ATCATCGTGC GGGATGAATC AACTGGAGAA 
    ATTACGTTTT ACATGAAGGG AGCAGATGTG GTCATGGCTG GCATTGTGCA GTACAATGAC 
    TGGTTGGAGG AAGAGTGTGG CAACATGGCC CGAGAAGGGC TGCGGGTGCT CGTGGTGGCA 
    AAGAAGTCTC TTGCAGAGGA GCAGTATCAG GACTTTGAAG CCCGCTACGT CCAGGCCAAG 
    CTGAGTGTGC ACGACCGCTC CCTCAAAGTG GCCACGGTGA TCGAGAGCCT GGAGATGGAG 
    ATGGAACTGC TGTGCCTGAC GGGCGTGGAG GACCAGCTGC AGGCAGATGT GCGGCCCACG 
    CTGGAGACCC TGAGGAATGC TGGCATCAAG GTTTGGATGC TGACAGGGGA CAAGCTGGAG 
    ACAGCTACGT GCACAGCGAA GAATGCACAT CTGGTGACCA GAAACCAAGA CATCCACGTT 
    TTTCGGCTGG TGACCAACCG CGGGGAGGCT CACCTCGAGC TGAACGCCTT CCGCAGGAAG 
    CATGATTGTG CCCTGGTCAT CTCGGGAGAC TCCCTGGAGG TTTGCCTCAA GTACTATGAG 
    TACGAGTTCA TGGAGCTGGC CTGCCAGTGC CCGGCCGTAG TCTGCTGCCG ATGTGCCCCC 
    ACCCAGAAGG CCCAGATCGT GCGCCTGCTT CAGGAGCGCA CGGGCAAGCT CACCTGTGCA 
    GTAGGGGACG GAGGCAATGA CGTCAGCATG ATTCAGGAAT CTGACTGCGG CGTGGGAGTG 
    GAAGGAAAGG AAGGAAAACA GGCTTCGTTG GCTGCAGACT TCTCCATCAC TCAATTTAAG 
    CATCTTGGCC GGTTGCTTAT GGTGCATGGC CGGAACAGCT ACAAGCGGTC AGCCGCCCTC 
    AGCCAGTTCG TGATTCACAG GAGCCTCTGT ATCAGCACCA TGCAGGCTGT CTTTTCCTCC 
    GTGTTTTACT TTGCCTCCGT CCCTCTCTAT CAAGGATTCC TCATCATTGG GTACTCCACA 
    ATTTACACCA TGTTTCCTGT GTTTTCTCTG GTCCTGGACA AAGATGTCAA ATCGGAAGTT 
    GCCATGCTGT ATCCTGAGCT CTACAAGGAT CTTCTCAAGG GACGGCCGTT GTCCTACAAG 
    ACATTCTTAA TATGGGTTTT GATTAGCATC TATCAAGGGA GCACCATCAT GTACGGGGCG 
    CTGCTGCTGT TTGAGTCGGA GTTCGTGCAC ATCGTGGCCA TCTCCTTCAC CTCGCTGATC 
    CTCACCGAGC TGCTCATGGT GGCGCTGACC ATCCAGACCT GGCACTGGCT CATGACAGTG 
    GCGGAGCTGC TCAGCCTGGC CTGCTACATC GCCTCCCTGG TGTTCTTACA CGAGTTCATC 
    GATGTGTACT TCATCGCCAC CTTGTCATTC TTGTGGAAAG TCTCCGTCAT CACTCTGGTC 
    AGCTGCCTCC CCCTCTATGT CCTCAAGTAC CTGCGAAGAC GGTTCTCTCC CCCCAGCTAC 
    TCAAAGCTCA CATCATAG

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

    RefSeq XP_011526783.1
    CDS138..3215
    Translation

    Target ORF information:

    RefSeq Version XM_011528481.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011528481.3

    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
    ATGTGCTGCG AGTGGCTGAG ATGCTGCGGT GGAGGGGAGG CCAGGCCCCG CACTGTCTGG 
    CTGGGGCACC CCGAGAAGAG AGACCAGAGG TATCCTCGGA ATGTCATCAA CAATCAGAAG 
    TACAATTTCT TCACCTTTCT TCCTGGGGTG CTGTTCAACC AGTTCAAATA CTTTTTCAAC 
    CTCTATTTCT TACTTCTTGC CTGCTCTCAG TTTGTTCCCG AAATGAGACT TGGTGCACTC 
    TATACCTACT GGGTTCCCCT GGGCTTCGTG CTGGCCGTCA CTGTCATCCG TGAGGCGGTG 
    GAGGAGATCC GATGCTACGT GCGGGACAAG GAAGTCAACT CCCAGGTCTA CAGCCGGCTC 
    ACAGCACGAG GCACAGTGAA GGTGAAGAGT TCTAACATCC AAGTTGGAGA CCTTATCATC 
    GTTGAAAAGA ACCAGCGGGT CCCTGCCGAC ATGATCTTCC TGAGGACATC AGAAAAAAAC 
    GGGTCATGCT TCTTGCGGAC GGATCAGCTG GATGGGGAGA CGGACTGGAA GCTGCGGCTT 
    CCCGTGGCCT GCACGCAGAG GCTCCCCACG GCCGCCGACC TTCTTCAGAT TCGATCGTAT 
    GTGTACGCAG AAGAGCCAAA TATTGACATT CACAACTTCG TGGGAACTTT TACCCGAGAA 
    GACAGCGACC CCCCGATCAG CGAGAGCCTG AGCATAGAGA ACACGCTGTG GGCTGGCACT 
    GTGGTCGCAT CAGGTACTGT TGTGGGTGTT GTTCTTTACA CTGGCAGAGA ACTCCGGAGT 
    GTCATGAATA CCTCAAATCC CCGAAGTAAG ATCGGCCTGT TCGACTTGGA AGTGAACTGC 
    CTCACCAAGA TCCTCTTTGG TGCCCTGGTG GTGGTCTCGC TGGTCATGGT TGCCCTTCAG 
    CACTTTGCAG GCCGTTGGTA CCTGCAGATC ATCCGCTTCC TCCTCTTGTT TTCCAACATC 
    ATCCCCATTA GTTTGCGTGT GAACCTGGAC ATGGGCAAGA TCGTGTACAG CTGGGTGATT 
    CGAAGGGACT CGAAAATCCC CGGGACCGTG GTTCGCTCCA GCACGATTCC TGAGCAGCTG 
    GGCAGGATTT CGTACTTACT CACAGACAAG ACAGGCACTC TTACCCAGAA CGAGATGATT 
    TTCAAACGGC TCCATCTCGG AACAGTAGCC TACGGCCTCG ACTCAATGGA CGAAGTACAA 
    AGCCACATTT TCAGCATTTA CACCCAGCAA TCCCAGGACC CACCGGCTCA GAAGGGCCCA 
    ACGCTCACCA CTAAGGTCCG GCGGACCATG AGCAGCCGCG TGCACGAAGC CGTGAAGGCC 
    ATCGCGCTCT GCCACAACGT GACTCCCGTG TATGAGTCCA ACGGTGTGAC TGATCAGGCT 
    GAGGCCGAGA AGCAGTACGA AGACTCCTGC CGCGTATACC AGGCATCCAG CCCCGATGAG 
    GTGGCCCTGG TACAGTGGAC GGAAAGTGTG GGCTTAACCC TGGTGGGCCG AGACCAGTCT 
    TCCATGCAGC TGAGGACCCC TGGCGACCAG ATCCTGAACT TCACCATCCT ACAGATCTTC 
    CCTTTCACCT ATGAAAGCAA ACGTATGGGC ATCATCGTGC GGGATGAATC AACTGGAGAA 
    ATTACGTTTT ACATGAAGGG AGCAGATGTG GTCATGGCTG GCATTGTGCA GTACAATGAC 
    TGGTTGGAGG AAGAGTGTGG CAACATGGCC CGAGAAGGGC TGCGGGTGCT CGTGGTGGCA 
    AAGAAGTCTC TTGCAGAGGA GCAGTATCAG GACTTTGAAG CCCGCTACGT CCAGGCCAAG 
    CTGAGTGTGC ACGACCGCTC CCTCAAAGTG GCCACGGTGA TCGAGAGCCT GGAGATGGAG 
    ATGGAACTGC TGTGCCTGAC GGGCGTGGAG GACCAGCTGC AGGCAGATGT GCGGCCCACG 
    CTGGAGACCC TGAGGAATGC TGGCATCAAG GTTTGGATGC TGACAGGGGA CAAGCTGGAG 
    ACAGCTACGT GCACAGCGAA GAATGCACAT CTGGTGACCA GAAACCAAGA CATCCACGTT 
    TTTCGGCTGG TGACCAACCG CGGGGAGGCT CACCTCGAGC TGAACGCCTT CCGCAGGAAG 
    CATGATTGTG CCCTGGTCAT CTCGGGAGAC TCCCTGGAGG TTTGCCTCAA GTACTATGAG 
    TACGAGTTCA TGGAGCTGGC CTGCCAGTGC CCGGCCGTAG TCTGCTGCCG ATGTGCCCCC 
    ACCCAGAAGG CCCAGATCGT GCGCCTGCTT CAGGAGCGCA CGGGCAAGCT CACCTGTGCA 
    GTAGGGGACG GAGGCAATGA CGTCAGCATG ATTCAGGAAT CTGACTGCGG CGTGGGAGTG 
    GAAGGAAAGG AAGGAAAACA GGCTTCGTTG GCTGCAGACT TCTCCATCAC TCAATTTAAG 
    CATCTTGGCC GGTTGCTTAT GGTGCATGGC CGGAACAGCT ACAAGCGGTC AGCCGCCCTC 
    AGCCAGTTCG TGATTCACAG GAGCCTCTGT ATCAGCACCA TGCAGGCTGT CTTTTCCTCC 
    GTGTTTTACT TTGCCTCCGT CCCTCTCTAT CAAGGATTCC TCATCATTGG GTACTCCACA 
    ATTTACACCA TGTTTCCTGT GTTTTCTCTG GTCCTGGACA AAGATGTCAA ATCGGAAGTT 
    GCCATGCTGT ATCCTGAGCT CTACAAGGAT CTTCTCAAGG GACGGCCGTT GTCCTACAAG 
    ACATTCTTAA TATGGGTTTT GATTAGCATC TATCAAGGGA GCACCATCAT GTACGGGGCG 
    CTGCTGCTGT TTGAGTCGGA GTTCGTGCAC ATCGTGGCCA TCTCCTTCAC CTCGCTGATC 
    CTCACCGAGC TGCTCATGGT GGCGCTGACC ATCCAGACCT GGCACTGGCT CATGACAGTG 
    GCGGAGCTGC TCAGCCTGGC CTGCTACATC GCCTCCCTGG TGTTCTTACA CGAGTTCATC 
    GATGTGTACT TCATCGCCAC CTTGTCATTC TTGTGGAAAG TCTCCGTCAT CACTCTGGTC 
    AGCTGCCTCC CCCTCTATGT CCTCAAGTAC CTGCGAAGAC GGTTCTCTCC CCCCAGCTAC 
    TCAAAGCTCA CATCATAG

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

    ATP9A ( XM_011528481.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011526783.1 Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu63679
    Clone ID Related Accession (Same CDS sequence) XM_011528481.3 , XM_011528481.2
    Accession Version XM_011528481.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3078bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase IIA isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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_011528481.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGTGCTGCG AGTGGCTGAG ATGCTGCGGT GGAGGGGAGG CCAGGCCCCG CACTGTCTGG 
    CTGGGGCACC CCGAGAAGAG AGACCAGAGG TATCCTCGGA ATGTCATCAA CAATCAGAAG 
    TACAATTTCT TCACCTTTCT TCCTGGGGTG CTGTTCAACC AGTTCAAATA CTTTTTCAAC 
    CTCTATTTCT TACTTCTTGC CTGCTCTCAG TTTGTTCCCG AAATGAGACT TGGTGCACTC 
    TATACCTACT GGGTTCCCCT GGGCTTCGTG CTGGCCGTCA CTGTCATCCG TGAGGCGGTG 
    GAGGAGATCC GATGCTACGT GCGGGACAAG GAAGTCAACT CCCAGGTCTA CAGCCGGCTC 
    ACAGCACGAG GCACAGTGAA GGTGAAGAGT TCTAACATCC AAGTTGGAGA CCTTATCATC 
    GTTGAAAAGA ACCAGCGGGT CCCTGCCGAC ATGATCTTCC TGAGGACATC AGAAAAAAAC 
    GGGTCATGCT TCTTGCGGAC GGATCAGCTG GATGGGGAGA CGGACTGGAA GCTGCGGCTT 
    CCCGTGGCCT GCACGCAGAG GCTCCCCACG GCCGCCGACC TTCTTCAGAT TCGATCGTAT 
    GTGTACGCAG AAGAGCCAAA TATTGACATT CACAACTTCG TGGGAACTTT TACCCGAGAA 
    GACAGCGACC CCCCGATCAG CGAGAGCCTG AGCATAGAGA ACACGCTGTG GGCTGGCACT 
    GTGGTCGCAT CAGGTACTGT TGTGGGTGTT GTTCTTTACA CTGGCAGAGA ACTCCGGAGT 
    GTCATGAATA CCTCAAATCC CCGAAGTAAG ATCGGCCTGT TCGACTTGGA AGTGAACTGC 
    CTCACCAAGA TCCTCTTTGG TGCCCTGGTG GTGGTCTCGC TGGTCATGGT TGCCCTTCAG 
    CACTTTGCAG GCCGTTGGTA CCTGCAGATC ATCCGCTTCC TCCTCTTGTT TTCCAACATC 
    ATCCCCATTA GTTTGCGTGT GAACCTGGAC ATGGGCAAGA TCGTGTACAG CTGGGTGATT 
    CGAAGGGACT CGAAAATCCC CGGGACCGTG GTTCGCTCCA GCACGATTCC TGAGCAGCTG 
    GGCAGGATTT CGTACTTACT CACAGACAAG ACAGGCACTC TTACCCAGAA CGAGATGATT 
    TTCAAACGGC TCCATCTCGG AACAGTAGCC TACGGCCTCG ACTCAATGGA CGAAGTACAA 
    AGCCACATTT TCAGCATTTA CACCCAGCAA TCCCAGGACC CACCGGCTCA GAAGGGCCCA 
    ACGCTCACCA CTAAGGTCCG GCGGACCATG AGCAGCCGCG TGCACGAAGC CGTGAAGGCC 
    ATCGCGCTCT GCCACAACGT GACTCCCGTG TATGAGTCCA ACGGTGTGAC TGATCAGGCT 
    GAGGCCGAGA AGCAGTACGA AGACTCCTGC CGCGTATACC AGGCATCCAG CCCCGATGAG 
    GTGGCCCTGG TACAGTGGAC GGAAAGTGTG GGCTTAACCC TGGTGGGCCG AGACCAGTCT 
    TCCATGCAGC TGAGGACCCC TGGCGACCAG ATCCTGAACT TCACCATCCT ACAGATCTTC 
    CCTTTCACCT ATGAAAGCAA ACGTATGGGC ATCATCGTGC GGGATGAATC AACTGGAGAA 
    ATTACGTTTT ACATGAAGGG AGCAGATGTG GTCATGGCTG GCATTGTGCA GTACAATGAC 
    TGGTTGGAGG AAGAGTGTGG CAACATGGCC CGAGAAGGGC TGCGGGTGCT CGTGGTGGCA 
    AAGAAGTCTC TTGCAGAGGA GCAGTATCAG GACTTTGAAG CCCGCTACGT CCAGGCCAAG 
    CTGAGTGTGC ACGACCGCTC CCTCAAAGTG GCCACGGTGA TCGAGAGCCT GGAGATGGAG 
    ATGGAACTGC TGTGCCTGAC GGGCGTGGAG GACCAGCTGC AGGCAGATGT GCGGCCCACG 
    CTGGAGACCC TGAGGAATGC TGGCATCAAG GTTTGGATGC TGACAGGGGA CAAGCTGGAG 
    ACAGCTACGT GCACAGCGAA GAATGCACAT CTGGTGACCA GAAACCAAGA CATCCACGTT 
    TTTCGGCTGG TGACCAACCG CGGGGAGGCT CACCTCGAGC TGAACGCCTT CCGCAGGAAG 
    CATGATTGTG CCCTGGTCAT CTCGGGAGAC TCCCTGGAGG TTTGCCTCAA GTACTATGAG 
    TACGAGTTCA TGGAGCTGGC CTGCCAGTGC CCGGCCGTAG TCTGCTGCCG ATGTGCCCCC 
    ACCCAGAAGG CCCAGATCGT GCGCCTGCTT CAGGAGCGCA CGGGCAAGCT CACCTGTGCA 
    GTAGGGGACG GAGGCAATGA CGTCAGCATG ATTCAGGAAT CTGACTGCGG CGTGGGAGTG 
    GAAGGAAAGG AAGGAAAACA GGCTTCGTTG GCTGCAGACT TCTCCATCAC TCAATTTAAG 
    CATCTTGGCC GGTTGCTTAT GGTGCATGGC CGGAACAGCT ACAAGCGGTC AGCCGCCCTC 
    AGCCAGTTCG TGATTCACAG GAGCCTCTGT ATCAGCACCA TGCAGGCTGT CTTTTCCTCC 
    GTGTTTTACT TTGCCTCCGT CCCTCTCTAT CAAGGATTCC TCATCATTGG GTACTCCACA 
    ATTTACACCA TGTTTCCTGT GTTTTCTCTG GTCCTGGACA AAGATGTCAA ATCGGAAGTT 
    GCCATGCTGT ATCCTGAGCT CTACAAGGAT CTTCTCAAGG GACGGCCGTT GTCCTACAAG 
    ACATTCTTAA TATGGGTTTT GATTAGCATC TATCAAGGGA GCACCATCAT GTACGGGGCG 
    CTGCTGCTGT TTGAGTCGGA GTTCGTGCAC ATCGTGGCCA TCTCCTTCAC CTCGCTGATC 
    CTCACCGAGC TGCTCATGGT GGCGCTGACC ATCCAGACCT GGCACTGGCT CATGACAGTG 
    GCGGAGCTGC TCAGCCTGGC CTGCTACATC GCCTCCCTGG TGTTCTTACA CGAGTTCATC 
    GATGTGTACT TCATCGCCAC CTTGTCATTC TTGTGGAAAG TCTCCGTCAT CACTCTGGTC 
    AGCTGCCTCC CCCTCTATGT CCTCAAGTAC CTGCGAAGAC GGTTCTCTCC CCCCAGCTAC 
    TCAAAGCTCA CATCATAG

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

    RefSeq XP_011526783.1
    CDS137..3214
    Translation

    Target ORF information:

    RefSeq Version XM_011528481.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 9A (putative) (ATP9A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011528481.2

    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
    ATGTGCTGCG AGTGGCTGAG ATGCTGCGGT GGAGGGGAGG CCAGGCCCCG CACTGTCTGG 
    CTGGGGCACC CCGAGAAGAG AGACCAGAGG TATCCTCGGA ATGTCATCAA CAATCAGAAG 
    TACAATTTCT TCACCTTTCT TCCTGGGGTG CTGTTCAACC AGTTCAAATA CTTTTTCAAC 
    CTCTATTTCT TACTTCTTGC CTGCTCTCAG TTTGTTCCCG AAATGAGACT TGGTGCACTC 
    TATACCTACT GGGTTCCCCT GGGCTTCGTG CTGGCCGTCA CTGTCATCCG TGAGGCGGTG 
    GAGGAGATCC GATGCTACGT GCGGGACAAG GAAGTCAACT CCCAGGTCTA CAGCCGGCTC 
    ACAGCACGAG GCACAGTGAA GGTGAAGAGT TCTAACATCC AAGTTGGAGA CCTTATCATC 
    GTTGAAAAGA ACCAGCGGGT CCCTGCCGAC ATGATCTTCC TGAGGACATC AGAAAAAAAC 
    GGGTCATGCT TCTTGCGGAC GGATCAGCTG GATGGGGAGA CGGACTGGAA GCTGCGGCTT 
    CCCGTGGCCT GCACGCAGAG GCTCCCCACG GCCGCCGACC TTCTTCAGAT TCGATCGTAT 
    GTGTACGCAG AAGAGCCAAA TATTGACATT CACAACTTCG TGGGAACTTT TACCCGAGAA 
    GACAGCGACC CCCCGATCAG CGAGAGCCTG AGCATAGAGA ACACGCTGTG GGCTGGCACT 
    GTGGTCGCAT CAGGTACTGT TGTGGGTGTT GTTCTTTACA CTGGCAGAGA ACTCCGGAGT 
    GTCATGAATA CCTCAAATCC CCGAAGTAAG ATCGGCCTGT TCGACTTGGA AGTGAACTGC 
    CTCACCAAGA TCCTCTTTGG TGCCCTGGTG GTGGTCTCGC TGGTCATGGT TGCCCTTCAG 
    CACTTTGCAG GCCGTTGGTA CCTGCAGATC ATCCGCTTCC TCCTCTTGTT TTCCAACATC 
    ATCCCCATTA GTTTGCGTGT GAACCTGGAC ATGGGCAAGA TCGTGTACAG CTGGGTGATT 
    CGAAGGGACT CGAAAATCCC CGGGACCGTG GTTCGCTCCA GCACGATTCC TGAGCAGCTG 
    GGCAGGATTT CGTACTTACT CACAGACAAG ACAGGCACTC TTACCCAGAA CGAGATGATT 
    TTCAAACGGC TCCATCTCGG AACAGTAGCC TACGGCCTCG ACTCAATGGA CGAAGTACAA 
    AGCCACATTT TCAGCATTTA CACCCAGCAA TCCCAGGACC CACCGGCTCA GAAGGGCCCA 
    ACGCTCACCA CTAAGGTCCG GCGGACCATG AGCAGCCGCG TGCACGAAGC CGTGAAGGCC 
    ATCGCGCTCT GCCACAACGT GACTCCCGTG TATGAGTCCA ACGGTGTGAC TGATCAGGCT 
    GAGGCCGAGA AGCAGTACGA AGACTCCTGC CGCGTATACC AGGCATCCAG CCCCGATGAG 
    GTGGCCCTGG TACAGTGGAC GGAAAGTGTG GGCTTAACCC TGGTGGGCCG AGACCAGTCT 
    TCCATGCAGC TGAGGACCCC TGGCGACCAG ATCCTGAACT TCACCATCCT ACAGATCTTC 
    CCTTTCACCT ATGAAAGCAA ACGTATGGGC ATCATCGTGC GGGATGAATC AACTGGAGAA 
    ATTACGTTTT ACATGAAGGG AGCAGATGTG GTCATGGCTG GCATTGTGCA GTACAATGAC 
    TGGTTGGAGG AAGAGTGTGG CAACATGGCC CGAGAAGGGC TGCGGGTGCT CGTGGTGGCA 
    AAGAAGTCTC TTGCAGAGGA GCAGTATCAG GACTTTGAAG CCCGCTACGT CCAGGCCAAG 
    CTGAGTGTGC ACGACCGCTC CCTCAAAGTG GCCACGGTGA TCGAGAGCCT GGAGATGGAG 
    ATGGAACTGC TGTGCCTGAC GGGCGTGGAG GACCAGCTGC AGGCAGATGT GCGGCCCACG 
    CTGGAGACCC TGAGGAATGC TGGCATCAAG GTTTGGATGC TGACAGGGGA CAAGCTGGAG 
    ACAGCTACGT GCACAGCGAA GAATGCACAT CTGGTGACCA GAAACCAAGA CATCCACGTT 
    TTTCGGCTGG TGACCAACCG CGGGGAGGCT CACCTCGAGC TGAACGCCTT CCGCAGGAAG 
    CATGATTGTG CCCTGGTCAT CTCGGGAGAC TCCCTGGAGG TTTGCCTCAA GTACTATGAG 
    TACGAGTTCA TGGAGCTGGC CTGCCAGTGC CCGGCCGTAG TCTGCTGCCG ATGTGCCCCC 
    ACCCAGAAGG CCCAGATCGT GCGCCTGCTT CAGGAGCGCA CGGGCAAGCT CACCTGTGCA 
    GTAGGGGACG GAGGCAATGA CGTCAGCATG ATTCAGGAAT CTGACTGCGG CGTGGGAGTG 
    GAAGGAAAGG AAGGAAAACA GGCTTCGTTG GCTGCAGACT TCTCCATCAC TCAATTTAAG 
    CATCTTGGCC GGTTGCTTAT GGTGCATGGC CGGAACAGCT ACAAGCGGTC AGCCGCCCTC 
    AGCCAGTTCG TGATTCACAG GAGCCTCTGT ATCAGCACCA TGCAGGCTGT CTTTTCCTCC 
    GTGTTTTACT TTGCCTCCGT CCCTCTCTAT CAAGGATTCC TCATCATTGG GTACTCCACA 
    ATTTACACCA TGTTTCCTGT GTTTTCTCTG GTCCTGGACA AAGATGTCAA ATCGGAAGTT 
    GCCATGCTGT ATCCTGAGCT CTACAAGGAT CTTCTCAAGG GACGGCCGTT GTCCTACAAG 
    ACATTCTTAA TATGGGTTTT GATTAGCATC TATCAAGGGA GCACCATCAT GTACGGGGCG 
    CTGCTGCTGT TTGAGTCGGA GTTCGTGCAC ATCGTGGCCA TCTCCTTCAC CTCGCTGATC 
    CTCACCGAGC TGCTCATGGT GGCGCTGACC ATCCAGACCT GGCACTGGCT CATGACAGTG 
    GCGGAGCTGC TCAGCCTGGC CTGCTACATC GCCTCCCTGG TGTTCTTACA CGAGTTCATC 
    GATGTGTACT TCATCGCCAC CTTGTCATTC TTGTGGAAAG TCTCCGTCAT CACTCTGGTC 
    AGCTGCCTCC CCCTCTATGT CCTCAAGTAC CTGCGAAGAC GGTTCTCTCC CCCCAGCTAC 
    TCAAAGCTCA CATCATAG

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

  • PubMed

    Characterization of P4 ATPase Phospholipid Translocases (Flippases) in Human and Rat Pancreatic Beta Cells: THEIR GENE SILENCING INHIBITS INSULIN SECRETION.
    The Journal of biological chemistry290(38)23110-23(2015 Sep)
    Ansari IU,Longacre MJ,Paulusma CC,Stoker SW,Kendrick MA,MacDonald MJ


    Cross-disorder genome-wide analyses suggest a complex genetic relationship between Tourette's syndrome and OCD.
    The American journal of psychiatry172(1)82-93(2015 Jan)
    Yu D,Mathews CA,Scharf JM,Neale BM,Davis LK,Gamazon ER,Derks EM,Evans P,Edlund CK,Crane J,Fagerness JA,Osiecki L,Gallagher P,Gerber G,Haddad S,Illmann C,McGrath LM,Mayerfeld C,Arepalli S,Barlassina C,Barr CL,Bellodi L,Benarroch F,Berri? GB,Bienvenu OJ,Black DW,Bloch MH,Brentani H,Bruun RD,Budman CL,Camarena B,Campbell DD,Cappi C,Silgado JC,Cavallini MC,Chavira DA,Chouinard S,Cook EH,Cookson MR,Coric V,Cullen B,Cusi D,Delorme R,Denys D,Dion Y,Eapen V,Egberts K,Falkai P,Fernandez T,Fournier E,Garrido H,Geller D,Gilbert DL,Girard SL,Grabe HJ,Grados MA,Greenberg BD,Gross-Tsur V,Gr?nblatt E,Hardy J,Heiman GA,Hemmings SM,Herrera LD,Hezel DM,Hoekstra PJ,Jankovic J,Kennedy JL,King RA,Konkashbaev AI,Kremeyer B,Kurlan R,Lanzagorta N,Leboyer M,Leckman JF,Lennertz L,Liu C,Lochner C,Lowe TL,Lupoli S,Macciardi F,Maier W,Manunta P,Marconi M,McCracken JT,Mesa Restrepo SC,Moessner R,Moorjani P,Morgan J,Muller H,Murphy DL,Naarden AL,Nurmi E,Ochoa WC,Ophoff RA,Pakstis AJ,Pato MT,Pato CN,Piacentini J,Pittenger C,Pollak Y,Rauch SL,Renner T,Reus VI,Richter MA,Riddle MA,Robertson MM,Romero R,Ros?rio MC,Rosenberg D,Ruhrmann S,Sabatti C,Salvi E,Sampaio AS,Samuels J,Sandor P,Service SK,Sheppard B,Singer HS,Smit JH,Stein DJ,Strengman E,Tischfield JA,Turiel M,Valencia Duarte AV,Vallada H,Veenstra-VanderWeele J,Walitza S,Wang Y,Weale M,Weiss R,Wendland JR,Westenberg HG,Shugart YY,Hounie AG,Miguel EC,Nicolini H,Wagner M,Ruiz-Linares A,Cath DC,McMahon W,Posthuma D,Oostra BA,Nestadt G,Rouleau GA,Purcell S,Jenike MA,Heutink P,Hanna GL,Conti DV,Arnold PD,Freimer NB,Stewart SE,Knowles JA,Cox NJ,Pauls DL


    ATP9B, a P4-ATPase (a putative aminophospholipid translocase), localizes to the trans-Golgi network in a CDC50 protein-independent manner.
    The Journal of biological chemistry286(44)38159-67(2011 Nov)
    Takatsu H,Baba K,Shima T,Umino H,Kato U,Umeda M,Nakayama K,Shin HW


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