ATP10D cDNA ORF clone, Homo sapiens(human)

The following ATP10D gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP10D 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
OHu70377 XM_017008472.1
Latest version!
Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu03354 NM_020453.4
Latest version!
Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu38579 XM_005248119.4
Latest version!
Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu38580 XM_005248120.4
Latest version!
Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu70376 XM_011513722.2
Latest version!
Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu03354 NM_020453.3 Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
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)
    CloneID OHu70377
    Clone ID Related Accession (Same CDS sequence) XM_017008472.1
    Accession Version XM_017008472.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2805bp)
    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 VD isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) 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
    ATGGCAAAAC CGAGAGCCCC CAGCTGCAGG ACAGTTCATA ATGGGCCTTT GGGAAATAAG 
    CCCTCAAATC ATCTTGCTGG GAGCTCTTTT ACTCTAGGAA GTGGAGAAGG AGCCAGTGAA
    GTGCCTCATT CCAGACAGGC TGCTTTCAGT AGCCCCATTG AAACAGACGT GGTACCAGAC
    ACCAGGCTTT TAGACAAATT TAGTCAGATT ACACCTCGGC TCTTTATGCC ACTAGATGAG
    ACCATCCAAA ATCCACCAAT GGAAACTTTG TACATTATCG ACTTTTTCAT TGCATTGGCA
    ATTTGCAACA CAGTAGTGGT TTCTGCTCCT AACCAACCCC GACAAAAGAT CAGACACCCT
    TCACTGGGGG GGTTGCCCAT TAAGTCTTTG GAAGAGATTA AAAGTCTTTT CCAGAGATGG
    TCTGTCCGAA GATCAAGTTC TCCATCGCTT AACAGTGGGA AAGAGCCATC TTCTGGAGTT
    CCAAACGCCT TTGTGAGCAG ACTCCCTCTC TTTAGTCGAA TGAAACCAGC TTCACCTGTG
    GAGGAAGAGG TCTCCCAGGT GTGTGAGAGC CCCCAGTGCT CCAGTAGCTC AGCTTGCTGC
    ACAGAAACAG AGAAACAACA CGGTGATGCA GGCCTCCTGA ATGGCAAGGC AGAGTCCCTC
    CCTGGACAGC CATTGGCCTG CAACCTGTGT TATGAGGCCG AGAGCCCAGA CGAAGCGGCC
    TTAGTGTATG CCGCCAGGGC TTACCAATGC ACTTTACGGT CTCGGACACC AGAGCAGGTC
    ATGGTGGACT TTGCTGCTTT GGGACCATTA ACATTTCAAC TCCTACACAT CCTGCCCTTT
    GACTCAGTAA GAAAAAGAAT GTCTGTTGTG GTCCGACACC CTCTTTCCAA TCAAGTTGTG
    GTGTATACGA AAGGCGCTGA TTCTGTGATC ATGGAGTTAC TGTCGGTGGC TTCCCCAGAT
    GGAGCAAGTC TGGAGAAACA ACAGATGATA GTAAGGGAGA AAACCCAGAA GCACTTGGAT
    GACTATGCCA AACAAGGCCT TCGTACTTTA TGTATAGCAA AGAAGGTCAT GAGTGACACT
    GAATATGCAG AGTGGCTGAG GAATCATTTT TTAGCTGAAA CCAGCATTGA CAACAGGGAA
    GAATTACTAC TTGAATCTGC CATGAGGTTG GAGAACAAAC TTACATTACT TGGTGCTACT
    GGCATTGAAG ACCGTCTGCA GGAGGGAGTC CCTGAATCTA TAGAAGCTCT TCACAAAGCG
    GGCATCAAGA TCTGGATGCT GACAGGGGAC AAGCAGGAGA CAGCTGTCAA CATAGCTTAT
    GCATGCAAAC TACTGGAGCC AGATGACAAG CTTTTTATCC TCAATACCCA AAGTAAAGAT
    GCCTGTGGGA TGCTGATGAG CACAATTTTG AAAGAACTTC AGAAGAAAAC TCAAGCCCTG
    CCAGAGCAAG TGTCATTAAG TGAAGATTTA CTTCAGCCTC CTGTCCCCCG GGACTCAGGG
    TTACGAGCTG GACTCATTAT CACTGGGAAG ACCCTGGAGT TTGCCCTGCA AGAAAGTCTG
    CAAAAGCAGT TCCTGGAACT GACATCTTGG TGTCAAGCTG TGGTCTGCTG CCGAGCCACA
    CCGCTGCAGA AAAGTGAAGT GGTGAAATTG GTCCGCAGCC ATCTCCAGGT GATGACCCTT
    GCTATTGGTG ATGGTGCCAA TGATGTTAGC ATGATACAAG TGGCAGACAT TGGGATAGGG
    GTCTCAGGTC AAGAAGGCAT GCAGGCTGTG ATGGCCAGTG ACTTTGCCGT TTCTCAGTTC
    AAACATCTCA GCAAGCTCCT TCTTGTCCAT GGACACTGGT GTTATACACG GCTTTCCAAC
    ATGATTCTCT ATTTTTTCTA TAAGAATGTG GCCTATGTGA ACCTCCTTTT CTGGTACCAG
    TTCTTTTGTG GATTTTCAGG AACATCCATG ACTGATTACT GGGTTTTGAT CTTCTTCAAC
    CTCCTCTTCA CATCTGCCCC TCCTGTCATT TATGGTGTTT TGGAGAAAGA TGTGTCTGCA
    GAGACCCTCA TGCAACTGCC TGAACTTTAC AGAAGTGGTC AGAAATCAGA GGCATACTTA
    CCCCATACCT TCTGGATCAC CTTATTGGAT GCTTTTTATC AAAGCCTGGT CTGCTTCTTT
    GTGCCTTATT TTACCTACCA GGGCTCAGAT ACTGACATCT TTGCATTTGG AAACCCCCTG
    AACACAGCCG CTCTGTTCAT CGTTCTCCTC CATCTGGTCA TTGAAAGCAA GAGTTTGACT
    TGGATTCACT TGCTGGTCAT CATTGGTAGC ATCTTGTCTT ATTTTTTATT TGCCATAGTT
    TTTGGAGCCA TGTGTGTAAC TTGCAACCCA CCATCCAACC CTTACTGGAT TATGCAGGAG
    CACATGCTGG ATCCAGTATT CTACTTAGTT TGTATCCTCA CGACGTCCAT TGCTCTTCTG
    CCCAGGTTTG TATACAGAGT TCTTCAGGGA TCCCTGTTTC CATCTCCAAT TCTGAGAGCT
    AAGCACTTTG ACAGACTAAC TCCAGAGGAG AGGACTAAAG CTCTCAAGAA GTGGAGAGGG
    GCTGGAAAGA TGAATCAAGT GACATCAAAG TATGCTAACC AATCAGCTGG CAAGTCAGGA
    AGAAGACCCA TGCCTGGCCC TTCTGCTGTA TTTGCAATGA AGTCAGCAAG TTCCTGTGCT
    ATTGAGCAAG GAAACTTATC TCTGTGTGAA ACTGCTTTAG ATCAAGGCTA CTCTGAAACT
    AAGGCCTTTG AGATGGCTGG ACCCTCCAAA GGTAAAGAAA GCTAG

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

    RefSeq XP_016863961.1
    CDS1861..4665
    Translation

    Target ORF information:

    RefSeq Version XM_017008472.1
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017008472.1

    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
    ATGGCAAAAC CGAGAGCCCC CAGCTGCAGG ACAGTTCATA ATGGGCCTTT GGGAAATAAG 
    CCCTCAAATC ATCTTGCTGG GAGCTCTTTT ACTCTAGGAA GTGGAGAAGG AGCCAGTGAA
    GTGCCTCATT CCAGACAGGC TGCTTTCAGT AGCCCCATTG AAACAGACGT GGTACCAGAC
    ACCAGGCTTT TAGACAAATT TAGTCAGATT ACACCTCGGC TCTTTATGCC ACTAGATGAG
    ACCATCCAAA ATCCACCAAT GGAAACTTTG TACATTATCG ACTTTTTCAT TGCATTGGCA
    ATTTGCAACA CAGTAGTGGT TTCTGCTCCT AACCAACCCC GACAAAAGAT CAGACACCCT
    TCACTGGGGG GGTTGCCCAT TAAGTCTTTG GAAGAGATTA AAAGTCTTTT CCAGAGATGG
    TCTGTCCGAA GATCAAGTTC TCCATCGCTT AACAGTGGGA AAGAGCCATC TTCTGGAGTT
    CCAAACGCCT TTGTGAGCAG ACTCCCTCTC TTTAGTCGAA TGAAACCAGC TTCACCTGTG
    GAGGAAGAGG TCTCCCAGGT GTGTGAGAGC CCCCAGTGCT CCAGTAGCTC AGCTTGCTGC
    ACAGAAACAG AGAAACAACA CGGTGATGCA GGCCTCCTGA ATGGCAAGGC AGAGTCCCTC
    CCTGGACAGC CATTGGCCTG CAACCTGTGT TATGAGGCCG AGAGCCCAGA CGAAGCGGCC
    TTAGTGTATG CCGCCAGGGC TTACCAATGC ACTTTACGGT CTCGGACACC AGAGCAGGTC
    ATGGTGGACT TTGCTGCTTT GGGACCATTA ACATTTCAAC TCCTACACAT CCTGCCCTTT
    GACTCAGTAA GAAAAAGAAT GTCTGTTGTG GTCCGACACC CTCTTTCCAA TCAAGTTGTG
    GTGTATACGA AAGGCGCTGA TTCTGTGATC ATGGAGTTAC TGTCGGTGGC TTCCCCAGAT
    GGAGCAAGTC TGGAGAAACA ACAGATGATA GTAAGGGAGA AAACCCAGAA GCACTTGGAT
    GACTATGCCA AACAAGGCCT TCGTACTTTA TGTATAGCAA AGAAGGTCAT GAGTGACACT
    GAATATGCAG AGTGGCTGAG GAATCATTTT TTAGCTGAAA CCAGCATTGA CAACAGGGAA
    GAATTACTAC TTGAATCTGC CATGAGGTTG GAGAACAAAC TTACATTACT TGGTGCTACT
    GGCATTGAAG ACCGTCTGCA GGAGGGAGTC CCTGAATCTA TAGAAGCTCT TCACAAAGCG
    GGCATCAAGA TCTGGATGCT GACAGGGGAC AAGCAGGAGA CAGCTGTCAA CATAGCTTAT
    GCATGCAAAC TACTGGAGCC AGATGACAAG CTTTTTATCC TCAATACCCA AAGTAAAGAT
    GCCTGTGGGA TGCTGATGAG CACAATTTTG AAAGAACTTC AGAAGAAAAC TCAAGCCCTG
    CCAGAGCAAG TGTCATTAAG TGAAGATTTA CTTCAGCCTC CTGTCCCCCG GGACTCAGGG
    TTACGAGCTG GACTCATTAT CACTGGGAAG ACCCTGGAGT TTGCCCTGCA AGAAAGTCTG
    CAAAAGCAGT TCCTGGAACT GACATCTTGG TGTCAAGCTG TGGTCTGCTG CCGAGCCACA
    CCGCTGCAGA AAAGTGAAGT GGTGAAATTG GTCCGCAGCC ATCTCCAGGT GATGACCCTT
    GCTATTGGTG ATGGTGCCAA TGATGTTAGC ATGATACAAG TGGCAGACAT TGGGATAGGG
    GTCTCAGGTC AAGAAGGCAT GCAGGCTGTG ATGGCCAGTG ACTTTGCCGT TTCTCAGTTC
    AAACATCTCA GCAAGCTCCT TCTTGTCCAT GGACACTGGT GTTATACACG GCTTTCCAAC
    ATGATTCTCT ATTTTTTCTA TAAGAATGTG GCCTATGTGA ACCTCCTTTT CTGGTACCAG
    TTCTTTTGTG GATTTTCAGG AACATCCATG ACTGATTACT GGGTTTTGAT CTTCTTCAAC
    CTCCTCTTCA CATCTGCCCC TCCTGTCATT TATGGTGTTT TGGAGAAAGA TGTGTCTGCA
    GAGACCCTCA TGCAACTGCC TGAACTTTAC AGAAGTGGTC AGAAATCAGA GGCATACTTA
    CCCCATACCT TCTGGATCAC CTTATTGGAT GCTTTTTATC AAAGCCTGGT CTGCTTCTTT
    GTGCCTTATT TTACCTACCA GGGCTCAGAT ACTGACATCT TTGCATTTGG AAACCCCCTG
    AACACAGCCG CTCTGTTCAT CGTTCTCCTC CATCTGGTCA TTGAAAGCAA GAGTTTGACT
    TGGATTCACT TGCTGGTCAT CATTGGTAGC ATCTTGTCTT ATTTTTTATT TGCCATAGTT
    TTTGGAGCCA TGTGTGTAAC TTGCAACCCA CCATCCAACC CTTACTGGAT TATGCAGGAG
    CACATGCTGG ATCCAGTATT CTACTTAGTT TGTATCCTCA CGACGTCCAT TGCTCTTCTG
    CCCAGGTTTG TATACAGAGT TCTTCAGGGA TCCCTGTTTC CATCTCCAAT TCTGAGAGCT
    AAGCACTTTG ACAGACTAAC TCCAGAGGAG AGGACTAAAG CTCTCAAGAA GTGGAGAGGG
    GCTGGAAAGA TGAATCAAGT GACATCAAAG TATGCTAACC AATCAGCTGG CAAGTCAGGA
    AGAAGACCCA TGCCTGGCCC TTCTGCTGTA TTTGCAATGA AGTCAGCAAG TTCCTGTGCT
    ATTGAGCAAG GAAACTTATC TCTGTGTGAA ACTGCTTTAG ATCAAGGCTA CTCTGAAACT
    AAGGCCTTTG AGATGGCTGG ACCCTCCAAA GGTAAAGAAA GCTAG

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

    CloneID OHu03354
    Clone ID Related Accession (Same CDS sequence) NM_020453.4 , NM_020453.3
    Accession Version NM_020453.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4281bp)
    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 2019-10-25
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VD
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC107398.4, AJ441078.1 and BC131535.1. On May 17, 2019 this sequence version replaced NM_020453.3. ##Evidence-Data-START## Transcript exon combination :: AJ441078.1, SRR1660807.234887.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000273859.8/ ENSP00000273859.3 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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG AGCTGCCAAT
    TTATATTTCC TGTTCCTAGT TGTCCTGAAC TGGGTACCTT TGGTAGAAGC CTTCCAAAAG
    GAAATCACCA TGTTGCCTCT GGTGGTGGTC CTTACAATTA TCGCAATTAA AGATGGCCTG
    GAAGATTATC GGAAATACAA AATTGACAAA CAGATCAATA ATTTAATAAC TAAAGTTTAT
    AGTAGGAAAG AGAAAAAATA CATTGACCGA TGCTGGAAAG ACGTTACTGT TGGGGACTTT
    ATTCGCCTCT CCTGCAACGA GGTCATCCCT GCAGACATGG TACTACTCTT TTCCACTGAT
    CCAGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG
    AGGCAGGTGG TTCGGGGATA TGCAGAACAG GACTCTGAAG TTGATCCTGA GAAGTTTTCC
    AGTAGGATAG AATGTGAAAG CCCAAACAAT GACCTCAGCA GATTCCGAGG CTTCCTAGAA
    CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTGCTTAG AGGATGCACC
    ATTAGAAACA CAGAGGCTGT TGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA
    ATGCTGAACA ACAGTGGGCC ACGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAACACA
    GATGTCCTCT GGTGTGTCAT GCTTCTGGTC ATAATGTGCT TAACTGGCGC AGTAGGTCAT
    GGAATCTGGC TGAGCAGGTA TGAAAAGATG CATTTTTTCA ATGTTCCCGA GCCTGATGGA
    CATATCATAT CACCACTGTT GGCAGGATTT TATATGTTTT GGACCATGAT CATTTTGTTA
    CAGGTCTTGA TTCCTATTTC TCTCTATGTT TCCATCGAAA TTGTGAAGCT TGGACAAATA
    TATTTCATTC AAAGTGATGT GGATTTCTAC AATGAAAAAA TGGATTCTAT TGTTCAGTGC
    CGAGCCCTGA ACATCGCCGA GGATCTGGGA CAGATTCAGT ACCTCTTTTC CGATAAGACA
    GGAACCCTCA CTGAGAATAA GATGGTTTTT CGAAGATGTA GTGTGGCAGG ATTTGATTAC
    TGCCATGAAG AAAATGCCAG GAGGTTGGAG TCCTATCAGG AAGCTGTCTC TGAAGATGAA
    GATTTTATAG ACACAGTCAG TGGTTCCCTC AGCAATATGG CAAAACCGAG AGCCCCCAGC
    TGCAGGACAG TTCATAATGG GCCTTTGGGA AATAAGCCCT CAAATCATCT TGCTGGGAGC
    TCTTTTACTC TAGGAAGTGG AGAAGGAGCC AGTGAAGTGC CTCATTCCAG ACAGGCTGCT
    TTCAGTAGCC CCATTGAAAC AGACGTGGTA CCAGACACCA GGCTTTTAGA CAAATTTAGT
    CAGATTACAC CTCGGCTCTT TATGCCACTA GATGAGACCA TCCAAAATCC ACCAATGGAA
    ACTTTGTACA TTATCGACTT TTTCATTGCA TTGGCAATTT GCAACACAGT AGTGGTTTCT
    GCTCCTAACC AACCCCGACA AAAGATCAGA CACCCTTCAC TGGGGGGGTT GCCCATTAAG
    TCTTTGGAAG AGATTAAAAG TCTTTTCCAG AGATGGTCTG TCCGAAGATC AAGTTCTCCA
    TCGCTTAACA GTGGGAAAGA GCCATCTTCT GGAGTTCCAA ACGCCTTTGT GAGCAGACTC
    CCTCTCTTTA GTCGAATGAA ACCAGCTTCA CCTGTGGAGG AAGAGGTCTC CCAGGTGTGT
    GAGAGCCCCC AGTGCTCCAG TAGCTCAGCT TGCTGCACAG AAACAGAGAA ACAACACGGT
    GATGCAGGCC TCCTGAATGG CAAGGCAGAG TCCCTCCCTG GACAGCCATT GGCCTGCAAC
    CTGTGTTATG AGGCCGAGAG CCCAGACGAA GCGGCCTTAG TGTATGCCGC CAGGGCTTAC
    CAATGCACTT TACGGTCTCG GACACCAGAG CAGGTCATGG TGGACTTTGC TGCTTTGGGA
    CCATTAACAT TTCAACTCCT ACACATCCTG CCCTTTGACT CAGTAAGAAA AAGAATGTCT
    GTTGTGGTCC GACACCCTCT TTCCAATCAA GTTGTGGTGT ATACGAAAGG CGCTGATTCT
    GTGATCATGG AGTTACTGTC GGTGGCTTCC CCAGATGGAG CAAGTCTGGA GAAACAACAG
    ATGATAGTAA GGGAGAAAAC CCAGAAGCAC TTGGATGACT ATGCCAAACA AGGCCTTCGT
    ACTTTATGTA TAGCAAAGAA GGTCATGAGT GACACTGAAT ATGCAGAGTG GCTGAGGAAT
    CATTTTTTAG CTGAAACCAG CATTGACAAC AGGGAAGAAT TACTACTTGA ATCTGCCATG
    AGGTTGGAGA ACAAACTTAC ATTACTTGGT GCTACTGGCA TTGAAGACCG TCTGCAGGAG
    GGAGTCCCTG AATCTATAGA AGCTCTTCAC AAAGCGGGCA TCAAGATCTG GATGCTGACA
    GGGGACAAGC AGGAGACAGC TGTCAACATA GCTTATGCAT GCAAACTACT GGAGCCAGAT
    GACAAGCTTT TTATCCTCAA TACCCAAAGT AAAGATGCCT GTGGGATGCT GATGAGCACA
    ATTTTGAAAG AACTTCAGAA GAAAACTCAA GCCCTGCCAG AGCAAGTGTC ATTAAGTGAA
    GATTTACTTC AGCCTCCTGT CCCCCGGGAC TCAGGGTTAC GAGCTGGACT CATTATCACT
    GGGAAGACCC TGGAGTTTGC CCTGCAAGAA AGTCTGCAAA AGCAGTTCCT GGAACTGACA
    TCTTGGTGTC AAGCTGTGGT CTGCTGCCGA GCCACACCGC TGCAGAAAAG TGAAGTGGTG
    AAATTGGTCC GCAGCCATCT CCAGGTGATG ACCCTTGCTA TTGGTGATGG TGCCAATGAT
    GTTAGCATGA TACAAGTGGC AGACATTGGG ATAGGGGTCT CAGGTCAAGA AGGCATGCAG
    GCTGTGATGG CCAGTGACTT TGCCGTTTCT CAGTTCAAAC ATCTCAGCAA GCTCCTTCTT
    GTCCATGGAC ACTGGTGTTA TACACGGCTT TCCAACATGA TTCTCTATTT TTTCTATAAG
    AATGTGGCCT ATGTGAACCT CCTTTTCTGG TACCAGTTCT TTTGTGGATT TTCAGGAACA
    TCCATGACTG ATTACTGGGT TTTGATCTTC TTCAACCTCC TCTTCACATC TGCCCCTCCT
    GTCATTTATG GTGTTTTGGA GAAAGATGTG TCTGCAGAGA CCCTCATGCA ACTGCCTGAA
    CTTTACAGAA GTGGTCAGAA ATCAGAGGCA TACTTACCCC ATACCTTCTG GATCACCTTA
    TTGGATGCTT TTTATCAAAG CCTGGTCTGC TTCTTTGTGC CTTATTTTAC CTACCAGGGC
    TCAGATACTG ACATCTTTGC ATTTGGAAAC CCCCTGAACA CAGCCGCTCT GTTCATCGTT
    CTCCTCCATC TGGTCATTGA AAGCAAGAGT TTGACTTGGA TTCACTTGCT GGTCATCATT
    GGTAGCATCT TGTCTTATTT TTTATTTGCC ATAGTTTTTG GAGCCATGTG TGTAACTTGC
    AACCCACCAT CCAACCCTTA CTGGATTATG CAGGAGCACA TGCTGGATCC AGTATTCTAC
    TTAGTTTGTA TCCTCACGAC GTCCATTGCT CTTCTGCCCA GGTTTGTATA CAGAGTTCTT
    CAGGGATCCC TGTTTCCATC TCCAATTCTG AGAGCTAAGC ACTTTGACAG ACTAACTCCA
    GAGGAGAGGA CTAAAGCTCT CAAGAAGTGG AGAGGGGCTG GAAAGATGAA TCAAGTGACA
    TCAAAGTATG CTAACCAATC AGCTGGCAAG TCAGGAAGAA GACCCATGCC TGGCCCTTCT
    GCTGTATTTG CAATGAAGTC AGCAAGTTCC TGTGCTATTG AGCAAGGAAA CTTATCTCTG
    TGTGAAACTG CTTTAGATCA AGGCTACTCT GAAACTAAGG CCTTTGAGAT GGCTGGACCC
    TCCAAAGGTA AAGAAAGCTA G

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

    RefSeq NP_065186.3
    CDS283..4563
    Translation

    Target ORF information:

    RefSeq Version NM_020453.4
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_020453.4

    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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG AGCTGCCAAT
    TTATATTTCC TGTTCCTAGT TGTCCTGAAC TGGGTACCTT TGGTAGAAGC CTTCCAAAAG
    GAAATCACCA TGTTGCCTCT GGTGGTGGTC CTTACAATTA TCGCAATTAA AGATGGCCTG
    GAAGATTATC GGAAATACAA AATTGACAAA CAGATCAATA ATTTAATAAC TAAAGTTTAT
    AGTAGGAAAG AGAAAAAATA CATTGACCGA TGCTGGAAAG ACGTTACTGT TGGGGACTTT
    ATTCGCCTCT CCTGCAACGA GGTCATCCCT GCAGACATGG TACTACTCTT TTCCACTGAT
    CCAGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG
    AGGCAGGTGG TTCGGGGATA TGCAGAACAG GACTCTGAAG TTGATCCTGA GAAGTTTTCC
    AGTAGGATAG AATGTGAAAG CCCAAACAAT GACCTCAGCA GATTCCGAGG CTTCCTAGAA
    CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTGCTTAG AGGATGCACC
    ATTAGAAACA CAGAGGCTGT TGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA
    ATGCTGAACA ACAGTGGGCC ACGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAACACA
    GATGTCCTCT GGTGTGTCAT GCTTCTGGTC ATAATGTGCT TAACTGGCGC AGTAGGTCAT
    GGAATCTGGC TGAGCAGGTA TGAAAAGATG CATTTTTTCA ATGTTCCCGA GCCTGATGGA
    CATATCATAT CACCACTGTT GGCAGGATTT TATATGTTTT GGACCATGAT CATTTTGTTA
    CAGGTCTTGA TTCCTATTTC TCTCTATGTT TCCATCGAAA TTGTGAAGCT TGGACAAATA
    TATTTCATTC AAAGTGATGT GGATTTCTAC AATGAAAAAA TGGATTCTAT TGTTCAGTGC
    CGAGCCCTGA ACATCGCCGA GGATCTGGGA CAGATTCAGT ACCTCTTTTC CGATAAGACA
    GGAACCCTCA CTGAGAATAA GATGGTTTTT CGAAGATGTA GTGTGGCAGG ATTTGATTAC
    TGCCATGAAG AAAATGCCAG GAGGTTGGAG TCCTATCAGG AAGCTGTCTC TGAAGATGAA
    GATTTTATAG ACACAGTCAG TGGTTCCCTC AGCAATATGG CAAAACCGAG AGCCCCCAGC
    TGCAGGACAG TTCATAATGG GCCTTTGGGA AATAAGCCCT CAAATCATCT TGCTGGGAGC
    TCTTTTACTC TAGGAAGTGG AGAAGGAGCC AGTGAAGTGC CTCATTCCAG ACAGGCTGCT
    TTCAGTAGCC CCATTGAAAC AGACGTGGTA CCAGACACCA GGCTTTTAGA CAAATTTAGT
    CAGATTACAC CTCGGCTCTT TATGCCACTA GATGAGACCA TCCAAAATCC ACCAATGGAA
    ACTTTGTACA TTATCGACTT TTTCATTGCA TTGGCAATTT GCAACACAGT AGTGGTTTCT
    GCTCCTAACC AACCCCGACA AAAGATCAGA CACCCTTCAC TGGGGGGGTT GCCCATTAAG
    TCTTTGGAAG AGATTAAAAG TCTTTTCCAG AGATGGTCTG TCCGAAGATC AAGTTCTCCA
    TCGCTTAACA GTGGGAAAGA GCCATCTTCT GGAGTTCCAA ACGCCTTTGT GAGCAGACTC
    CCTCTCTTTA GTCGAATGAA ACCAGCTTCA CCTGTGGAGG AAGAGGTCTC CCAGGTGTGT
    GAGAGCCCCC AGTGCTCCAG TAGCTCAGCT TGCTGCACAG AAACAGAGAA ACAACACGGT
    GATGCAGGCC TCCTGAATGG CAAGGCAGAG TCCCTCCCTG GACAGCCATT GGCCTGCAAC
    CTGTGTTATG AGGCCGAGAG CCCAGACGAA GCGGCCTTAG TGTATGCCGC CAGGGCTTAC
    CAATGCACTT TACGGTCTCG GACACCAGAG CAGGTCATGG TGGACTTTGC TGCTTTGGGA
    CCATTAACAT TTCAACTCCT ACACATCCTG CCCTTTGACT CAGTAAGAAA AAGAATGTCT
    GTTGTGGTCC GACACCCTCT TTCCAATCAA GTTGTGGTGT ATACGAAAGG CGCTGATTCT
    GTGATCATGG AGTTACTGTC GGTGGCTTCC CCAGATGGAG CAAGTCTGGA GAAACAACAG
    ATGATAGTAA GGGAGAAAAC CCAGAAGCAC TTGGATGACT ATGCCAAACA AGGCCTTCGT
    ACTTTATGTA TAGCAAAGAA GGTCATGAGT GACACTGAAT ATGCAGAGTG GCTGAGGAAT
    CATTTTTTAG CTGAAACCAG CATTGACAAC AGGGAAGAAT TACTACTTGA ATCTGCCATG
    AGGTTGGAGA ACAAACTTAC ATTACTTGGT GCTACTGGCA TTGAAGACCG TCTGCAGGAG
    GGAGTCCCTG AATCTATAGA AGCTCTTCAC AAAGCGGGCA TCAAGATCTG GATGCTGACA
    GGGGACAAGC AGGAGACAGC TGTCAACATA GCTTATGCAT GCAAACTACT GGAGCCAGAT
    GACAAGCTTT TTATCCTCAA TACCCAAAGT AAAGATGCCT GTGGGATGCT GATGAGCACA
    ATTTTGAAAG AACTTCAGAA GAAAACTCAA GCCCTGCCAG AGCAAGTGTC ATTAAGTGAA
    GATTTACTTC AGCCTCCTGT CCCCCGGGAC TCAGGGTTAC GAGCTGGACT CATTATCACT
    GGGAAGACCC TGGAGTTTGC CCTGCAAGAA AGTCTGCAAA AGCAGTTCCT GGAACTGACA
    TCTTGGTGTC AAGCTGTGGT CTGCTGCCGA GCCACACCGC TGCAGAAAAG TGAAGTGGTG
    AAATTGGTCC GCAGCCATCT CCAGGTGATG ACCCTTGCTA TTGGTGATGG TGCCAATGAT
    GTTAGCATGA TACAAGTGGC AGACATTGGG ATAGGGGTCT CAGGTCAAGA AGGCATGCAG
    GCTGTGATGG CCAGTGACTT TGCCGTTTCT CAGTTCAAAC ATCTCAGCAA GCTCCTTCTT
    GTCCATGGAC ACTGGTGTTA TACACGGCTT TCCAACATGA TTCTCTATTT TTTCTATAAG
    AATGTGGCCT ATGTGAACCT CCTTTTCTGG TACCAGTTCT TTTGTGGATT TTCAGGAACA
    TCCATGACTG ATTACTGGGT TTTGATCTTC TTCAACCTCC TCTTCACATC TGCCCCTCCT
    GTCATTTATG GTGTTTTGGA GAAAGATGTG TCTGCAGAGA CCCTCATGCA ACTGCCTGAA
    CTTTACAGAA GTGGTCAGAA ATCAGAGGCA TACTTACCCC ATACCTTCTG GATCACCTTA
    TTGGATGCTT TTTATCAAAG CCTGGTCTGC TTCTTTGTGC CTTATTTTAC CTACCAGGGC
    TCAGATACTG ACATCTTTGC ATTTGGAAAC CCCCTGAACA CAGCCGCTCT GTTCATCGTT
    CTCCTCCATC TGGTCATTGA AAGCAAGAGT TTGACTTGGA TTCACTTGCT GGTCATCATT
    GGTAGCATCT TGTCTTATTT TTTATTTGCC ATAGTTTTTG GAGCCATGTG TGTAACTTGC
    AACCCACCAT CCAACCCTTA CTGGATTATG CAGGAGCACA TGCTGGATCC AGTATTCTAC
    TTAGTTTGTA TCCTCACGAC GTCCATTGCT CTTCTGCCCA GGTTTGTATA CAGAGTTCTT
    CAGGGATCCC TGTTTCCATC TCCAATTCTG AGAGCTAAGC ACTTTGACAG ACTAACTCCA
    GAGGAGAGGA CTAAAGCTCT CAAGAAGTGG AGAGGGGCTG GAAAGATGAA TCAAGTGACA
    TCAAAGTATG CTAACCAATC AGCTGGCAAG TCAGGAAGAA GACCCATGCC TGGCCCTTCT
    GCTGTATTTG CAATGAAGTC AGCAAGTTCC TGTGCTATTG AGCAAGGAAA CTTATCTCTG
    TGTGAAACTG CTTTAGATCA AGGCTACTCT GAAACTAAGG CCTTTGAGAT GGCTGGACCC
    TCCAAAGGTA AAGAAAGCTA G

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

    CloneID OHu03354
    Clone ID Related Accession (Same CDS sequence) NM_020453.4 , NM_020453.3
    Accession Version NM_020453.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4281bp)
    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 2018-11-17
    Organism Homo sapiens(human)
    Product probable phospholipid-transporting ATPase VD
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AJ441078.1 and BC131535.1. On Jan 31, 2009 this sequence version replaced NM_020453.2. ##Evidence-Data-START## Transcript exon combination :: AJ441078.1, SRR1660809.200754.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG AGCTGCCAAT
    TTATATTTCC TGTTCCTAGT TGTCCTGAAC TGGGTACCTT TGGTAGAAGC CTTCCAAAAG
    GAAATCACCA TGTTGCCTCT GGTGGTGGTC CTTACAATTA TCGCAATTAA AGATGGCCTG
    GAAGATTATC GGAAATACAA AATTGACAAA CAGATCAATA ATTTAATAAC TAAAGTTTAT
    AGTAGGAAAG AGAAAAAATA CATTGACCGA TGCTGGAAAG ACGTTACTGT TGGGGACTTT
    ATTCGCCTCT CCTGCAACGA GGTCATCCCT GCAGACATGG TACTACTCTT TTCCACTGAT
    CCAGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG
    AGGCAGGTGG TTCGGGGATA TGCAGAACAG GACTCTGAAG TTGATCCTGA GAAGTTTTCC
    AGTAGGATAG AATGTGAAAG CCCAAACAAT GACCTCAGCA GATTCCGAGG CTTCCTAGAA
    CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTGCTTAG AGGATGCACC
    ATTAGAAACA CAGAGGCTGT TGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA
    ATGCTGAACA ACAGTGGGCC ACGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAACACA
    GATGTCCTCT GGTGTGTCAT GCTTCTGGTC ATAATGTGCT TAACTGGCGC AGTAGGTCAT
    GGAATCTGGC TGAGCAGGTA TGAAAAGATG CATTTTTTCA ATGTTCCCGA GCCTGATGGA
    CATATCATAT CACCACTGTT GGCAGGATTT TATATGTTTT GGACCATGAT CATTTTGTTA
    CAGGTCTTGA TTCCTATTTC TCTCTATGTT TCCATCGAAA TTGTGAAGCT TGGACAAATA
    TATTTCATTC AAAGTGATGT GGATTTCTAC AATGAAAAAA TGGATTCTAT TGTTCAGTGC
    CGAGCCCTGA ACATCGCCGA GGATCTGGGA CAGATTCAGT ACCTCTTTTC CGATAAGACA
    GGAACCCTCA CTGAGAATAA GATGGTTTTT CGAAGATGTA GTGTGGCAGG ATTTGATTAC
    TGCCATGAAG AAAATGCCAG GAGGTTGGAG TCCTATCAGG AAGCTGTCTC TGAAGATGAA
    GATTTTATAG ACACAGTCAG TGGTTCCCTC AGCAATATGG CAAAACCGAG AGCCCCCAGC
    TGCAGGACAG TTCATAATGG GCCTTTGGGA AATAAGCCCT CAAATCATCT TGCTGGGAGC
    TCTTTTACTC TAGGAAGTGG AGAAGGAGCC AGTGAAGTGC CTCATTCCAG ACAGGCTGCT
    TTCAGTAGCC CCATTGAAAC AGACGTGGTA CCAGACACCA GGCTTTTAGA CAAATTTAGT
    CAGATTACAC CTCGGCTCTT TATGCCACTA GATGAGACCA TCCAAAATCC ACCAATGGAA
    ACTTTGTACA TTATCGACTT TTTCATTGCA TTGGCAATTT GCAACACAGT AGTGGTTTCT
    GCTCCTAACC AACCCCGACA AAAGATCAGA CACCCTTCAC TGGGGGGGTT GCCCATTAAG
    TCTTTGGAAG AGATTAAAAG TCTTTTCCAG AGATGGTCTG TCCGAAGATC AAGTTCTCCA
    TCGCTTAACA GTGGGAAAGA GCCATCTTCT GGAGTTCCAA ACGCCTTTGT GAGCAGACTC
    CCTCTCTTTA GTCGAATGAA ACCAGCTTCA CCTGTGGAGG AAGAGGTCTC CCAGGTGTGT
    GAGAGCCCCC AGTGCTCCAG TAGCTCAGCT TGCTGCACAG AAACAGAGAA ACAACACGGT
    GATGCAGGCC TCCTGAATGG CAAGGCAGAG TCCCTCCCTG GACAGCCATT GGCCTGCAAC
    CTGTGTTATG AGGCCGAGAG CCCAGACGAA GCGGCCTTAG TGTATGCCGC CAGGGCTTAC
    CAATGCACTT TACGGTCTCG GACACCAGAG CAGGTCATGG TGGACTTTGC TGCTTTGGGA
    CCATTAACAT TTCAACTCCT ACACATCCTG CCCTTTGACT CAGTAAGAAA AAGAATGTCT
    GTTGTGGTCC GACACCCTCT TTCCAATCAA GTTGTGGTGT ATACGAAAGG CGCTGATTCT
    GTGATCATGG AGTTACTGTC GGTGGCTTCC CCAGATGGAG CAAGTCTGGA GAAACAACAG
    ATGATAGTAA GGGAGAAAAC CCAGAAGCAC TTGGATGACT ATGCCAAACA AGGCCTTCGT
    ACTTTATGTA TAGCAAAGAA GGTCATGAGT GACACTGAAT ATGCAGAGTG GCTGAGGAAT
    CATTTTTTAG CTGAAACCAG CATTGACAAC AGGGAAGAAT TACTACTTGA ATCTGCCATG
    AGGTTGGAGA ACAAACTTAC ATTACTTGGT GCTACTGGCA TTGAAGACCG TCTGCAGGAG
    GGAGTCCCTG AATCTATAGA AGCTCTTCAC AAAGCGGGCA TCAAGATCTG GATGCTGACA
    GGGGACAAGC AGGAGACAGC TGTCAACATA GCTTATGCAT GCAAACTACT GGAGCCAGAT
    GACAAGCTTT TTATCCTCAA TACCCAAAGT AAAGATGCCT GTGGGATGCT GATGAGCACA
    ATTTTGAAAG AACTTCAGAA GAAAACTCAA GCCCTGCCAG AGCAAGTGTC ATTAAGTGAA
    GATTTACTTC AGCCTCCTGT CCCCCGGGAC TCAGGGTTAC GAGCTGGACT CATTATCACT
    GGGAAGACCC TGGAGTTTGC CCTGCAAGAA AGTCTGCAAA AGCAGTTCCT GGAACTGACA
    TCTTGGTGTC AAGCTGTGGT CTGCTGCCGA GCCACACCGC TGCAGAAAAG TGAAGTGGTG
    AAATTGGTCC GCAGCCATCT CCAGGTGATG ACCCTTGCTA TTGGTGATGG TGCCAATGAT
    GTTAGCATGA TACAAGTGGC AGACATTGGG ATAGGGGTCT CAGGTCAAGA AGGCATGCAG
    GCTGTGATGG CCAGTGACTT TGCCGTTTCT CAGTTCAAAC ATCTCAGCAA GCTCCTTCTT
    GTCCATGGAC ACTGGTGTTA TACACGGCTT TCCAACATGA TTCTCTATTT TTTCTATAAG
    AATGTGGCCT ATGTGAACCT CCTTTTCTGG TACCAGTTCT TTTGTGGATT TTCAGGAACA
    TCCATGACTG ATTACTGGGT TTTGATCTTC TTCAACCTCC TCTTCACATC TGCCCCTCCT
    GTCATTTATG GTGTTTTGGA GAAAGATGTG TCTGCAGAGA CCCTCATGCA ACTGCCTGAA
    CTTTACAGAA GTGGTCAGAA ATCAGAGGCA TACTTACCCC ATACCTTCTG GATCACCTTA
    TTGGATGCTT TTTATCAAAG CCTGGTCTGC TTCTTTGTGC CTTATTTTAC CTACCAGGGC
    TCAGATACTG ACATCTTTGC ATTTGGAAAC CCCCTGAACA CAGCCGCTCT GTTCATCGTT
    CTCCTCCATC TGGTCATTGA AAGCAAGAGT TTGACTTGGA TTCACTTGCT GGTCATCATT
    GGTAGCATCT TGTCTTATTT TTTATTTGCC ATAGTTTTTG GAGCCATGTG TGTAACTTGC
    AACCCACCAT CCAACCCTTA CTGGATTATG CAGGAGCACA TGCTGGATCC AGTATTCTAC
    TTAGTTTGTA TCCTCACGAC GTCCATTGCT CTTCTGCCCA GGTTTGTATA CAGAGTTCTT
    CAGGGATCCC TGTTTCCATC TCCAATTCTG AGAGCTAAGC ACTTTGACAG ACTAACTCCA
    GAGGAGAGGA CTAAAGCTCT CAAGAAGTGG AGAGGGGCTG GAAAGATGAA TCAAGTGACA
    TCAAAGTATG CTAACCAATC AGCTGGCAAG TCAGGAAGAA GACCCATGCC TGGCCCTTCT
    GCTGTATTTG CAATGAAGTC AGCAAGTTCC TGTGCTATTG AGCAAGGAAA CTTATCTCTG
    TGTGAAACTG CTTTAGATCA AGGCTACTCT GAAACTAAGG CCTTTGAGAT GGCTGGACCC
    TCCAAAGGTA AAGAAAGCTA G

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

    RefSeq NP_065186.3
    CDS165..4445
    Translation

    Target ORF information:

    RefSeq Version NM_020453.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_020453.3

    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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG AGCTGCCAAT
    TTATATTTCC TGTTCCTAGT TGTCCTGAAC TGGGTACCTT TGGTAGAAGC CTTCCAAAAG
    GAAATCACCA TGTTGCCTCT GGTGGTGGTC CTTACAATTA TCGCAATTAA AGATGGCCTG
    GAAGATTATC GGAAATACAA AATTGACAAA CAGATCAATA ATTTAATAAC TAAAGTTTAT
    AGTAGGAAAG AGAAAAAATA CATTGACCGA TGCTGGAAAG ACGTTACTGT TGGGGACTTT
    ATTCGCCTCT CCTGCAACGA GGTCATCCCT GCAGACATGG TACTACTCTT TTCCACTGAT
    CCAGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG
    AGGCAGGTGG TTCGGGGATA TGCAGAACAG GACTCTGAAG TTGATCCTGA GAAGTTTTCC
    AGTAGGATAG AATGTGAAAG CCCAAACAAT GACCTCAGCA GATTCCGAGG CTTCCTAGAA
    CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTGCTTAG AGGATGCACC
    ATTAGAAACA CAGAGGCTGT TGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA
    ATGCTGAACA ACAGTGGGCC ACGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAACACA
    GATGTCCTCT GGTGTGTCAT GCTTCTGGTC ATAATGTGCT TAACTGGCGC AGTAGGTCAT
    GGAATCTGGC TGAGCAGGTA TGAAAAGATG CATTTTTTCA ATGTTCCCGA GCCTGATGGA
    CATATCATAT CACCACTGTT GGCAGGATTT TATATGTTTT GGACCATGAT CATTTTGTTA
    CAGGTCTTGA TTCCTATTTC TCTCTATGTT TCCATCGAAA TTGTGAAGCT TGGACAAATA
    TATTTCATTC AAAGTGATGT GGATTTCTAC AATGAAAAAA TGGATTCTAT TGTTCAGTGC
    CGAGCCCTGA ACATCGCCGA GGATCTGGGA CAGATTCAGT ACCTCTTTTC CGATAAGACA
    GGAACCCTCA CTGAGAATAA GATGGTTTTT CGAAGATGTA GTGTGGCAGG ATTTGATTAC
    TGCCATGAAG AAAATGCCAG GAGGTTGGAG TCCTATCAGG AAGCTGTCTC TGAAGATGAA
    GATTTTATAG ACACAGTCAG TGGTTCCCTC AGCAATATGG CAAAACCGAG AGCCCCCAGC
    TGCAGGACAG TTCATAATGG GCCTTTGGGA AATAAGCCCT CAAATCATCT TGCTGGGAGC
    TCTTTTACTC TAGGAAGTGG AGAAGGAGCC AGTGAAGTGC CTCATTCCAG ACAGGCTGCT
    TTCAGTAGCC CCATTGAAAC AGACGTGGTA CCAGACACCA GGCTTTTAGA CAAATTTAGT
    CAGATTACAC CTCGGCTCTT TATGCCACTA GATGAGACCA TCCAAAATCC ACCAATGGAA
    ACTTTGTACA TTATCGACTT TTTCATTGCA TTGGCAATTT GCAACACAGT AGTGGTTTCT
    GCTCCTAACC AACCCCGACA AAAGATCAGA CACCCTTCAC TGGGGGGGTT GCCCATTAAG
    TCTTTGGAAG AGATTAAAAG TCTTTTCCAG AGATGGTCTG TCCGAAGATC AAGTTCTCCA
    TCGCTTAACA GTGGGAAAGA GCCATCTTCT GGAGTTCCAA ACGCCTTTGT GAGCAGACTC
    CCTCTCTTTA GTCGAATGAA ACCAGCTTCA CCTGTGGAGG AAGAGGTCTC CCAGGTGTGT
    GAGAGCCCCC AGTGCTCCAG TAGCTCAGCT TGCTGCACAG AAACAGAGAA ACAACACGGT
    GATGCAGGCC TCCTGAATGG CAAGGCAGAG TCCCTCCCTG GACAGCCATT GGCCTGCAAC
    CTGTGTTATG AGGCCGAGAG CCCAGACGAA GCGGCCTTAG TGTATGCCGC CAGGGCTTAC
    CAATGCACTT TACGGTCTCG GACACCAGAG CAGGTCATGG TGGACTTTGC TGCTTTGGGA
    CCATTAACAT TTCAACTCCT ACACATCCTG CCCTTTGACT CAGTAAGAAA AAGAATGTCT
    GTTGTGGTCC GACACCCTCT TTCCAATCAA GTTGTGGTGT ATACGAAAGG CGCTGATTCT
    GTGATCATGG AGTTACTGTC GGTGGCTTCC CCAGATGGAG CAAGTCTGGA GAAACAACAG
    ATGATAGTAA GGGAGAAAAC CCAGAAGCAC TTGGATGACT ATGCCAAACA AGGCCTTCGT
    ACTTTATGTA TAGCAAAGAA GGTCATGAGT GACACTGAAT ATGCAGAGTG GCTGAGGAAT
    CATTTTTTAG CTGAAACCAG CATTGACAAC AGGGAAGAAT TACTACTTGA ATCTGCCATG
    AGGTTGGAGA ACAAACTTAC ATTACTTGGT GCTACTGGCA TTGAAGACCG TCTGCAGGAG
    GGAGTCCCTG AATCTATAGA AGCTCTTCAC AAAGCGGGCA TCAAGATCTG GATGCTGACA
    GGGGACAAGC AGGAGACAGC TGTCAACATA GCTTATGCAT GCAAACTACT GGAGCCAGAT
    GACAAGCTTT TTATCCTCAA TACCCAAAGT AAAGATGCCT GTGGGATGCT GATGAGCACA
    ATTTTGAAAG AACTTCAGAA GAAAACTCAA GCCCTGCCAG AGCAAGTGTC ATTAAGTGAA
    GATTTACTTC AGCCTCCTGT CCCCCGGGAC TCAGGGTTAC GAGCTGGACT CATTATCACT
    GGGAAGACCC TGGAGTTTGC CCTGCAAGAA AGTCTGCAAA AGCAGTTCCT GGAACTGACA
    TCTTGGTGTC AAGCTGTGGT CTGCTGCCGA GCCACACCGC TGCAGAAAAG TGAAGTGGTG
    AAATTGGTCC GCAGCCATCT CCAGGTGATG ACCCTTGCTA TTGGTGATGG TGCCAATGAT
    GTTAGCATGA TACAAGTGGC AGACATTGGG ATAGGGGTCT CAGGTCAAGA AGGCATGCAG
    GCTGTGATGG CCAGTGACTT TGCCGTTTCT CAGTTCAAAC ATCTCAGCAA GCTCCTTCTT
    GTCCATGGAC ACTGGTGTTA TACACGGCTT TCCAACATGA TTCTCTATTT TTTCTATAAG
    AATGTGGCCT ATGTGAACCT CCTTTTCTGG TACCAGTTCT TTTGTGGATT TTCAGGAACA
    TCCATGACTG ATTACTGGGT TTTGATCTTC TTCAACCTCC TCTTCACATC TGCCCCTCCT
    GTCATTTATG GTGTTTTGGA GAAAGATGTG TCTGCAGAGA CCCTCATGCA ACTGCCTGAA
    CTTTACAGAA GTGGTCAGAA ATCAGAGGCA TACTTACCCC ATACCTTCTG GATCACCTTA
    TTGGATGCTT TTTATCAAAG CCTGGTCTGC TTCTTTGTGC CTTATTTTAC CTACCAGGGC
    TCAGATACTG ACATCTTTGC ATTTGGAAAC CCCCTGAACA CAGCCGCTCT GTTCATCGTT
    CTCCTCCATC TGGTCATTGA AAGCAAGAGT TTGACTTGGA TTCACTTGCT GGTCATCATT
    GGTAGCATCT TGTCTTATTT TTTATTTGCC ATAGTTTTTG GAGCCATGTG TGTAACTTGC
    AACCCACCAT CCAACCCTTA CTGGATTATG CAGGAGCACA TGCTGGATCC AGTATTCTAC
    TTAGTTTGTA TCCTCACGAC GTCCATTGCT CTTCTGCCCA GGTTTGTATA CAGAGTTCTT
    CAGGGATCCC TGTTTCCATC TCCAATTCTG AGAGCTAAGC ACTTTGACAG ACTAACTCCA
    GAGGAGAGGA CTAAAGCTCT CAAGAAGTGG AGAGGGGCTG GAAAGATGAA TCAAGTGACA
    TCAAAGTATG CTAACCAATC AGCTGGCAAG TCAGGAAGAA GACCCATGCC TGGCCCTTCT
    GCTGTATTTG CAATGAAGTC AGCAAGTTCC TGTGCTATTG AGCAAGGAAA CTTATCTCTG
    TGTGAAACTG CTTTAGATCA AGGCTACTCT GAAACTAAGG CCTTTGAGAT GGCTGGACCC
    TCCAAAGGTA AAGAAAGCTA G

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

    CloneID OHu38579
    Clone ID Related Accession (Same CDS sequence) XM_005248119.4
    Accession Version XM_005248119.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4236bp)
    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 VD isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) 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_005248119.3. ##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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG AGCTGCCAAT
    TTATATTTCC TGTTCCTAGT TGTCCTGAAC TGGGTACCTT TGGTAGAAGC CTTCCAAAAG
    GAAATCACCA TGTTGCCTCT GGTGGTGGTC CTTACAATTA TCGCAATTAA AGATGGCCTG
    GAAGATTATC GGAAATACAA AATTGACAAA CAGATCAATA ATTTAATAAC TAAAGTTTAT
    AGTAGGAAAG AGAAAAAATA CATTGACCGA TGCTGGAAAG ACGTTACTGT TGGGGACTTT
    ATTCGCCTCT CCTGCAACGA GGTCATCCCT GCAGACATGG TACTACTCTT TTCCACTGAT
    CCAGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG
    AGGCAGGTGG TTCGGGGATA TGCAGAACAG GACTCTGAAG TTGATCCTGA GAAGTTTTCC
    AGTAGGATAG AATGTGAAAG CCCAAACAAT GACCTCAGCA GATTCCGAGG CTTCCTAGAA
    CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTGCTTAG AGGATGCACC
    ATTAGAAACA CAGAGGCTGT TGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA
    ATGCTGAACA ACAGTGGGCC ACGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAACACA
    GATGTCCTCT GGTGTGTCAT GCTTCTGGTC ATAATGTGCT TAACTGGCGC AGTAGGTCAT
    GGAATCTGGC TGAGCAGGTA TGAAAAGATG CATTTTTTCA ATGTTCCCGA GCCTGATGGA
    CATATCATAT CACCACTGTT GGCAGGATTT TATATGTTTT GGACCATGAT CATTTTGTTA
    CAGCTTGGAC AAATATATTT CATTCAAAGT GATGTGGATT TCTACAATGA AAAAATGGAT
    TCTATTGTTC AGTGCCGAGC CCTGAACATC GCCGAGGATC TGGGACAGAT TCAGTACCTC
    TTTTCCGATA AGACAGGAAC CCTCACTGAG AATAAGATGG TTTTTCGAAG ATGTAGTGTG
    GCAGGATTTG ATTACTGCCA TGAAGAAAAT GCCAGGAGGT TGGAGTCCTA TCAGGAAGCT
    GTCTCTGAAG ATGAAGATTT TATAGACACA GTCAGTGGTT CCCTCAGCAA TATGGCAAAA
    CCGAGAGCCC CCAGCTGCAG GACAGTTCAT AATGGGCCTT TGGGAAATAA GCCCTCAAAT
    CATCTTGCTG GGAGCTCTTT TACTCTAGGA AGTGGAGAAG GAGCCAGTGA AGTGCCTCAT
    TCCAGACAGG CTGCTTTCAG TAGCCCCATT GAAACAGACG TGGTACCAGA CACCAGGCTT
    TTAGACAAAT TTAGTCAGAT TACACCTCGG CTCTTTATGC CACTAGATGA GACCATCCAA
    AATCCACCAA TGGAAACTTT GTACATTATC GACTTTTTCA TTGCATTGGC AATTTGCAAC
    ACAGTAGTGG TTTCTGCTCC TAACCAACCC CGACAAAAGA TCAGACACCC TTCACTGGGG
    GGGTTGCCCA TTAAGTCTTT GGAAGAGATT AAAAGTCTTT TCCAGAGATG GTCTGTCCGA
    AGATCAAGTT CTCCATCGCT TAACAGTGGG AAAGAGCCAT CTTCTGGAGT TCCAAACGCC
    TTTGTGAGCA GACTCCCTCT CTTTAGTCGA ATGAAACCAG CTTCACCTGT GGAGGAAGAG
    GTCTCCCAGG TGTGTGAGAG CCCCCAGTGC TCCAGTAGCT CAGCTTGCTG CACAGAAACA
    GAGAAACAAC ACGGTGATGC AGGCCTCCTG AATGGCAAGG CAGAGTCCCT CCCTGGACAG
    CCATTGGCCT GCAACCTGTG TTATGAGGCC GAGAGCCCAG ACGAAGCGGC CTTAGTGTAT
    GCCGCCAGGG CTTACCAATG CACTTTACGG TCTCGGACAC CAGAGCAGGT CATGGTGGAC
    TTTGCTGCTT TGGGACCATT AACATTTCAA CTCCTACACA TCCTGCCCTT TGACTCAGTA
    AGAAAAAGAA TGTCTGTTGT GGTCCGACAC CCTCTTTCCA ATCAAGTTGT GGTGTATACG
    AAAGGCGCTG ATTCTGTGAT CATGGAGTTA CTGTCGGTGG CTTCCCCAGA TGGAGCAAGT
    CTGGAGAAAC AACAGATGAT AGTAAGGGAG AAAACCCAGA AGCACTTGGA TGACTATGCC
    AAACAAGGCC TTCGTACTTT ATGTATAGCA AAGAAGGTCA TGAGTGACAC TGAATATGCA
    GAGTGGCTGA GGAATCATTT TTTAGCTGAA ACCAGCATTG ACAACAGGGA AGAATTACTA
    CTTGAATCTG CCATGAGGTT GGAGAACAAA CTTACATTAC TTGGTGCTAC TGGCATTGAA
    GACCGTCTGC AGGAGGGAGT CCCTGAATCT ATAGAAGCTC TTCACAAAGC GGGCATCAAG
    ATCTGGATGC TGACAGGGGA CAAGCAGGAG ACAGCTGTCA ACATAGCTTA TGCATGCAAA
    CTACTGGAGC CAGATGACAA GCTTTTTATC CTCAATACCC AAAGTAAAGA TGCCTGTGGG
    ATGCTGATGA GCACAATTTT GAAAGAACTT CAGAAGAAAA CTCAAGCCCT GCCAGAGCAA
    GTGTCATTAA GTGAAGATTT ACTTCAGCCT CCTGTCCCCC GGGACTCAGG GTTACGAGCT
    GGACTCATTA TCACTGGGAA GACCCTGGAG TTTGCCCTGC AAGAAAGTCT GCAAAAGCAG
    TTCCTGGAAC TGACATCTTG GTGTCAAGCT GTGGTCTGCT GCCGAGCCAC ACCGCTGCAG
    AAAAGTGAAG TGGTGAAATT GGTCCGCAGC CATCTCCAGG TGATGACCCT TGCTATTGGT
    GATGGTGCCA ATGATGTTAG CATGATACAA GTGGCAGACA TTGGGATAGG GGTCTCAGGT
    CAAGAAGGCA TGCAGGCTGT GATGGCCAGT GACTTTGCCG TTTCTCAGTT CAAACATCTC
    AGCAAGCTCC TTCTTGTCCA TGGACACTGG TGTTATACAC GGCTTTCCAA CATGATTCTC
    TATTTTTTCT ATAAGAATGT GGCCTATGTG AACCTCCTTT TCTGGTACCA GTTCTTTTGT
    GGATTTTCAG GAACATCCAT GACTGATTAC TGGGTTTTGA TCTTCTTCAA CCTCCTCTTC
    ACATCTGCCC CTCCTGTCAT TTATGGTGTT TTGGAGAAAG ATGTGTCTGC AGAGACCCTC
    ATGCAACTGC CTGAACTTTA CAGAAGTGGT CAGAAATCAG AGGCATACTT ACCCCATACC
    TTCTGGATCA CCTTATTGGA TGCTTTTTAT CAAAGCCTGG TCTGCTTCTT TGTGCCTTAT
    TTTACCTACC AGGGCTCAGA TACTGACATC TTTGCATTTG GAAACCCCCT GAACACAGCC
    GCTCTGTTCA TCGTTCTCCT CCATCTGGTC ATTGAAAGCA AGAGTTTGAC TTGGATTCAC
    TTGCTGGTCA TCATTGGTAG CATCTTGTCT TATTTTTTAT TTGCCATAGT TTTTGGAGCC
    ATGTGTGTAA CTTGCAACCC ACCATCCAAC CCTTACTGGA TTATGCAGGA GCACATGCTG
    GATCCAGTAT TCTACTTAGT TTGTATCCTC ACGACGTCCA TTGCTCTTCT GCCCAGGTTT
    GTATACAGAG TTCTTCAGGG ATCCCTGTTT CCATCTCCAA TTCTGAGAGC TAAGCACTTT
    GACAGACTAA CTCCAGAGGA GAGGACTAAA GCTCTCAAGA AGTGGAGAGG GGCTGGAAAG
    ATGAATCAAG TGACATCAAA GTATGCTAAC CAATCAGCTG GCAAGTCAGG AAGAAGACCC
    ATGCCTGGCC CTTCTGCTGT ATTTGCAATG AAGTCAGCAA GTTCCTGTGC TATTGAGCAA
    GGAAACTTAT CTCTGTGTGA AACTGCTTTA GATCAAGGCT ACTCTGAAAC TAAGGCCTTT
    GAGATGGCTG GACCCTCCAA AGGTAAAGAA AGCTAG

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

    RefSeq XP_005248176.1
    CDS296..4531
    Translation

    Target ORF information:

    RefSeq Version XM_005248119.4
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248119.4

    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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG AGCTGCCAAT
    TTATATTTCC TGTTCCTAGT TGTCCTGAAC TGGGTACCTT TGGTAGAAGC CTTCCAAAAG
    GAAATCACCA TGTTGCCTCT GGTGGTGGTC CTTACAATTA TCGCAATTAA AGATGGCCTG
    GAAGATTATC GGAAATACAA AATTGACAAA CAGATCAATA ATTTAATAAC TAAAGTTTAT
    AGTAGGAAAG AGAAAAAATA CATTGACCGA TGCTGGAAAG ACGTTACTGT TGGGGACTTT
    ATTCGCCTCT CCTGCAACGA GGTCATCCCT GCAGACATGG TACTACTCTT TTCCACTGAT
    CCAGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG
    AGGCAGGTGG TTCGGGGATA TGCAGAACAG GACTCTGAAG TTGATCCTGA GAAGTTTTCC
    AGTAGGATAG AATGTGAAAG CCCAAACAAT GACCTCAGCA GATTCCGAGG CTTCCTAGAA
    CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTGCTTAG AGGATGCACC
    ATTAGAAACA CAGAGGCTGT TGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA
    ATGCTGAACA ACAGTGGGCC ACGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAACACA
    GATGTCCTCT GGTGTGTCAT GCTTCTGGTC ATAATGTGCT TAACTGGCGC AGTAGGTCAT
    GGAATCTGGC TGAGCAGGTA TGAAAAGATG CATTTTTTCA ATGTTCCCGA GCCTGATGGA
    CATATCATAT CACCACTGTT GGCAGGATTT TATATGTTTT GGACCATGAT CATTTTGTTA
    CAGCTTGGAC AAATATATTT CATTCAAAGT GATGTGGATT TCTACAATGA AAAAATGGAT
    TCTATTGTTC AGTGCCGAGC CCTGAACATC GCCGAGGATC TGGGACAGAT TCAGTACCTC
    TTTTCCGATA AGACAGGAAC CCTCACTGAG AATAAGATGG TTTTTCGAAG ATGTAGTGTG
    GCAGGATTTG ATTACTGCCA TGAAGAAAAT GCCAGGAGGT TGGAGTCCTA TCAGGAAGCT
    GTCTCTGAAG ATGAAGATTT TATAGACACA GTCAGTGGTT CCCTCAGCAA TATGGCAAAA
    CCGAGAGCCC CCAGCTGCAG GACAGTTCAT AATGGGCCTT TGGGAAATAA GCCCTCAAAT
    CATCTTGCTG GGAGCTCTTT TACTCTAGGA AGTGGAGAAG GAGCCAGTGA AGTGCCTCAT
    TCCAGACAGG CTGCTTTCAG TAGCCCCATT GAAACAGACG TGGTACCAGA CACCAGGCTT
    TTAGACAAAT TTAGTCAGAT TACACCTCGG CTCTTTATGC CACTAGATGA GACCATCCAA
    AATCCACCAA TGGAAACTTT GTACATTATC GACTTTTTCA TTGCATTGGC AATTTGCAAC
    ACAGTAGTGG TTTCTGCTCC TAACCAACCC CGACAAAAGA TCAGACACCC TTCACTGGGG
    GGGTTGCCCA TTAAGTCTTT GGAAGAGATT AAAAGTCTTT TCCAGAGATG GTCTGTCCGA
    AGATCAAGTT CTCCATCGCT TAACAGTGGG AAAGAGCCAT CTTCTGGAGT TCCAAACGCC
    TTTGTGAGCA GACTCCCTCT CTTTAGTCGA ATGAAACCAG CTTCACCTGT GGAGGAAGAG
    GTCTCCCAGG TGTGTGAGAG CCCCCAGTGC TCCAGTAGCT CAGCTTGCTG CACAGAAACA
    GAGAAACAAC ACGGTGATGC AGGCCTCCTG AATGGCAAGG CAGAGTCCCT CCCTGGACAG
    CCATTGGCCT GCAACCTGTG TTATGAGGCC GAGAGCCCAG ACGAAGCGGC CTTAGTGTAT
    GCCGCCAGGG CTTACCAATG CACTTTACGG TCTCGGACAC CAGAGCAGGT CATGGTGGAC
    TTTGCTGCTT TGGGACCATT AACATTTCAA CTCCTACACA TCCTGCCCTT TGACTCAGTA
    AGAAAAAGAA TGTCTGTTGT GGTCCGACAC CCTCTTTCCA ATCAAGTTGT GGTGTATACG
    AAAGGCGCTG ATTCTGTGAT CATGGAGTTA CTGTCGGTGG CTTCCCCAGA TGGAGCAAGT
    CTGGAGAAAC AACAGATGAT AGTAAGGGAG AAAACCCAGA AGCACTTGGA TGACTATGCC
    AAACAAGGCC TTCGTACTTT ATGTATAGCA AAGAAGGTCA TGAGTGACAC TGAATATGCA
    GAGTGGCTGA GGAATCATTT TTTAGCTGAA ACCAGCATTG ACAACAGGGA AGAATTACTA
    CTTGAATCTG CCATGAGGTT GGAGAACAAA CTTACATTAC TTGGTGCTAC TGGCATTGAA
    GACCGTCTGC AGGAGGGAGT CCCTGAATCT ATAGAAGCTC TTCACAAAGC GGGCATCAAG
    ATCTGGATGC TGACAGGGGA CAAGCAGGAG ACAGCTGTCA ACATAGCTTA TGCATGCAAA
    CTACTGGAGC CAGATGACAA GCTTTTTATC CTCAATACCC AAAGTAAAGA TGCCTGTGGG
    ATGCTGATGA GCACAATTTT GAAAGAACTT CAGAAGAAAA CTCAAGCCCT GCCAGAGCAA
    GTGTCATTAA GTGAAGATTT ACTTCAGCCT CCTGTCCCCC GGGACTCAGG GTTACGAGCT
    GGACTCATTA TCACTGGGAA GACCCTGGAG TTTGCCCTGC AAGAAAGTCT GCAAAAGCAG
    TTCCTGGAAC TGACATCTTG GTGTCAAGCT GTGGTCTGCT GCCGAGCCAC ACCGCTGCAG
    AAAAGTGAAG TGGTGAAATT GGTCCGCAGC CATCTCCAGG TGATGACCCT TGCTATTGGT
    GATGGTGCCA ATGATGTTAG CATGATACAA GTGGCAGACA TTGGGATAGG GGTCTCAGGT
    CAAGAAGGCA TGCAGGCTGT GATGGCCAGT GACTTTGCCG TTTCTCAGTT CAAACATCTC
    AGCAAGCTCC TTCTTGTCCA TGGACACTGG TGTTATACAC GGCTTTCCAA CATGATTCTC
    TATTTTTTCT ATAAGAATGT GGCCTATGTG AACCTCCTTT TCTGGTACCA GTTCTTTTGT
    GGATTTTCAG GAACATCCAT GACTGATTAC TGGGTTTTGA TCTTCTTCAA CCTCCTCTTC
    ACATCTGCCC CTCCTGTCAT TTATGGTGTT TTGGAGAAAG ATGTGTCTGC AGAGACCCTC
    ATGCAACTGC CTGAACTTTA CAGAAGTGGT CAGAAATCAG AGGCATACTT ACCCCATACC
    TTCTGGATCA CCTTATTGGA TGCTTTTTAT CAAAGCCTGG TCTGCTTCTT TGTGCCTTAT
    TTTACCTACC AGGGCTCAGA TACTGACATC TTTGCATTTG GAAACCCCCT GAACACAGCC
    GCTCTGTTCA TCGTTCTCCT CCATCTGGTC ATTGAAAGCA AGAGTTTGAC TTGGATTCAC
    TTGCTGGTCA TCATTGGTAG CATCTTGTCT TATTTTTTAT TTGCCATAGT TTTTGGAGCC
    ATGTGTGTAA CTTGCAACCC ACCATCCAAC CCTTACTGGA TTATGCAGGA GCACATGCTG
    GATCCAGTAT TCTACTTAGT TTGTATCCTC ACGACGTCCA TTGCTCTTCT GCCCAGGTTT
    GTATACAGAG TTCTTCAGGG ATCCCTGTTT CCATCTCCAA TTCTGAGAGC TAAGCACTTT
    GACAGACTAA CTCCAGAGGA GAGGACTAAA GCTCTCAAGA AGTGGAGAGG GGCTGGAAAG
    ATGAATCAAG TGACATCAAA GTATGCTAAC CAATCAGCTG GCAAGTCAGG AAGAAGACCC
    ATGCCTGGCC CTTCTGCTGT ATTTGCAATG AAGTCAGCAA GTTCCTGTGC TATTGAGCAA
    GGAAACTTAT CTCTGTGTGA AACTGCTTTA GATCAAGGCT ACTCTGAAAC TAAGGCCTTT
    GAGATGGCTG GACCCTCCAA AGGTAAAGAA AGCTAG

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

    CloneID OHu38580
    Clone ID Related Accession (Same CDS sequence) XM_005248120.4
    Accession Version XM_005248120.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4200bp)
    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 VD isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) 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_005248120.3. ##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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG AGCTGCCAAT
    TTATATTTCC TGTTCCTAGT TGTCCTGAAC TGGGTACCTT TGGTAGAAGC CTTCCAAAAG
    GAAATCACCA TGTTGCCTCT GGTGGTGGTC CTTACAATTA TCGCAATTAA AGATGGCCTG
    GAAGATTATC GGAAATACAA AATTGACAAA CAGATCAATA ATTTAATAAC TAAAGTTTAT
    AGTAGGAAAG AGAAAAAATA CATTGACCGA TGCTGGAAAG ACGTTACTGT TGGGGACTTT
    ATTCGCCTCT CCTGCAACGA GGTCATCCCT GCAGACATGG TACTACTCTT TTCCACTGAT
    CCAGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG
    AGGCAGGTGG TTCGGGGATA TGCAGAACAG GACTCTGAAG TTGATCCTGA GAAGTTTTCC
    AGTAGGATAG AATGTGAAAG CCCAAACAAT GACCTCAGCA GATTCCGAGG CTTCCTAGAA
    CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTGCTTAG AGGATGCACC
    ATTAGAAACA CAGAGGCTGT TGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA
    ATGCTGAACA ACAGTGGGCC ACGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAACACA
    GATGTCCTCT GGTGTGTCAT GCTTCTGGTC ATAATGTGCT TAACTGGCGC AGTAGGTCAT
    GGAATCTGGC TGAGCAGGTA TGAAAAGATG CATTTTTTCA ATGTTCCCGA GCCTGATGGA
    CATATCATAT CACCACTGTT GGCAGGATTT TATATGTTTT GGACCATGAT CATTTTGTTA
    CAGGTCTTGA TTCCTATTTC TCTCTATGTT TCCATCGAAA TTGTGAAGCT TGGACAAATA
    TATTTCATTC AAAGTGATGT GGATTTCTAC AATGAAAAAA TGGATTCTAT TGTTCAGTGC
    CGAGCCCTGA ACATCGCCGA GGATCTGGGA CAGATTCAGT ACCTCTTTTC CGATAAGACA
    GGAACCCTCA CTGAGAATAA GATGGTTTTT CGAAGATGTA GTGTGGCAGG ATTTGATTAC
    TGCCATGAAG AAAATGCCAG GAGGTTGGAG TCCTATCAGG AAGCTGTCTC TGAAGATGAA
    GATTTTATAG ACACAGTCAG TGGTTCCCTC AGCAATATGG CAAAACCGAG AGCCCCCAGC
    TGCAGGACAG TTCATAATGG GCCTTTGGGA AATAAGCCCT CAAATCATCT TGCTGGGAGC
    TCTTTTACTC TAGGAAGTGG AGAAGGAGCC AGTGAAGTGC CTCATTCCAG ACAGGCTGCT
    TTCAGTAGCC CCATTGAAAC AGACGTGGTA CCAGACACCA GGCTTTTAGA CAAATTTAGT
    CAGATTACAC CTCGGCTCTT TATGCCACTA GATGAGACCA TCCAAAATCC ACCAATGGAA
    ACTTTGTACA TTATCGACTT TTTCATTGCA TTGGCAATTT GCAACACAGT AGTGGTTTCT
    GCTCCTAACC AACCCCGACA AAAGATCAGA CACCCTTCAC TGGGGGGGTT GCCCATTAAG
    TCTTTGGAAG AGATTAAAAG TCTTTTCCAG AGATGGTCTG TCCGAAGATC AAGTTCTCCA
    TCGCTTAACA GTGGGAAAGA GCCATCTTCT GGAGTTCCAA ACGCCTTTGT GAGCAGACTC
    CCTCTCTTTA GTCGAATGAA ACCAGCTTCA CCTGTGGAGG AAGAGGTCTC CCAGGTGTGT
    GAGAGCCCCC AGTGCTCCAG TAGCTCAGCT TGCTGCACAG AAACAGAGAA ACAACACGGT
    GATGCAGGCC TCCTGAATGG CAAGGCAGAG TCCCTCCCTG GACAGCCATT GGCCTGCAAC
    CTGTGTTATG AGGCCGAGAG CCCAGACGAA GCGGCCTTAG TGTATGCCGC CAGGGCTTAC
    CAATGCACTT TACGGTCTCG GACACCAGAG CAGGTCATGG TGGACTTTGC TGCTTTGGGA
    CCATTAACAT TTCAACTCCT ACACATCCTG CCCTTTGACT CAGTAAGAAA AAGAATGTCT
    GTTGTGGTCC GACACCCTCT TTCCAATCAA GTTGTGGTGT ATACGAAAGG CGCTGATTCT
    GTGATCATGG AGTTACTGTC GGTGGCTTCC CCAGATGGAG CAAGTCTGGA GAAACAACAG
    ATGATAGTAA GGGAGAAAAC CCAGAAGCAC TTGGATGACT ATGCCAAACA AGGCCTTCGT
    ACTTTATGTA TAGCAAAGAA GGTCATGAGT GACACTGAAT ATGCAGAGTG GCTGAGGAAT
    CATTTTTTAG CTGAAACCAG CATTGACAAC AGGGAAGAAT TACTACTTGA ATCTGCCATG
    AGGTTGGAGA ACAAACTTAC ATTACTTGGT GCTACTGGCA TTGAAGACCG TCTGCAGGAG
    GGAGTCCCTG AATCTATAGA AGCTCTTCAC AAAGCGGGCA TCAAGATCTG GATGCTGACA
    GGGGACAAGC AGGAGACAGC TGTCAACATA GCTTATGCAT GCAAACTACT GGAGCCAGAT
    GACAAGCTTT TTATCCTCAA TACCCAAAGT AAAGATGCCT GTGGGATGCT GATGAGCACA
    ATTTTGAAAG AACTTCAGAA GAAAACTCAA GCCCTGCCAG AGCAAGTGTC ATTAAGTGAA
    GATTTACTTC AGCCTCCTGT CCCCCGGGAC TCAGGGTTAC GAGCTGGACT CATTATCACT
    GGGAAGACCC TGGAGTTTGC CCTGCAAGAA AGTCTGCAAA AGCAGTTCCT GGAACTGACA
    TCTTGGTGTC AAGCTGTGGT CTGCTGCCGA GCCACACCGC TGCAGAAAAG TGAAGTGGTG
    AAATTGGTCC GCAGCCATCT CCAGGTGATG ACCCTTGCTA TTGGTGATGG TGCCAATGAT
    GTTAGCATGA TACAAGTGGC AGACATTGGG ATAGGGGTCT CAGGTCAAGA AGGCATGCAG
    GCTGTGATGG CCAGTGACTT TGCCGTTTCT CAGTTCAAAC ATCTCAGCAA GCTCCTTCTT
    GTCCATGGAC ACTGGTGTTA TACACGGCTT TCCAACATGA TTCTCTATTT TTTCTATAAG
    AATGTGGCCT ATGTGAACCT CCTTTTCTGG TACCAGTTCT TTTGTGGATT TTCAGGAACA
    TCCATGACTG ATTACTGGGT TTTGATCTTC TTCAACCTCC TCTTCACATC TGCCCCTCCT
    GTCATTTATG GTGTTTTGGA GAAAGATGTG TCTGCAGAGA CCCTCATGCA ACTGCCTGAA
    CTTTACAGAA GTGGTCAGAA ATCAGAGACC TACCAGGGCT CAGATACTGA CATCTTTGCA
    TTTGGAAACC CCCTGAACAC AGCCGCTCTG TTCATCGTTC TCCTCCATCT GGTCATTGAA
    AGCAAGAGTT TGACTTGGAT TCACTTGCTG GTCATCATTG GTAGCATCTT GTCTTATTTT
    TTATTTGCCA TAGTTTTTGG AGCCATGTGT GTAACTTGCA ACCCACCATC CAACCCTTAC
    TGGATTATGC AGGAGCACAT GCTGGATCCA GTATTCTACT TAGTTTGTAT CCTCACGACG
    TCCATTGCTC TTCTGCCCAG GTTTGTATAC AGAGTTCTTC AGGGATCCCT GTTTCCATCT
    CCAATTCTGA GAGCTAAGCA CTTTGACAGA CTAACTCCAG AGGAGAGGAC TAAAGCTCTC
    AAGAAGTGGA GAGGGGCTGG AAAGATGAAT CAAGTGACAT CAAAGTATGC TAACCAATCA
    GCTGGCAAGT CAGGAAGAAG ACCCATGCCT GGCCCTTCTG CTGTATTTGC AATGAAGTCA
    GCAAGTTCCT GTGCTATTGA GCAAGGAAAC TTATCTCTGT GTGAAACTGC TTTAGATCAA
    GGCTACTCTG AAACTAAGGC CTTTGAGATG GCTGGACCCT CCAAAGGTAA AGAAAGCTAG

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

    RefSeq XP_005248177.1
    CDS283..4482
    Translation

    Target ORF information:

    RefSeq Version XM_005248120.4
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248120.4

    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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG AGCTGCCAAT
    TTATATTTCC TGTTCCTAGT TGTCCTGAAC TGGGTACCTT TGGTAGAAGC CTTCCAAAAG
    GAAATCACCA TGTTGCCTCT GGTGGTGGTC CTTACAATTA TCGCAATTAA AGATGGCCTG
    GAAGATTATC GGAAATACAA AATTGACAAA CAGATCAATA ATTTAATAAC TAAAGTTTAT
    AGTAGGAAAG AGAAAAAATA CATTGACCGA TGCTGGAAAG ACGTTACTGT TGGGGACTTT
    ATTCGCCTCT CCTGCAACGA GGTCATCCCT GCAGACATGG TACTACTCTT TTCCACTGAT
    CCAGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG
    AGGCAGGTGG TTCGGGGATA TGCAGAACAG GACTCTGAAG TTGATCCTGA GAAGTTTTCC
    AGTAGGATAG AATGTGAAAG CCCAAACAAT GACCTCAGCA GATTCCGAGG CTTCCTAGAA
    CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTGCTTAG AGGATGCACC
    ATTAGAAACA CAGAGGCTGT TGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA
    ATGCTGAACA ACAGTGGGCC ACGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAACACA
    GATGTCCTCT GGTGTGTCAT GCTTCTGGTC ATAATGTGCT TAACTGGCGC AGTAGGTCAT
    GGAATCTGGC TGAGCAGGTA TGAAAAGATG CATTTTTTCA ATGTTCCCGA GCCTGATGGA
    CATATCATAT CACCACTGTT GGCAGGATTT TATATGTTTT GGACCATGAT CATTTTGTTA
    CAGGTCTTGA TTCCTATTTC TCTCTATGTT TCCATCGAAA TTGTGAAGCT TGGACAAATA
    TATTTCATTC AAAGTGATGT GGATTTCTAC AATGAAAAAA TGGATTCTAT TGTTCAGTGC
    CGAGCCCTGA ACATCGCCGA GGATCTGGGA CAGATTCAGT ACCTCTTTTC CGATAAGACA
    GGAACCCTCA CTGAGAATAA GATGGTTTTT CGAAGATGTA GTGTGGCAGG ATTTGATTAC
    TGCCATGAAG AAAATGCCAG GAGGTTGGAG TCCTATCAGG AAGCTGTCTC TGAAGATGAA
    GATTTTATAG ACACAGTCAG TGGTTCCCTC AGCAATATGG CAAAACCGAG AGCCCCCAGC
    TGCAGGACAG TTCATAATGG GCCTTTGGGA AATAAGCCCT CAAATCATCT TGCTGGGAGC
    TCTTTTACTC TAGGAAGTGG AGAAGGAGCC AGTGAAGTGC CTCATTCCAG ACAGGCTGCT
    TTCAGTAGCC CCATTGAAAC AGACGTGGTA CCAGACACCA GGCTTTTAGA CAAATTTAGT
    CAGATTACAC CTCGGCTCTT TATGCCACTA GATGAGACCA TCCAAAATCC ACCAATGGAA
    ACTTTGTACA TTATCGACTT TTTCATTGCA TTGGCAATTT GCAACACAGT AGTGGTTTCT
    GCTCCTAACC AACCCCGACA AAAGATCAGA CACCCTTCAC TGGGGGGGTT GCCCATTAAG
    TCTTTGGAAG AGATTAAAAG TCTTTTCCAG AGATGGTCTG TCCGAAGATC AAGTTCTCCA
    TCGCTTAACA GTGGGAAAGA GCCATCTTCT GGAGTTCCAA ACGCCTTTGT GAGCAGACTC
    CCTCTCTTTA GTCGAATGAA ACCAGCTTCA CCTGTGGAGG AAGAGGTCTC CCAGGTGTGT
    GAGAGCCCCC AGTGCTCCAG TAGCTCAGCT TGCTGCACAG AAACAGAGAA ACAACACGGT
    GATGCAGGCC TCCTGAATGG CAAGGCAGAG TCCCTCCCTG GACAGCCATT GGCCTGCAAC
    CTGTGTTATG AGGCCGAGAG CCCAGACGAA GCGGCCTTAG TGTATGCCGC CAGGGCTTAC
    CAATGCACTT TACGGTCTCG GACACCAGAG CAGGTCATGG TGGACTTTGC TGCTTTGGGA
    CCATTAACAT TTCAACTCCT ACACATCCTG CCCTTTGACT CAGTAAGAAA AAGAATGTCT
    GTTGTGGTCC GACACCCTCT TTCCAATCAA GTTGTGGTGT ATACGAAAGG CGCTGATTCT
    GTGATCATGG AGTTACTGTC GGTGGCTTCC CCAGATGGAG CAAGTCTGGA GAAACAACAG
    ATGATAGTAA GGGAGAAAAC CCAGAAGCAC TTGGATGACT ATGCCAAACA AGGCCTTCGT
    ACTTTATGTA TAGCAAAGAA GGTCATGAGT GACACTGAAT ATGCAGAGTG GCTGAGGAAT
    CATTTTTTAG CTGAAACCAG CATTGACAAC AGGGAAGAAT TACTACTTGA ATCTGCCATG
    AGGTTGGAGA ACAAACTTAC ATTACTTGGT GCTACTGGCA TTGAAGACCG TCTGCAGGAG
    GGAGTCCCTG AATCTATAGA AGCTCTTCAC AAAGCGGGCA TCAAGATCTG GATGCTGACA
    GGGGACAAGC AGGAGACAGC TGTCAACATA GCTTATGCAT GCAAACTACT GGAGCCAGAT
    GACAAGCTTT TTATCCTCAA TACCCAAAGT AAAGATGCCT GTGGGATGCT GATGAGCACA
    ATTTTGAAAG AACTTCAGAA GAAAACTCAA GCCCTGCCAG AGCAAGTGTC ATTAAGTGAA
    GATTTACTTC AGCCTCCTGT CCCCCGGGAC TCAGGGTTAC GAGCTGGACT CATTATCACT
    GGGAAGACCC TGGAGTTTGC CCTGCAAGAA AGTCTGCAAA AGCAGTTCCT GGAACTGACA
    TCTTGGTGTC AAGCTGTGGT CTGCTGCCGA GCCACACCGC TGCAGAAAAG TGAAGTGGTG
    AAATTGGTCC GCAGCCATCT CCAGGTGATG ACCCTTGCTA TTGGTGATGG TGCCAATGAT
    GTTAGCATGA TACAAGTGGC AGACATTGGG ATAGGGGTCT CAGGTCAAGA AGGCATGCAG
    GCTGTGATGG CCAGTGACTT TGCCGTTTCT CAGTTCAAAC ATCTCAGCAA GCTCCTTCTT
    GTCCATGGAC ACTGGTGTTA TACACGGCTT TCCAACATGA TTCTCTATTT TTTCTATAAG
    AATGTGGCCT ATGTGAACCT CCTTTTCTGG TACCAGTTCT TTTGTGGATT TTCAGGAACA
    TCCATGACTG ATTACTGGGT TTTGATCTTC TTCAACCTCC TCTTCACATC TGCCCCTCCT
    GTCATTTATG GTGTTTTGGA GAAAGATGTG TCTGCAGAGA CCCTCATGCA ACTGCCTGAA
    CTTTACAGAA GTGGTCAGAA ATCAGAGACC TACCAGGGCT CAGATACTGA CATCTTTGCA
    TTTGGAAACC CCCTGAACAC AGCCGCTCTG TTCATCGTTC TCCTCCATCT GGTCATTGAA
    AGCAAGAGTT TGACTTGGAT TCACTTGCTG GTCATCATTG GTAGCATCTT GTCTTATTTT
    TTATTTGCCA TAGTTTTTGG AGCCATGTGT GTAACTTGCA ACCCACCATC CAACCCTTAC
    TGGATTATGC AGGAGCACAT GCTGGATCCA GTATTCTACT TAGTTTGTAT CCTCACGACG
    TCCATTGCTC TTCTGCCCAG GTTTGTATAC AGAGTTCTTC AGGGATCCCT GTTTCCATCT
    CCAATTCTGA GAGCTAAGCA CTTTGACAGA CTAACTCCAG AGGAGAGGAC TAAAGCTCTC
    AAGAAGTGGA GAGGGGCTGG AAAGATGAAT CAAGTGACAT CAAAGTATGC TAACCAATCA
    GCTGGCAAGT CAGGAAGAAG ACCCATGCCT GGCCCTTCTG CTGTATTTGC AATGAAGTCA
    GCAAGTTCCT GTGCTATTGA GCAAGGAAAC TTATCTCTGT GTGAAACTGC TTTAGATCAA
    GGCTACTCTG AAACTAAGGC CTTTGAGATG GCTGGACCCT CCAAAGGTAA AGAAAGCTAG

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

    CloneID OHu70376
    Clone ID Related Accession (Same CDS sequence) XM_011513722.2
    Accession Version XM_011513722.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4086bp)
    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 VD isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) 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_011513722.1. ##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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG GAAAGAGAAA
    AAATACATTG ACCGATGCTG GAAAGACGTT ACTGTTGGGG ACTTTATTCG CCTCTCCTGC
    AACGAGGTCA TCCCTGCAGA CATGGTACTA CTCTTTTCCA CTGATCCAGA TGGAATCTGT
    CACATTGAGA CTTCTGGTCT TGATGGAGAG AGCAATTTAA AACAGAGGCA GGTGGTTCGG
    GGATATGCAG AACAGGACTC TGAAGTTGAT CCTGAGAAGT TTTCCAGTAG GATAGAATGT
    GAAAGCCCAA ACAATGACCT CAGCAGATTC CGAGGCTTCC TAGAACATTC CAACAAAGAA
    CGCGTGGGTC TCAGTAAAGA AAATTTGTTG CTTAGAGGAT GCACCATTAG AAACACAGAG
    GCTGTTGTGG GCATTGTGGT TTATGCAGGC CATGAAACCA AAGCAATGCT GAACAACAGT
    GGGCCACGGT ATAAGCGCAG CAAATTAGAA AGAAGAGCAA ACACAGATGT CCTCTGGTGT
    GTCATGCTTC TGGTCATAAT GTGCTTAACT GGCGCAGTAG GTCATGGAAT CTGGCTGAGC
    AGGTATGAAA AGATGCATTT TTTCAATGTT CCCGAGCCTG ATGGACATAT CATATCACCA
    CTGTTGGCAG GATTTTATAT GTTTTGGACC ATGATCATTT TGTTACAGGT CTTGATTCCT
    ATTTCTCTCT ATGTTTCCAT CGAAATTGTG AAGCTTGGAC AAATATATTT CATTCAAAGT
    GATGTGGATT TCTACAATGA AAAAATGGAT TCTATTGTTC AGTGCCGAGC CCTGAACATC
    GCCGAGGATC TGGGACAGAT TCAGTACCTC TTTTCCGATA AGACAGGAAC CCTCACTGAG
    AATAAGATGG TTTTTCGAAG ATGTAGTGTG GCAGGATTTG ATTACTGCCA TGAAGAAAAT
    GCCAGGAGGT TGGAGTCCTA TCAGGAAGCT GTCTCTGAAG ATGAAGATTT TATAGACACA
    GTCAGTGGTT CCCTCAGCAA TATGGCAAAA CCGAGAGCCC CCAGCTGCAG GACAGTTCAT
    AATGGGCCTT TGGGAAATAA GCCCTCAAAT CATCTTGCTG GGAGCTCTTT TACTCTAGGA
    AGTGGAGAAG GAGCCAGTGA AGTGCCTCAT TCCAGACAGG CTGCTTTCAG TAGCCCCATT
    GAAACAGACG TGGTACCAGA CACCAGGCTT TTAGACAAAT TTAGTCAGAT TACACCTCGG
    CTCTTTATGC CACTAGATGA GACCATCCAA AATCCACCAA TGGAAACTTT GTACATTATC
    GACTTTTTCA TTGCATTGGC AATTTGCAAC ACAGTAGTGG TTTCTGCTCC TAACCAACCC
    CGACAAAAGA TCAGACACCC TTCACTGGGG GGGTTGCCCA TTAAGTCTTT GGAAGAGATT
    AAAAGTCTTT TCCAGAGATG GTCTGTCCGA AGATCAAGTT CTCCATCGCT TAACAGTGGG
    AAAGAGCCAT CTTCTGGAGT TCCAAACGCC TTTGTGAGCA GACTCCCTCT CTTTAGTCGA
    ATGAAACCAG CTTCACCTGT GGAGGAAGAG GTCTCCCAGG TGTGTGAGAG CCCCCAGTGC
    TCCAGTAGCT CAGCTTGCTG CACAGAAACA GAGAAACAAC ACGGTGATGC AGGCCTCCTG
    AATGGCAAGG CAGAGTCCCT CCCTGGACAG CCATTGGCCT GCAACCTGTG TTATGAGGCC
    GAGAGCCCAG ACGAAGCGGC CTTAGTGTAT GCCGCCAGGG CTTACCAATG CACTTTACGG
    TCTCGGACAC CAGAGCAGGT CATGGTGGAC TTTGCTGCTT TGGGACCATT AACATTTCAA
    CTCCTACACA TCCTGCCCTT TGACTCAGTA AGAAAAAGAA TGTCTGTTGT GGTCCGACAC
    CCTCTTTCCA ATCAAGTTGT GGTGTATACG AAAGGCGCTG ATTCTGTGAT CATGGAGTTA
    CTGTCGGTGG CTTCCCCAGA TGGAGCAAGT CTGGAGAAAC AACAGATGAT AGTAAGGGAG
    AAAACCCAGA AGCACTTGGA TGACTATGCC AAACAAGGCC TTCGTACTTT ATGTATAGCA
    AAGAAGGTCA TGAGTGACAC TGAATATGCA GAGTGGCTGA GGAATCATTT TTTAGCTGAA
    ACCAGCATTG ACAACAGGGA AGAATTACTA CTTGAATCTG CCATGAGGTT GGAGAACAAA
    CTTACATTAC TTGGTGCTAC TGGCATTGAA GACCGTCTGC AGGAGGGAGT CCCTGAATCT
    ATAGAAGCTC TTCACAAAGC GGGCATCAAG ATCTGGATGC TGACAGGGGA CAAGCAGGAG
    ACAGCTGTCA ACATAGCTTA TGCATGCAAA CTACTGGAGC CAGATGACAA GCTTTTTATC
    CTCAATACCC AAAGTAAAGA TGCCTGTGGG ATGCTGATGA GCACAATTTT GAAAGAACTT
    CAGAAGAAAA CTCAAGCCCT GCCAGAGCAA GTGTCATTAA GTGAAGATTT ACTTCAGCCT
    CCTGTCCCCC GGGACTCAGG GTTACGAGCT GGACTCATTA TCACTGGGAA GACCCTGGAG
    TTTGCCCTGC AAGAAAGTCT GCAAAAGCAG TTCCTGGAAC TGACATCTTG GTGTCAAGCT
    GTGGTCTGCT GCCGAGCCAC ACCGCTGCAG AAAAGTGAAG TGGTGAAATT GGTCCGCAGC
    CATCTCCAGG TGATGACCCT TGCTATTGGT GATGGTGCCA ATGATGTTAG CATGATACAA
    GTGGCAGACA TTGGGATAGG GGTCTCAGGT CAAGAAGGCA TGCAGGCTGT GATGGCCAGT
    GACTTTGCCG TTTCTCAGTT CAAACATCTC AGCAAGCTCC TTCTTGTCCA TGGACACTGG
    TGTTATACAC GGCTTTCCAA CATGATTCTC TATTTTTTCT ATAAGAATGT GGCCTATGTG
    AACCTCCTTT TCTGGTACCA GTTCTTTTGT GGATTTTCAG GAACATCCAT GACTGATTAC
    TGGGTTTTGA TCTTCTTCAA CCTCCTCTTC ACATCTGCCC CTCCTGTCAT TTATGGTGTT
    TTGGAGAAAG ATGTGTCTGC AGAGACCCTC ATGCAACTGC CTGAACTTTA CAGAAGTGGT
    CAGAAATCAG AGGCATACTT ACCCCATACC TTCTGGATCA CCTTATTGGA TGCTTTTTAT
    CAAAGCCTGG TCTGCTTCTT TGTGCCTTAT TTTACCTACC AGGGCTCAGA TACTGACATC
    TTTGCATTTG GAAACCCCCT GAACACAGCC GCTCTGTTCA TCGTTCTCCT CCATCTGGTC
    ATTGAAAGCA AGAGTTTGAC TTGGATTCAC TTGCTGGTCA TCATTGGTAG CATCTTGTCT
    TATTTTTTAT TTGCCATAGT TTTTGGAGCC ATGTGTGTAA CTTGCAACCC ACCATCCAAC
    CCTTACTGGA TTATGCAGGA GCACATGCTG GATCCAGTAT TCTACTTAGT TTGTATCCTC
    ACGACGTCCA TTGCTCTTCT GCCCAGGTTT GTATACAGAG TTCTTCAGGG ATCCCTGTTT
    CCATCTCCAA TTCTGAGAGC TAAGCACTTT GACAGACTAA CTCCAGAGGA GAGGACTAAA
    GCTCTCAAGA AGTGGAGAGG GGCTGGAAAG ATGAATCAAG TGACATCAAA GTATGCTAAC
    CAATCAGCTG GCAAGTCAGG AAGAAGACCC ATGCCTGGCC CTTCTGCTGT ATTTGCAATG
    AAGTCAGCAA GTTCCTGTGC TATTGAGCAA GGAAACTTAT CTCTGTGTGA AACTGCTTTA
    GATCAAGGCT ACTCTGAAAC TAAGGCCTTT GAGATGGCTG GACCCTCCAA AGGTAAAGAA
    AGCTAG

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

    RefSeq XP_011512024.1
    CDS296..4381
    Translation

    Target ORF information:

    RefSeq Version XM_011513722.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011513722.2

    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
    ATGACTGAGG CTCTCCAATG GGCCAGATAT CACTGGCGAC GGCTGATCAG AGGTGCAACC 
    AGGGATGATG ATTCAGGGCC ATACAACTAT TCCTCGTTGC TCGCCTGTGG GCGCAAGTCC
    TCTCAGACCC CTAAACTGTC AGGAAGGCAC CGGATTGTTG TTCCCCACAT CCAGCCCTTC
    AAGGATGAGT ATGAGAAGTT CTCCGGAGCC TATGTGAACA ATCGAATACG AACAACAAAG
    TACACACTTC TGAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG GAAAGAGAAA
    AAATACATTG ACCGATGCTG GAAAGACGTT ACTGTTGGGG ACTTTATTCG CCTCTCCTGC
    AACGAGGTCA TCCCTGCAGA CATGGTACTA CTCTTTTCCA CTGATCCAGA TGGAATCTGT
    CACATTGAGA CTTCTGGTCT TGATGGAGAG AGCAATTTAA AACAGAGGCA GGTGGTTCGG
    GGATATGCAG AACAGGACTC TGAAGTTGAT CCTGAGAAGT TTTCCAGTAG GATAGAATGT
    GAAAGCCCAA ACAATGACCT CAGCAGATTC CGAGGCTTCC TAGAACATTC CAACAAAGAA
    CGCGTGGGTC TCAGTAAAGA AAATTTGTTG CTTAGAGGAT GCACCATTAG AAACACAGAG
    GCTGTTGTGG GCATTGTGGT TTATGCAGGC CATGAAACCA AAGCAATGCT GAACAACAGT
    GGGCCACGGT ATAAGCGCAG CAAATTAGAA AGAAGAGCAA ACACAGATGT CCTCTGGTGT
    GTCATGCTTC TGGTCATAAT GTGCTTAACT GGCGCAGTAG GTCATGGAAT CTGGCTGAGC
    AGGTATGAAA AGATGCATTT TTTCAATGTT CCCGAGCCTG ATGGACATAT CATATCACCA
    CTGTTGGCAG GATTTTATAT GTTTTGGACC ATGATCATTT TGTTACAGGT CTTGATTCCT
    ATTTCTCTCT ATGTTTCCAT CGAAATTGTG AAGCTTGGAC AAATATATTT CATTCAAAGT
    GATGTGGATT TCTACAATGA AAAAATGGAT TCTATTGTTC AGTGCCGAGC CCTGAACATC
    GCCGAGGATC TGGGACAGAT TCAGTACCTC TTTTCCGATA AGACAGGAAC CCTCACTGAG
    AATAAGATGG TTTTTCGAAG ATGTAGTGTG GCAGGATTTG ATTACTGCCA TGAAGAAAAT
    GCCAGGAGGT TGGAGTCCTA TCAGGAAGCT GTCTCTGAAG ATGAAGATTT TATAGACACA
    GTCAGTGGTT CCCTCAGCAA TATGGCAAAA CCGAGAGCCC CCAGCTGCAG GACAGTTCAT
    AATGGGCCTT TGGGAAATAA GCCCTCAAAT CATCTTGCTG GGAGCTCTTT TACTCTAGGA
    AGTGGAGAAG GAGCCAGTGA AGTGCCTCAT TCCAGACAGG CTGCTTTCAG TAGCCCCATT
    GAAACAGACG TGGTACCAGA CACCAGGCTT TTAGACAAAT TTAGTCAGAT TACACCTCGG
    CTCTTTATGC CACTAGATGA GACCATCCAA AATCCACCAA TGGAAACTTT GTACATTATC
    GACTTTTTCA TTGCATTGGC AATTTGCAAC ACAGTAGTGG TTTCTGCTCC TAACCAACCC
    CGACAAAAGA TCAGACACCC TTCACTGGGG GGGTTGCCCA TTAAGTCTTT GGAAGAGATT
    AAAAGTCTTT TCCAGAGATG GTCTGTCCGA AGATCAAGTT CTCCATCGCT TAACAGTGGG
    AAAGAGCCAT CTTCTGGAGT TCCAAACGCC TTTGTGAGCA GACTCCCTCT CTTTAGTCGA
    ATGAAACCAG CTTCACCTGT GGAGGAAGAG GTCTCCCAGG TGTGTGAGAG CCCCCAGTGC
    TCCAGTAGCT CAGCTTGCTG CACAGAAACA GAGAAACAAC ACGGTGATGC AGGCCTCCTG
    AATGGCAAGG CAGAGTCCCT CCCTGGACAG CCATTGGCCT GCAACCTGTG TTATGAGGCC
    GAGAGCCCAG ACGAAGCGGC CTTAGTGTAT GCCGCCAGGG CTTACCAATG CACTTTACGG
    TCTCGGACAC CAGAGCAGGT CATGGTGGAC TTTGCTGCTT TGGGACCATT AACATTTCAA
    CTCCTACACA TCCTGCCCTT TGACTCAGTA AGAAAAAGAA TGTCTGTTGT GGTCCGACAC
    CCTCTTTCCA ATCAAGTTGT GGTGTATACG AAAGGCGCTG ATTCTGTGAT CATGGAGTTA
    CTGTCGGTGG CTTCCCCAGA TGGAGCAAGT CTGGAGAAAC AACAGATGAT AGTAAGGGAG
    AAAACCCAGA AGCACTTGGA TGACTATGCC AAACAAGGCC TTCGTACTTT ATGTATAGCA
    AAGAAGGTCA TGAGTGACAC TGAATATGCA GAGTGGCTGA GGAATCATTT TTTAGCTGAA
    ACCAGCATTG ACAACAGGGA AGAATTACTA CTTGAATCTG CCATGAGGTT GGAGAACAAA
    CTTACATTAC TTGGTGCTAC TGGCATTGAA GACCGTCTGC AGGAGGGAGT CCCTGAATCT
    ATAGAAGCTC TTCACAAAGC GGGCATCAAG ATCTGGATGC TGACAGGGGA CAAGCAGGAG
    ACAGCTGTCA ACATAGCTTA TGCATGCAAA CTACTGGAGC CAGATGACAA GCTTTTTATC
    CTCAATACCC AAAGTAAAGA TGCCTGTGGG ATGCTGATGA GCACAATTTT GAAAGAACTT
    CAGAAGAAAA CTCAAGCCCT GCCAGAGCAA GTGTCATTAA GTGAAGATTT ACTTCAGCCT
    CCTGTCCCCC GGGACTCAGG GTTACGAGCT GGACTCATTA TCACTGGGAA GACCCTGGAG
    TTTGCCCTGC AAGAAAGTCT GCAAAAGCAG TTCCTGGAAC TGACATCTTG GTGTCAAGCT
    GTGGTCTGCT GCCGAGCCAC ACCGCTGCAG AAAAGTGAAG TGGTGAAATT GGTCCGCAGC
    CATCTCCAGG TGATGACCCT TGCTATTGGT GATGGTGCCA ATGATGTTAG CATGATACAA
    GTGGCAGACA TTGGGATAGG GGTCTCAGGT CAAGAAGGCA TGCAGGCTGT GATGGCCAGT
    GACTTTGCCG TTTCTCAGTT CAAACATCTC AGCAAGCTCC TTCTTGTCCA TGGACACTGG
    TGTTATACAC GGCTTTCCAA CATGATTCTC TATTTTTTCT ATAAGAATGT GGCCTATGTG
    AACCTCCTTT TCTGGTACCA GTTCTTTTGT GGATTTTCAG GAACATCCAT GACTGATTAC
    TGGGTTTTGA TCTTCTTCAA CCTCCTCTTC ACATCTGCCC CTCCTGTCAT TTATGGTGTT
    TTGGAGAAAG ATGTGTCTGC AGAGACCCTC ATGCAACTGC CTGAACTTTA CAGAAGTGGT
    CAGAAATCAG AGGCATACTT ACCCCATACC TTCTGGATCA CCTTATTGGA TGCTTTTTAT
    CAAAGCCTGG TCTGCTTCTT TGTGCCTTAT TTTACCTACC AGGGCTCAGA TACTGACATC
    TTTGCATTTG GAAACCCCCT GAACACAGCC GCTCTGTTCA TCGTTCTCCT CCATCTGGTC
    ATTGAAAGCA AGAGTTTGAC TTGGATTCAC TTGCTGGTCA TCATTGGTAG CATCTTGTCT
    TATTTTTTAT TTGCCATAGT TTTTGGAGCC ATGTGTGTAA CTTGCAACCC ACCATCCAAC
    CCTTACTGGA TTATGCAGGA GCACATGCTG GATCCAGTAT TCTACTTAGT TTGTATCCTC
    ACGACGTCCA TTGCTCTTCT GCCCAGGTTT GTATACAGAG TTCTTCAGGG ATCCCTGTTT
    CCATCTCCAA TTCTGAGAGC TAAGCACTTT GACAGACTAA CTCCAGAGGA GAGGACTAAA
    GCTCTCAAGA AGTGGAGAGG GGCTGGAAAG ATGAATCAAG TGACATCAAA GTATGCTAAC
    CAATCAGCTG GCAAGTCAGG AAGAAGACCC ATGCCTGGCC CTTCTGCTGT ATTTGCAATG
    AAGTCAGCAA GTTCCTGTGC TATTGAGCAA GGAAACTTAT CTCTGTGTGA AACTGCTTTA
    GATCAAGGCT ACTCTGAAAC TAAGGCCTTT GAGATGGCTG GACCCTCCAA AGGTAAAGAA
    AGCTAG

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