ATP10D cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	ATP10D
Entrez Gene ID	57205
Full Name	ATPase phospholipid transporting 10D (putative)
Synonyms	ATPVD
General protein information	Preferred Names ATPase phospholipid transporting 10D (putative) Names probable phospholipid-transporting ATPase VD ATPase, class V, type 10D P4-ATPase flippase complex alpha subunit ATP10D type IV aminophospholipid transporting ATPase
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 4 Map Location: 4p12

mRNA and Protein(s)

mRNA	Protein	Name
NM_020453.4	NP_065186.3	probable phospholipid-transporting ATPase VD
XM_011513722.2	XP_011512024.1	probable phospholipid-transporting ATPase VD isoform X3
NM_020453.3	NP_065186.3	probable phospholipid-transporting ATPase VD
XM_005248119.4	XP_005248176.1	probable phospholipid-transporting ATPase VD isoform X1
XM_005248120.4	XP_005248177.1	probable phospholipid-transporting ATPase VD isoform X2
XM_017008472.1	XP_016863961.1	probable phospholipid-transporting ATPase VD isoform X4

Pathways from BioSystems

Homologies

Homo sapiens (human)	ATP10D	NP_065186.3
Rattus norvegicus (Norway rat)	Atp10d	XP_006250995.1
Danio rerio (zebrafish)	atp10d	NP_001139079.1
Caenorhabditis elegans (roundworm)	tat-3	NP_499363.3
Pan troglodytes (chimpanzee)	ATP10D	XP_001154096.1
Drosophila melanogaster (fruit fly)	CG33298	NP_001162919.1
Schizosaccharomyces pombe (fission yeast)	SPAC4F10.16c	NP_594759.1
	ATP10D	XP_001101879.1
Canis lupus familiaris (dog)	ATP10D	XP_005628221.1
Bos taurus (cattle)	ATP10D	NP_001099098.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP010026	XP_319174.4
Gallus gallus (chicken)	ATP10D	XP_420722.4

Gene Ontology
Bibliography

Related articles in PubMed

A gene variant in the Atp10d gene associates with atherosclerotic indices in Japanese elderly population.
Kengia JT, Ko KC, Ikeda S, Hiraishi A, Mieno-Naka M, Arai T, Sato N, Muramatsu M, Sawabe M
Atherosclerosis231(1)158-62(2013 Nov)

Genome-wide association study identifies novel loci associated with circulating phospho- and sphingolipid concentrations.
Demirkan A, van Duijn CM, Ugocsai P, Isaacs A, Pramstaller PP, Liebisch G, Wilson JF, Johansson ?, Rudan I, Aulchenko YS, Kirichenko AV, Janssens AC, Jansen RC, Gnewuch C, Domingues FS, Pattaro C, Wild SH, Jonasson I, Polasek O, Zorkoltseva IV, Hofman A, Karssen LC, Struchalin M, Floyd J, Igl W, Biloglav Z, Broer L, Pfeufer A, Pichler I, Campbell S, Zaboli G, Kolcic I, Rivadeneira F, Huffman J, Hastie ND, Uitterlinden A, Franke L, Franklin CS, Vitart V, , Nelson CP, Preuss M, , Bis JC, O'Donnell CJ, Franceschini N, , Witteman JC, Axenovich T, Oostra BA, Meitinger T, Hicks AA, Hayward C, Wright AF, Gyllensten U, Campbell H, Schmitz G,
PLoS genetics8(2)e1002490(2012)

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

Genetic variants in nuclear-encoded mitochondrial genes influence AIDS progression.
Hendrickson SL, Lautenberger JA, Chinn LW, Malasky M, Sezgin E, Kingsley LA, Goedert JJ, Kirk GD, Gomperts ED, Buchbinder SP, Troyer JL, O'Brien SJ
PloS one5(9)e12862(2010 Sep)

Genetic determinants of circulating sphingolipid concentrations in European populations.
Hicks AA, Pramstaller PP, Johansson A, Vitart V, Rudan I, Ugocsai P, Aulchenko Y, Franklin CS, Liebisch G, Erdmann J, Jonasson I, Zorkoltseva IV, Pattaro C, Hayward C, Isaacs A, Hengstenberg C, Campbell S, Gnewuch C, Janssens AC, Kirichenko AV, K?nig IR, Marroni F, Polasek O, Demirkan A, Kolcic I, Schwienbacher C, Igl W, Biloglav Z, Witteman JC, Pichler I, Zaboli G, Axenovich TI, Peters A, Schreiber S, Wichmann HE, Schunkert H, Hastie N, Oostra BA, Wild SH, Meitinger T, Gyllensten U, van Duijn CM, Wilson JF, Wright A, Schmitz G, Campbell H
PLoS genetics5(10)e1000672(2009 Oct)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The rs2351791 SNP in the Atp10d gene affects the susceptibility for cardiac and intracranial vascular stenosis in the elderly Japanese population.
Title: A gene variant in the Atp10d gene associates with atherosclerotic indices in Japanese elderly population.

Observational study of gene-disease association. (HuGE Navigator)
Title: Genetic variants in nuclear-encoded mitochondrial genes influence AIDS progression.

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

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)
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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***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

ATP10D ( XM_017008472.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016863961.1 Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X6, mRNA.

Price & Availability↑

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##

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
CDS	1861..4665
Translation	MAKPRAPSCRTVHNGPLGNKPSNHLAGSSFTLGSGEGASEVPHSRQAAFSSPIETDVVPDTRLLDKFSQITPRLFMPLDETIQNPPMETLYIIDFFIALAICNTVVVSAPNQPRQKIRHPSLGGLPIKSLEEIKSLFQRWSVRRSSSPSLNSGKEPSSGVPNAFVSRLPLFSRMKPASPVEEEVSQVCESPQCSSSSACCTETEKQHGDAGLLNGKAESLPGQPLACNLCYEAESPDEAALVYAARAYQCTLRSRTPEQVMVDFAALGPLTFQLLHILPFDSVRKRMSVVVRHPLSNQVVVYTKGADSVIMELLSVASPDGASLEKQQMIVREKTQKHLDDYAKQGLRTLCIAKKVMSDTEYAEWLRNHFLAETSIDNREELLLESAMRLENKLTLLGATGIEDRLQEGVPESIEALHKAGIKIWMLTGDKQETAVNIAYACKLLEPDDKLFILNTQSKDACGMLMSTILKELQKKTQALPEQVSLSEDLLQPPVPRDSGLRAGLIITGKTLEFALQESLQKQFLELTSWCQAVVCCRATPLQKSEVVKLVRSHLQVMTLAIGDGANDVSMIQVADIGIGVSGQEGMQAVMASDFAVSQFKHLSKLLLVHGHWCYTRLSNMILYFFYKNVAYVNLLFWYQFFCGFSGTSMTDYWVLIFFNLLFTSAPPVIYGVLEKDVSAETLMQLPELYRSGQKSEAYLPHTFWITLLDAFYQSLVCFFVPYFTYQGSDTDIFAFGNPLNTAALFIVLLHLVIESKSLTWIHLLVIIGSILSYFLFAIVFGAMCVTCNPPSNPYWIMQEHMLDPVFYLVCILTTSIALLPRFVYRVLQGSLFPSPILRAKHFDRLTPEERTKALKKWRGAGKMNQVTSKYANQSAGKSGRRPMPGPSAVFAMKSASSCAIEQGNLSLCETALDQGYSETKAFEMAGPSKGKES

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	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_017008472.1

ORF Insert Sequence:

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.

ATP10D ( NM_020453.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_065186.3 Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), mRNA.

Price & Availability↑

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.

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
CDS	283..4563
Translation	MTEALQWARYHWRRLIRGATRDDDSGPYNYSSLLACGRKSSQTPKLSGRHRIVVPHIQPFKDEYEKFSGAYVNNRIRTTKYTLLNFVPRNLFEQFHRAANLYFLFLVVLNWVPLVEAFQKEITMLPLVVVLTIIAIKDGLEDYRKYKIDKQINNLITKVYSRKEKKYIDRCWKDVTVGDFIRLSCNEVIPADMVLLFSTDPDGICHIETSGLDGESNLKQRQVVRGYAEQDSEVDPEKFSSRIECESPNNDLSRFRGFLEHSNKERVGLSKENLLLRGCTIRNTEAVVGIVVYAGHETKAMLNNSGPRYKRSKLERRANTDVLWCVMLLVIMCLTGAVGHGIWLSRYEKMHFFNVPEPDGHIISPLLAGFYMFWTMIILLQVLIPISLYVSIEIVKLGQIYFIQSDVDFYNEKMDSIVQCRALNIAEDLGQIQYLFSDKTGTLTENKMVFRRCSVAGFDYCHEENARRLESYQEAVSEDEDFIDTVSGSLSNMAKPRAPSCRTVHNGPLGNKPSNHLAGSSFTLGSGEGASEVPHSRQAAFSSPIETDVVPDTRLLDKFSQITPRLFMPLDETIQNPPMETLYIIDFFIALAICNTVVVSAPNQPRQKIRHPSLGGLPIKSLEEIKSLFQRWSVRRSSSPSLNSGKEPSSGVPNAFVSRLPLFSRMKPASPVEEEVSQVCESPQCSSSSACCTETEKQHGDAGLLNGKAESLPGQPLACNLCYEAESPDEAALVYAARAYQCTLRSRTPEQVMVDFAALGPLTFQLLHILPFDSVRKRMSVVVRHPLSNQVVVYTKGADSVIMELLSVASPDGASLEKQQMIVREKTQKHLDDYAKQGLRTLCIAKKVMSDTEYAEWLRNHFLAETSIDNREELLLESAMRLENKLTLLGATGIEDRLQEGVPESIEALHKAGIKIWMLTGDKQETAVNIAYACKLLEPDDKLFILNTQSKDACGMLMSTILKELQKKTQALPEQVSLSEDLLQPPVPRDSGLRAGLIITGKTLEFALQESLQKQFLELTSWCQAVVCCRATPLQKSEVVKLVRSHLQVMTLAIGDGANDVSMIQVADIGIGVSGQEGMQAVMASDFAVSQFKHLSKLLLVHGHWCYTRLSNMILYFFYKNVAYVNLLFWYQFFCGFSGTSMTDYWVLIFFNLLFTSAPPVIYGVLEKDVSAETLMQLPELYRSGQKSEAYLPHTFWITLLDAFYQSLVCFFVPYFTYQGSDTDIFAFGNPLNTAALFIVLLHLVIESKSLTWIHLLVIIGSILSYFLFAIVFGAMCVTCNPPSNPYWIMQEHMLDPVFYLVCILTTSIALLPRFVYRVLQGSLFPSPILRAKHFDRLTPEERTKALKKWRGAGKMNQVTSKYANQSAGKSGRRPMPGPSAVFAMKSASSCAIEQGNLSLCETALDQGYSETKAFEMAGPSKGKES

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	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_020453.4

ORF Insert Sequence:

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.

ATP10D ( NM_020453.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_065186.3 Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), mRNA.

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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.

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
CDS	165..4445
Translation	MTEALQWARYHWRRLIRGATRDDDSGPYNYSSLLACGRKSSQTPKLSGRHRIVVPHIQPFKDEYEKFSGAYVNNRIRTTKYTLLNFVPRNLFEQFHRAANLYFLFLVVLNWVPLVEAFQKEITMLPLVVVLTIIAIKDGLEDYRKYKIDKQINNLITKVYSRKEKKYIDRCWKDVTVGDFIRLSCNEVIPADMVLLFSTDPDGICHIETSGLDGESNLKQRQVVRGYAEQDSEVDPEKFSSRIECESPNNDLSRFRGFLEHSNKERVGLSKENLLLRGCTIRNTEAVVGIVVYAGHETKAMLNNSGPRYKRSKLERRANTDVLWCVMLLVIMCLTGAVGHGIWLSRYEKMHFFNVPEPDGHIISPLLAGFYMFWTMIILLQVLIPISLYVSIEIVKLGQIYFIQSDVDFYNEKMDSIVQCRALNIAEDLGQIQYLFSDKTGTLTENKMVFRRCSVAGFDYCHEENARRLESYQEAVSEDEDFIDTVSGSLSNMAKPRAPSCRTVHNGPLGNKPSNHLAGSSFTLGSGEGASEVPHSRQAAFSSPIETDVVPDTRLLDKFSQITPRLFMPLDETIQNPPMETLYIIDFFIALAICNTVVVSAPNQPRQKIRHPSLGGLPIKSLEEIKSLFQRWSVRRSSSPSLNSGKEPSSGVPNAFVSRLPLFSRMKPASPVEEEVSQVCESPQCSSSSACCTETEKQHGDAGLLNGKAESLPGQPLACNLCYEAESPDEAALVYAARAYQCTLRSRTPEQVMVDFAALGPLTFQLLHILPFDSVRKRMSVVVRHPLSNQVVVYTKGADSVIMELLSVASPDGASLEKQQMIVREKTQKHLDDYAKQGLRTLCIAKKVMSDTEYAEWLRNHFLAETSIDNREELLLESAMRLENKLTLLGATGIEDRLQEGVPESIEALHKAGIKIWMLTGDKQETAVNIAYACKLLEPDDKLFILNTQSKDACGMLMSTILKELQKKTQALPEQVSLSEDLLQPPVPRDSGLRAGLIITGKTLEFALQESLQKQFLELTSWCQAVVCCRATPLQKSEVVKLVRSHLQVMTLAIGDGANDVSMIQVADIGIGVSGQEGMQAVMASDFAVSQFKHLSKLLLVHGHWCYTRLSNMILYFFYKNVAYVNLLFWYQFFCGFSGTSMTDYWVLIFFNLLFTSAPPVIYGVLEKDVSAETLMQLPELYRSGQKSEAYLPHTFWITLLDAFYQSLVCFFVPYFTYQGSDTDIFAFGNPLNTAALFIVLLHLVIESKSLTWIHLLVIIGSILSYFLFAIVFGAMCVTCNPPSNPYWIMQEHMLDPVFYLVCILTTSIALLPRFVYRVLQGSLFPSPILRAKHFDRLTPEERTKALKKWRGAGKMNQVTSKYANQSAGKSGRRPMPGPSAVFAMKSASSCAIEQGNLSLCETALDQGYSETKAFEMAGPSKGKES

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	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_020453.3

ORF Insert Sequence:

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.

ATP10D ( XM_005248119.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_005248176.1 Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA.

Price & Availability↑

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##

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
CDS	296..4531
Translation	MTEALQWARYHWRRLIRGATRDDDSGPYNYSSLLACGRKSSQTPKLSGRHRIVVPHIQPFKDEYEKFSGAYVNNRIRTTKYTLLNFVPRNLFEQFHRAANLYFLFLVVLNWVPLVEAFQKEITMLPLVVVLTIIAIKDGLEDYRKYKIDKQINNLITKVYSRKEKKYIDRCWKDVTVGDFIRLSCNEVIPADMVLLFSTDPDGICHIETSGLDGESNLKQRQVVRGYAEQDSEVDPEKFSSRIECESPNNDLSRFRGFLEHSNKERVGLSKENLLLRGCTIRNTEAVVGIVVYAGHETKAMLNNSGPRYKRSKLERRANTDVLWCVMLLVIMCLTGAVGHGIWLSRYEKMHFFNVPEPDGHIISPLLAGFYMFWTMIILLQLGQIYFIQSDVDFYNEKMDSIVQCRALNIAEDLGQIQYLFSDKTGTLTENKMVFRRCSVAGFDYCHEENARRLESYQEAVSEDEDFIDTVSGSLSNMAKPRAPSCRTVHNGPLGNKPSNHLAGSSFTLGSGEGASEVPHSRQAAFSSPIETDVVPDTRLLDKFSQITPRLFMPLDETIQNPPMETLYIIDFFIALAICNTVVVSAPNQPRQKIRHPSLGGLPIKSLEEIKSLFQRWSVRRSSSPSLNSGKEPSSGVPNAFVSRLPLFSRMKPASPVEEEVSQVCESPQCSSSSACCTETEKQHGDAGLLNGKAESLPGQPLACNLCYEAESPDEAALVYAARAYQCTLRSRTPEQVMVDFAALGPLTFQLLHILPFDSVRKRMSVVVRHPLSNQVVVYTKGADSVIMELLSVASPDGASLEKQQMIVREKTQKHLDDYAKQGLRTLCIAKKVMSDTEYAEWLRNHFLAETSIDNREELLLESAMRLENKLTLLGATGIEDRLQEGVPESIEALHKAGIKIWMLTGDKQETAVNIAYACKLLEPDDKLFILNTQSKDACGMLMSTILKELQKKTQALPEQVSLSEDLLQPPVPRDSGLRAGLIITGKTLEFALQESLQKQFLELTSWCQAVVCCRATPLQKSEVVKLVRSHLQVMTLAIGDGANDVSMIQVADIGIGVSGQEGMQAVMASDFAVSQFKHLSKLLLVHGHWCYTRLSNMILYFFYKNVAYVNLLFWYQFFCGFSGTSMTDYWVLIFFNLLFTSAPPVIYGVLEKDVSAETLMQLPELYRSGQKSEAYLPHTFWITLLDAFYQSLVCFFVPYFTYQGSDTDIFAFGNPLNTAALFIVLLHLVIESKSLTWIHLLVIIGSILSYFLFAIVFGAMCVTCNPPSNPYWIMQEHMLDPVFYLVCILTTSIALLPRFVYRVLQGSLFPSPILRAKHFDRLTPEERTKALKKWRGAGKMNQVTSKYANQSAGKSGRRPMPGPSAVFAMKSASSCAIEQGNLSLCETALDQGYSETKAFEMAGPSKGKES

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	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_005248119.4

ORF Insert Sequence:

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.

ATP10D ( XM_005248120.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_005248177.1 Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X2, mRNA.

Price & Availability↑

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##

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
CDS	283..4482
Translation	MTEALQWARYHWRRLIRGATRDDDSGPYNYSSLLACGRKSSQTPKLSGRHRIVVPHIQPFKDEYEKFSGAYVNNRIRTTKYTLLNFVPRNLFEQFHRAANLYFLFLVVLNWVPLVEAFQKEITMLPLVVVLTIIAIKDGLEDYRKYKIDKQINNLITKVYSRKEKKYIDRCWKDVTVGDFIRLSCNEVIPADMVLLFSTDPDGICHIETSGLDGESNLKQRQVVRGYAEQDSEVDPEKFSSRIECESPNNDLSRFRGFLEHSNKERVGLSKENLLLRGCTIRNTEAVVGIVVYAGHETKAMLNNSGPRYKRSKLERRANTDVLWCVMLLVIMCLTGAVGHGIWLSRYEKMHFFNVPEPDGHIISPLLAGFYMFWTMIILLQVLIPISLYVSIEIVKLGQIYFIQSDVDFYNEKMDSIVQCRALNIAEDLGQIQYLFSDKTGTLTENKMVFRRCSVAGFDYCHEENARRLESYQEAVSEDEDFIDTVSGSLSNMAKPRAPSCRTVHNGPLGNKPSNHLAGSSFTLGSGEGASEVPHSRQAAFSSPIETDVVPDTRLLDKFSQITPRLFMPLDETIQNPPMETLYIIDFFIALAICNTVVVSAPNQPRQKIRHPSLGGLPIKSLEEIKSLFQRWSVRRSSSPSLNSGKEPSSGVPNAFVSRLPLFSRMKPASPVEEEVSQVCESPQCSSSSACCTETEKQHGDAGLLNGKAESLPGQPLACNLCYEAESPDEAALVYAARAYQCTLRSRTPEQVMVDFAALGPLTFQLLHILPFDSVRKRMSVVVRHPLSNQVVVYTKGADSVIMELLSVASPDGASLEKQQMIVREKTQKHLDDYAKQGLRTLCIAKKVMSDTEYAEWLRNHFLAETSIDNREELLLESAMRLENKLTLLGATGIEDRLQEGVPESIEALHKAGIKIWMLTGDKQETAVNIAYACKLLEPDDKLFILNTQSKDACGMLMSTILKELQKKTQALPEQVSLSEDLLQPPVPRDSGLRAGLIITGKTLEFALQESLQKQFLELTSWCQAVVCCRATPLQKSEVVKLVRSHLQVMTLAIGDGANDVSMIQVADIGIGVSGQEGMQAVMASDFAVSQFKHLSKLLLVHGHWCYTRLSNMILYFFYKNVAYVNLLFWYQFFCGFSGTSMTDYWVLIFFNLLFTSAPPVIYGVLEKDVSAETLMQLPELYRSGQKSETYQGSDTDIFAFGNPLNTAALFIVLLHLVIESKSLTWIHLLVIIGSILSYFLFAIVFGAMCVTCNPPSNPYWIMQEHMLDPVFYLVCILTTSIALLPRFVYRVLQGSLFPSPILRAKHFDRLTPEERTKALKKWRGAGKMNQVTSKYANQSAGKSGRRPMPGPSAVFAMKSASSCAIEQGNLSLCETALDQGYSETKAFEMAGPSKGKES

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	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_005248120.4

ORF Insert Sequence:

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.

ATP10D ( XM_011513722.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011512024.1 Homo sapiens ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X3, mRNA.

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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##

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
CDS	296..4381
Translation	MTEALQWARYHWRRLIRGATRDDDSGPYNYSSLLACGRKSSQTPKLSGRHRIVVPHIQPFKDEYEKFSGAYVNNRIRTTKYTLLNFVPRNLFEQFHRKEKKYIDRCWKDVTVGDFIRLSCNEVIPADMVLLFSTDPDGICHIETSGLDGESNLKQRQVVRGYAEQDSEVDPEKFSSRIECESPNNDLSRFRGFLEHSNKERVGLSKENLLLRGCTIRNTEAVVGIVVYAGHETKAMLNNSGPRYKRSKLERRANTDVLWCVMLLVIMCLTGAVGHGIWLSRYEKMHFFNVPEPDGHIISPLLAGFYMFWTMIILLQVLIPISLYVSIEIVKLGQIYFIQSDVDFYNEKMDSIVQCRALNIAEDLGQIQYLFSDKTGTLTENKMVFRRCSVAGFDYCHEENARRLESYQEAVSEDEDFIDTVSGSLSNMAKPRAPSCRTVHNGPLGNKPSNHLAGSSFTLGSGEGASEVPHSRQAAFSSPIETDVVPDTRLLDKFSQITPRLFMPLDETIQNPPMETLYIIDFFIALAICNTVVVSAPNQPRQKIRHPSLGGLPIKSLEEIKSLFQRWSVRRSSSPSLNSGKEPSSGVPNAFVSRLPLFSRMKPASPVEEEVSQVCESPQCSSSSACCTETEKQHGDAGLLNGKAESLPGQPLACNLCYEAESPDEAALVYAARAYQCTLRSRTPEQVMVDFAALGPLTFQLLHILPFDSVRKRMSVVVRHPLSNQVVVYTKGADSVIMELLSVASPDGASLEKQQMIVREKTQKHLDDYAKQGLRTLCIAKKVMSDTEYAEWLRNHFLAETSIDNREELLLESAMRLENKLTLLGATGIEDRLQEGVPESIEALHKAGIKIWMLTGDKQETAVNIAYACKLLEPDDKLFILNTQSKDACGMLMSTILKELQKKTQALPEQVSLSEDLLQPPVPRDSGLRAGLIITGKTLEFALQESLQKQFLELTSWCQAVVCCRATPLQKSEVVKLVRSHLQVMTLAIGDGANDVSMIQVADIGIGVSGQEGMQAVMASDFAVSQFKHLSKLLLVHGHWCYTRLSNMILYFFYKNVAYVNLLFWYQFFCGFSGTSMTDYWVLIFFNLLFTSAPPVIYGVLEKDVSAETLMQLPELYRSGQKSEAYLPHTFWITLLDAFYQSLVCFFVPYFTYQGSDTDIFAFGNPLNTAALFIVLLHLVIESKSLTWIHLLVIIGSILSYFLFAIVFGAMCVTCNPPSNPYWIMQEHMLDPVFYLVCILTTSIALLPRFVYRVLQGSLFPSPILRAKHFDRLTPEERTKALKKWRGAGKMNQVTSKYANQSAGKSGRRPMPGPSAVFAMKSASSCAIEQGNLSLCETALDQGYSETKAFEMAGPSKGKES

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	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011513722.2

ORF Insert Sequence:

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.

PubMed

A gene variant in the Atp10d gene associates with atherosclerotic indices in Japanese elderly population.
Atherosclerosis231(1)158-62(2013 Nov)
Kengia JT,Ko KC,Ikeda S,Hiraishi A,Mieno-Naka M,Arai T,Sato N,Muramatsu M,Sawabe M

Genome-wide association study identifies novel loci associated with circulating phospho- and sphingolipid concentrations.
PLoS genetics8(2)e1002490(2012)
Demirkan A,van Duijn CM,Ugocsai P,Isaacs A,Pramstaller PP,Liebisch G,Wilson JF,Johansson ?,Rudan I,Aulchenko YS,Kirichenko AV,Janssens AC,Jansen RC,Gnewuch C,Domingues FS,Pattaro C,Wild SH,Jonasson I,Polasek O,Zorkoltseva IV,Hofman A,Karssen LC,Struchalin M,Floyd J,Igl W,Biloglav Z,Broer L,Pfeufer A,Pichler I,Campbell S,Zaboli G,Kolcic I,Rivadeneira F,Huffman J,Hastie ND,Uitterlinden A,Franke L,Franklin CS,Vitart V,,Nelson CP,Preuss M,,Bis JC,O'Donnell CJ,Franceschini N,,Witteman JC,Axenovich T,Oostra BA,Meitinger T,Hicks AA,Hayward C,Wright AF,Gyllensten U,Campbell H,Schmitz G,

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

Genetic variants in nuclear-encoded mitochondrial genes influence AIDS progression.
PloS one5(9)e12862(2010 Sep)
Hendrickson SL,Lautenberger JA,Chinn LW,Malasky M,Sezgin E,Kingsley LA,Goedert JJ,Kirk GD,Gomperts ED,Buchbinder SP,Troyer JL,O'Brien SJ

Genetic determinants of circulating sphingolipid concentrations in European populations.
PLoS genetics5(10)e1000672(2009 Oct)
Hicks AA,Pramstaller PP,Johansson A,Vitart V,Rudan I,Ugocsai P,Aulchenko Y,Franklin CS,Liebisch G,Erdmann J,Jonasson I,Zorkoltseva IV,Pattaro C,Hayward C,Isaacs A,Hengstenberg C,Campbell S,Gnewuch C,Janssens AC,Kirichenko AV,K?nig IR,Marroni F,Polasek O,Demirkan A,Kolcic I,Schwienbacher C,Igl W,Biloglav Z,Witteman JC,Pichler I,Zaboli G,Axenovich TI,Peters A,Schreiber S,Wichmann HE,Schunkert H,Hastie N,Oostra BA,Wild SH,Meitinger T,Gyllensten U,van Duijn CM,Wilson JF,Wright A,Schmitz G,Campbell H

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ATP10D cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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