ATP10D cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	ATP10D
Entrez Gene ID	100468066
Full Name	ATPase phospholipid transporting 10D (putative)
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002917019.3	XP_002917065.2	probable phospholipid-transporting ATPase VD isoform X1
XM_011222038.2	XP_011220340.1	probable phospholipid-transporting ATPase VD isoform X2

Pathways from BioSystems
Gene Ontology

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
OAc21274	XM_002917019.3 Latest version!	Ailuropoda melanoleuca ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OAc21275	XM_011222038.2 Latest version!	Ailuropoda melanoleuca ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

ATP10D ( XM_002917019.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002917065.2 Ailuropoda melanoleuca ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc21274
Clone ID Related Accession (Same CDS sequence)	XM_002917019.3
Accession Version	XM_002917019.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4272bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
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 (NW_003217458.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002917019.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACTGAGT GTCTACAATG GGCCAGGTAT CACTGGCAAC GGCTGATGGG CGGTAGAAAC 
AGGGACGACA ATGAGAGGCC ATACAACTAT TCCTCTCTGC TTGCTTGTGG GGTCAAGTCC 
TCTCAGACTC CCAAACTGGC AGGAAAGCAC CGGGTTGTTG TTCCCCACCT CCGGCCCTTC 
AAGGATGAGT ATGAAAAGTT CTCTGGCACC TACGTGAATA ACCGAATACG GACAACAAAG 
TACACACTTC TAAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG GGCCGCCAAT 
TTGTATTTCC TGTTTCTAGC TGTCTTGAAC TGGGTGCCTT TGGTAGAAGC CTTCCAAAAG 
GAAATTACAA TGCTGCCTCT GGTGGTGGTC CTTACAATTA TTGCAATTAA AGATGGTTTG 
GAAGATTACC GAAAATACAA AATTGACAAA CAGATCAACA ATTTAGTAAC TAAAGTTTAC 
AGCAGGAAAG AGAAAAAATA TGTTGACCAA TGCTGGAAAG ATGTTGCTGT TGGGGACTTT 
ATTCGCCTTT CCTGTAATGA GGTTATTCCT GCAGACATGG TCTTACTCTT TTCAACCGAT 
CCGGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG 
AGGCAGGTGG TTCGGGGATA TGCAGAGCAG GACTCTGAAG TTGACCCAGA GAAATTCTCC 
AGTAAGATAG AATGTGAAAG TCCAAACAAT GACCTCAACA GATTCCGAGG CTATCTAGAA 
CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTACTTAG AGGATGCACC 
ATTAGAAACA CAGAGGCTGT CGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA 
ATGCTGAACA ACAGTGGTCC CAGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAATACA 
GATGTCCTCT GGTGTGTCCT CCTTCTGGTT GTGATGTGTT TAACTGGTGC ATTGGGTCAT 
GGAATCTGGT TGAGTAGATA CGAAAACATA ATGTTTTTTA ATATCCCTGA GCCTGATGGA 
CATGTCATAT CACCCGTGTT GGGAGGATTC TATATGTTTT GGACCATGAT CATTTTGTTA 
CAGGTCTTGA TTCCCATTTC TCTCTATGTT TCCATTGAAA TTGTGAAGCT CGGACAGATA 
TATTTCATTC AAAGTGATGT GGATTTCTAC CATGAGAAAA TGGATTCCAC TGTTCAGTGC 
CGAGCCCTGA ACATCACTGA GGATCTTGGA CAGATTCAGT ACCTCTTTTC TGATAAGACA 
GGAACTCTCA CTGAGAATAA GATGGTTTTC CGAAGATGTA GTGTGGCAGG CTTTGATTAC 
TGCCACGAAG AAAATGCCAA GAGGTTAGAG TCCTACCAGG AAGCTCTCTC TGAAGATGAA 
GATTCCACAG ACACTCCCAG TGACTCCCTC AGCAATATGG CGAAACCGAA GGCCCCCAGC 
TGCAGGCCGA TTCATAATGG GCCCTTGGGA AGTAAATCCT CGAATCATCT TGCTGGGAGC 
TGTTTAGCTC TGGGAAGTGG AGAAGGAGCC AGTGAAGTGC CTCACTCCAG ACAGGCTGCT 
TTCAGTAGCC CCATTGAAAC AGATGTGGTA CCAGACACCA GGCTTTTGGA CAAGTTTAGT 
CAGATTACAC CTCAGCTTTT TACAAAACTA GATGAGACTA TCCCAAATCC AGCCCCGGAG 
ACTTTGTACA TCATCGACTT CTTCATTGCA TTGGCCATTT GCAACACAGT GGTGGTCTCT 
GCTCCTAACC AACCGCGACA GAAGATTGGA CTCTCATCAC TGAGTGGAAT GCCTATCAAG 
TCCTTGGAAG ATATTAAAAA CCTCTTCCAG AGGTTGTCTG TCCGAAGATC AAGTTCGCCA 
TCGCTTGCCA GTGGGAAAGA GCCCTCTCCC GGGGTCCCAA ATCCCTTTGT GAGCAGACTC 
TCCCTCTTTA GTCGAATGAA ACCGGCTTTC CCTGTGGAGG AAGAGGCCTC CCACATGAGT 
GAGAGCCCAG AGGGCCCTAG GAACTCTCCT TGCCCTACAG AAGTTGAGAA ACAGAACACT 
GATCCAGGCC TCCCAGAGGG CAAGGTGGCC CCCTCCCCTG GACAGCCGTT GGCCTCCACC 
CTGTGTTACG AGGCCGAGAG CCCTGATGAA GCGGCCTTGG TCTATGCCGC CAGGGCTTAC 
CAATGCACTT TACGGTCCCG GACACCGGAG CAGGTCGTGG TGGACTTCGC TGCTCTGGGG 
CCATTAACAT TTCAACTCCT GCACATCCTG CCCTTCGACT CAGTAAGAAA AAGAATGTCT 
GTTGTCGTTC GGCACCCCCT TTCCAACCAA GTTGTGGTGT ATACGAAGGG TGCTGATTCG 
GTCATCATGG AGTTGCTGTC AGTGGCTTCC CCAGATGGAA CAAGTCTCGA GAAACAACAG 
ATGATAATAA GGGAGAAAAC CCAGAAACAC TTGGATGACT ATGCCAGACG GGGCCTACGC 
ACTTTATGTA TAGCGAAGAA GGTCATGAGT GACACAGAAT ATACAGAGTG GCTGAGGAAC 
CATTTTTTAG CTGAAACCAG CATTGACCAC AGGGAAGAAT TACTCCTTGA ATCTGCCATG 
AGGTTGGAGA ACAAGCTCAC TTTACTTGGT GCTACTGGCA TTGAAGACCG TCTGCAGGAG 
GGAGTCCCTG AGTCCATCGA AGCCCTTCAG AAAGCCGGCA TCAAGATCTG GATGCTGACA 
GGGGACAAGC AGGAGACCGC CGTCAACATA GCTTATGCGT GCAGACTGCT GGAGCCAGAC 
GACAAGCTCT TTATCCTCAA CACCCAGAGT AAAGATGCCT GTGAGACGCT GATGAGCACA 
ATTTTGACAG AACTTCAGGA GAAGAACCCG GCCTTTCCCG AGCAAGCATC ATTAAGGGAC 
GGTTTACACC AGCCTGCGGC CACGCAGGAC TCAGAGCTGC GGGCCGGCCT CATCATCACT 
GGGAAGGCCC TGGAGTTCGC CCTGCAGGAG AGCCTGCAGA GGCAGTTCCT GGAGCTGACC 
GCCTGCTGTC AGGCTGTGGT CTGCTGCCGA GCCACCCCTC TGCAGAAAAG CGAGGTGGTG 
AAACTGGTTC GCAACCACCT CCGGGTGATG ACGCTGGCCA TCGGTGATGG TGCCAATGAT 
GTTAGCATGA TTCAAGTGGC AGACATTGGG ATTGGGATCT CGGGTCAAGA AGGCATGCAG 
GCTGTGATGG CCAGCGACTT CGCCCTTGCT CAGTTCAAGC ATCTTGGCAA GCTCCTCCTT 
GTCCACGGGC ACTGGTGTTA CACACGGCTG TCCAACATGA TTCTCTATTT TTTCTACAAG 
AACGTGGCCT ATGTGAACCT CCTTTTCTGG TACCAGTTCT TTTGTGGATT TTCAGGAACC 
TCCATGACTG ACTACTGGGT TTTGATCTTG TTCAACCTCC TTTTCACTTC CGCTCCTCCT 
GTCATTTATG GGGTTTTGGA GAAGGATGTG TCTGCCGAGA CCCTCATGCA GCTGCCTGAA 
CTTTACAAGA GTGGTCAGAA ATCAGAGGCA TACTTACCCC TTACCTTCTG GATCACCTTG 
TTGGATGCCT TTTATCAAAG CCTGGTCTGC TTCTTTGTGC CTTACTATAC CTACCGGGGC 
TCAGACATTG ACATCTTTGC ATTTGGAAAC CCCCTGAACA CAGCGGCCCT GTTCATCATT 
ATCCTCCACC TGGTGATTGA AAGCAAGAGT TTGACCTGGG TCCACATGCT GGTCATCGCG 
GGTAGCATCT TGTCTTATTT CTTCTTTGCC TTGGTTTTTG GAGCCGTGTG TGTCACTTGC 
AACCCACCGT CCAACCCCTA CTGGATTATG CAGGAGCACA TGCTGGATCC CGTGTTCTAC 
CTGGTTTGTG TCCTCACAAC CTGCGTCGCT CTCCTGCCCA GGTTTACATA CCGAGTTCTT 
CAGGGATCCC TGTTTCCGTC TCCAGTTCGG AGGGCTCAGC ACTTTGACAG ACTGACTCCA 
GAGGAGAGGA CTGAAGCTCT CAAGAAGTGG AGAGGGGCCG GAATGATAGG CCGGGGGCCA 
TCTAAGTATG CTGACCACTC AGCTGCCAAG TCGGAGAAAA CAGCCATGTC TGGCCCGCCT 
GCTGCCTTTG TGATGATGTC AGCACCGTCT TGTGCTGTCG AGCAGGGAAG CTTATCTGTA 
CATGAAACTG CTTTGGACTC AGACTTCTGT GAAACTAAGG CCTCAGGAAT GGCTGGGCCC 
TCAGACGGTT AA

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

RefSeq	XP_002917065.2
CDS	275..4546
Translation	MTECLQWARYHWQRLMGGRNRDDNERPYNYSSLLACGVKSSQTPKLAGKHRVVVPHLRPFKDEYEKFSGTYVNNRIRTTKYTLLNFVPRNLFEQFHRAANLYFLFLAVLNWVPLVEAFQKEITMLPLVVVLTIIAIKDGLEDYRKYKIDKQINNLVTKVYSRKEKKYVDQCWKDVAVGDFIRLSCNEVIPADMVLLFSTDPDGICHIETSGLDGESNLKQRQVVRGYAEQDSEVDPEKFSSKIECESPNNDLNRFRGYLEHSNKERVGLSKENLLLRGCTIRNTEAVVGIVVYAGHETKAMLNNSGPRYKRSKLERRANTDVLWCVLLLVVMCLTGALGHGIWLSRYENIMFFNIPEPDGHVISPVLGGFYMFWTMIILLQVLIPISLYVSIEIVKLGQIYFIQSDVDFYHEKMDSTVQCRALNITEDLGQIQYLFSDKTGTLTENKMVFRRCSVAGFDYCHEENAKRLESYQEALSEDEDSTDTPSDSLSNMAKPKAPSCRPIHNGPLGSKSSNHLAGSCLALGSGEGASEVPHSRQAAFSSPIETDVVPDTRLLDKFSQITPQLFTKLDETIPNPAPETLYIIDFFIALAICNTVVVSAPNQPRQKIGLSSLSGMPIKSLEDIKNLFQRLSVRRSSSPSLASGKEPSPGVPNPFVSRLSLFSRMKPAFPVEEEASHMSESPEGPRNSPCPTEVEKQNTDPGLPEGKVAPSPGQPLASTLCYEAESPDEAALVYAARAYQCTLRSRTPEQVVVDFAALGPLTFQLLHILPFDSVRKRMSVVVRHPLSNQVVVYTKGADSVIMELLSVASPDGTSLEKQQMIIREKTQKHLDDYARRGLRTLCIAKKVMSDTEYTEWLRNHFLAETSIDHREELLLESAMRLENKLTLLGATGIEDRLQEGVPESIEALQKAGIKIWMLTGDKQETAVNIAYACRLLEPDDKLFILNTQSKDACETLMSTILTELQEKNPAFPEQASLRDGLHQPAATQDSELRAGLIITGKALEFALQESLQRQFLELTACCQAVVCCRATPLQKSEVVKLVRNHLRVMTLAIGDGANDVSMIQVADIGIGISGQEGMQAVMASDFALAQFKHLGKLLLVHGHWCYTRLSNMILYFFYKNVAYVNLLFWYQFFCGFSGTSMTDYWVLILFNLLFTSAPPVIYGVLEKDVSAETLMQLPELYKSGQKSEAYLPLTFWITLLDAFYQSLVCFFVPYYTYRGSDIDIFAFGNPLNTAALFIIILHLVIESKSLTWVHMLVIAGSILSYFFFALVFGAVCVTCNPPSNPYWIMQEHMLDPVFYLVCVLTTCVALLPRFTYRVLQGSLFPSPVRRAQHFDRLTPEERTEALKKWRGAGMIGRGPSKYADHSAAKSEKTAMSGPPAAFVMMSAPSCAVEQGSLSVHETALDSDFCETKASGMAGPSDG

Target ORF information:

RefSeq Version	XM_002917019.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca 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_002917019.3

ORF Insert Sequence:

ATGACTGAGT GTCTACAATG GGCCAGGTAT CACTGGCAAC GGCTGATGGG CGGTAGAAAC 
AGGGACGACA ATGAGAGGCC ATACAACTAT TCCTCTCTGC TTGCTTGTGG GGTCAAGTCC 
TCTCAGACTC CCAAACTGGC AGGAAAGCAC CGGGTTGTTG TTCCCCACCT CCGGCCCTTC 
AAGGATGAGT ATGAAAAGTT CTCTGGCACC TACGTGAATA ACCGAATACG GACAACAAAG 
TACACACTTC TAAATTTTGT GCCAAGAAAT TTATTTGAAC AATTTCACAG GGCCGCCAAT 
TTGTATTTCC TGTTTCTAGC TGTCTTGAAC TGGGTGCCTT TGGTAGAAGC CTTCCAAAAG 
GAAATTACAA TGCTGCCTCT GGTGGTGGTC CTTACAATTA TTGCAATTAA AGATGGTTTG 
GAAGATTACC GAAAATACAA AATTGACAAA CAGATCAACA ATTTAGTAAC TAAAGTTTAC 
AGCAGGAAAG AGAAAAAATA TGTTGACCAA TGCTGGAAAG ATGTTGCTGT TGGGGACTTT 
ATTCGCCTTT CCTGTAATGA GGTTATTCCT GCAGACATGG TCTTACTCTT TTCAACCGAT 
CCGGATGGAA TCTGTCACAT TGAGACTTCT GGTCTTGATG GAGAGAGCAA TTTAAAACAG 
AGGCAGGTGG TTCGGGGATA TGCAGAGCAG GACTCTGAAG TTGACCCAGA GAAATTCTCC 
AGTAAGATAG AATGTGAAAG TCCAAACAAT GACCTCAACA GATTCCGAGG CTATCTAGAA 
CATTCCAACA AAGAACGCGT GGGTCTCAGT AAAGAAAATT TGTTACTTAG AGGATGCACC 
ATTAGAAACA CAGAGGCTGT CGTGGGCATT GTGGTTTATG CAGGCCATGA AACCAAAGCA 
ATGCTGAACA ACAGTGGTCC CAGGTATAAG CGCAGCAAAT TAGAAAGAAG AGCAAATACA 
GATGTCCTCT GGTGTGTCCT CCTTCTGGTT GTGATGTGTT TAACTGGTGC ATTGGGTCAT 
GGAATCTGGT TGAGTAGATA CGAAAACATA ATGTTTTTTA ATATCCCTGA GCCTGATGGA 
CATGTCATAT CACCCGTGTT GGGAGGATTC TATATGTTTT GGACCATGAT CATTTTGTTA 
CAGGTCTTGA TTCCCATTTC TCTCTATGTT TCCATTGAAA TTGTGAAGCT CGGACAGATA 
TATTTCATTC AAAGTGATGT GGATTTCTAC CATGAGAAAA TGGATTCCAC TGTTCAGTGC 
CGAGCCCTGA ACATCACTGA GGATCTTGGA CAGATTCAGT ACCTCTTTTC TGATAAGACA 
GGAACTCTCA CTGAGAATAA GATGGTTTTC CGAAGATGTA GTGTGGCAGG CTTTGATTAC 
TGCCACGAAG AAAATGCCAA GAGGTTAGAG TCCTACCAGG AAGCTCTCTC TGAAGATGAA 
GATTCCACAG ACACTCCCAG TGACTCCCTC AGCAATATGG CGAAACCGAA GGCCCCCAGC 
TGCAGGCCGA TTCATAATGG GCCCTTGGGA AGTAAATCCT CGAATCATCT TGCTGGGAGC 
TGTTTAGCTC TGGGAAGTGG AGAAGGAGCC AGTGAAGTGC CTCACTCCAG ACAGGCTGCT 
TTCAGTAGCC CCATTGAAAC AGATGTGGTA CCAGACACCA GGCTTTTGGA CAAGTTTAGT 
CAGATTACAC CTCAGCTTTT TACAAAACTA GATGAGACTA TCCCAAATCC AGCCCCGGAG 
ACTTTGTACA TCATCGACTT CTTCATTGCA TTGGCCATTT GCAACACAGT GGTGGTCTCT 
GCTCCTAACC AACCGCGACA GAAGATTGGA CTCTCATCAC TGAGTGGAAT GCCTATCAAG 
TCCTTGGAAG ATATTAAAAA CCTCTTCCAG AGGTTGTCTG TCCGAAGATC AAGTTCGCCA 
TCGCTTGCCA GTGGGAAAGA GCCCTCTCCC GGGGTCCCAA ATCCCTTTGT GAGCAGACTC 
TCCCTCTTTA GTCGAATGAA ACCGGCTTTC CCTGTGGAGG AAGAGGCCTC CCACATGAGT 
GAGAGCCCAG AGGGCCCTAG GAACTCTCCT TGCCCTACAG AAGTTGAGAA ACAGAACACT 
GATCCAGGCC TCCCAGAGGG CAAGGTGGCC CCCTCCCCTG GACAGCCGTT GGCCTCCACC 
CTGTGTTACG AGGCCGAGAG CCCTGATGAA GCGGCCTTGG TCTATGCCGC CAGGGCTTAC 
CAATGCACTT TACGGTCCCG GACACCGGAG CAGGTCGTGG TGGACTTCGC TGCTCTGGGG 
CCATTAACAT TTCAACTCCT GCACATCCTG CCCTTCGACT CAGTAAGAAA AAGAATGTCT 
GTTGTCGTTC GGCACCCCCT TTCCAACCAA GTTGTGGTGT ATACGAAGGG TGCTGATTCG 
GTCATCATGG AGTTGCTGTC AGTGGCTTCC CCAGATGGAA CAAGTCTCGA GAAACAACAG 
ATGATAATAA GGGAGAAAAC CCAGAAACAC TTGGATGACT ATGCCAGACG GGGCCTACGC 
ACTTTATGTA TAGCGAAGAA GGTCATGAGT GACACAGAAT ATACAGAGTG GCTGAGGAAC 
CATTTTTTAG CTGAAACCAG CATTGACCAC AGGGAAGAAT TACTCCTTGA ATCTGCCATG 
AGGTTGGAGA ACAAGCTCAC TTTACTTGGT GCTACTGGCA TTGAAGACCG TCTGCAGGAG 
GGAGTCCCTG AGTCCATCGA AGCCCTTCAG AAAGCCGGCA TCAAGATCTG GATGCTGACA 
GGGGACAAGC AGGAGACCGC CGTCAACATA GCTTATGCGT GCAGACTGCT GGAGCCAGAC 
GACAAGCTCT TTATCCTCAA CACCCAGAGT AAAGATGCCT GTGAGACGCT GATGAGCACA 
ATTTTGACAG AACTTCAGGA GAAGAACCCG GCCTTTCCCG AGCAAGCATC ATTAAGGGAC 
GGTTTACACC AGCCTGCGGC CACGCAGGAC TCAGAGCTGC GGGCCGGCCT CATCATCACT 
GGGAAGGCCC TGGAGTTCGC CCTGCAGGAG AGCCTGCAGA GGCAGTTCCT GGAGCTGACC 
GCCTGCTGTC AGGCTGTGGT CTGCTGCCGA GCCACCCCTC TGCAGAAAAG CGAGGTGGTG 
AAACTGGTTC GCAACCACCT CCGGGTGATG ACGCTGGCCA TCGGTGATGG TGCCAATGAT 
GTTAGCATGA TTCAAGTGGC AGACATTGGG ATTGGGATCT CGGGTCAAGA AGGCATGCAG 
GCTGTGATGG CCAGCGACTT CGCCCTTGCT CAGTTCAAGC ATCTTGGCAA GCTCCTCCTT 
GTCCACGGGC ACTGGTGTTA CACACGGCTG TCCAACATGA TTCTCTATTT TTTCTACAAG 
AACGTGGCCT ATGTGAACCT CCTTTTCTGG TACCAGTTCT TTTGTGGATT TTCAGGAACC 
TCCATGACTG ACTACTGGGT TTTGATCTTG TTCAACCTCC TTTTCACTTC CGCTCCTCCT 
GTCATTTATG GGGTTTTGGA GAAGGATGTG TCTGCCGAGA CCCTCATGCA GCTGCCTGAA 
CTTTACAAGA GTGGTCAGAA ATCAGAGGCA TACTTACCCC TTACCTTCTG GATCACCTTG 
TTGGATGCCT TTTATCAAAG CCTGGTCTGC TTCTTTGTGC CTTACTATAC CTACCGGGGC 
TCAGACATTG ACATCTTTGC ATTTGGAAAC CCCCTGAACA CAGCGGCCCT GTTCATCATT 
ATCCTCCACC TGGTGATTGA AAGCAAGAGT TTGACCTGGG TCCACATGCT GGTCATCGCG 
GGTAGCATCT TGTCTTATTT CTTCTTTGCC TTGGTTTTTG GAGCCGTGTG TGTCACTTGC 
AACCCACCGT CCAACCCCTA CTGGATTATG CAGGAGCACA TGCTGGATCC CGTGTTCTAC 
CTGGTTTGTG TCCTCACAAC CTGCGTCGCT CTCCTGCCCA GGTTTACATA CCGAGTTCTT 
CAGGGATCCC TGTTTCCGTC TCCAGTTCGG AGGGCTCAGC ACTTTGACAG ACTGACTCCA 
GAGGAGAGGA CTGAAGCTCT CAAGAAGTGG AGAGGGGCCG GAATGATAGG CCGGGGGCCA 
TCTAAGTATG CTGACCACTC AGCTGCCAAG TCGGAGAAAA CAGCCATGTC TGGCCCGCCT 
GCTGCCTTTG TGATGATGTC AGCACCGTCT TGTGCTGTCG AGCAGGGAAG CTTATCTGTA 
CATGAAACTG CTTTGGACTC AGACTTCTGT GAAACTAAGG CCTCAGGAAT GGCTGGGCCC 
TCAGACGGTT AA

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

ATP10D ( XM_011222038.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011220340.1 Ailuropoda melanoleuca ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc21275
Clone ID Related Accession (Same CDS sequence)	XM_011222038.2
Accession Version	XM_011222038.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3528bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
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 (NW_003217458.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011222038.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGAAAT TGAGAGGGCA TTTTCAAAAT AGAGAACATT CCAACAAAGA ACGCGTGGGT 
CTCAGTAAAG AAAATTTGTT ACTTAGAGGA TGCACCATTA GAAACACAGA GGCTGTCGTG 
GGCATTGTGG TTTATGCAGG CCATGAAACC AAAGCAATGC TGAACAACAG TGGTCCCAGG 
TATAAGCGCA GCAAATTAGA AAGAAGAGCA AATACAGATG TCCTCTGGTG TGTCCTCCTT 
CTGGTTGTGA TGTGTTTAAC TGGTGCATTG GGTCATGGAA TCTGGTTGAG TAGATACGAA 
AACATAATGT TTTTTAATAT CCCTGAGCCT GATGGACATG TCATATCACC CGTGTTGGGA 
GGATTCTATA TGTTTTGGAC CATGATCATT TTGTTACAGG TCTTGATTCC CATTTCTCTC 
TATGTTTCCA TTGAAATTGT GAAGCTCGGA CAGATATATT TCATTCAAAG TGATGTGGAT 
TTCTACCATG AGAAAATGGA TTCCACTGTT CAGTGCCGAG CCCTGAACAT CACTGAGGAT 
CTTGGACAGA TTCAGTACCT CTTTTCTGAT AAGACAGGAA CTCTCACTGA GAATAAGATG 
GTTTTCCGAA GATGTAGTGT GGCAGGCTTT GATTACTGCC ACGAAGAAAA TGCCAAGAGG 
TTAGAGTCCT ACCAGGAAGC TCTCTCTGAA GATGAAGATT CCACAGACAC TCCCAGTGAC 
TCCCTCAGCA ATATGGCGAA ACCGAAGGCC CCCAGCTGCA GGCCGATTCA TAATGGGCCC 
TTGGGAAGTA AATCCTCGAA TCATCTTGCT GGGAGCTGTT TAGCTCTGGG AAGTGGAGAA 
GGAGCCAGTG AAGTGCCTCA CTCCAGACAG GCTGCTTTCA GTAGCCCCAT TGAAACAGAT 
GTGGTACCAG ACACCAGGCT TTTGGACAAG TTTAGTCAGA TTACACCTCA GCTTTTTACA 
AAACTAGATG AGACTATCCC AAATCCAGCC CCGGAGACTT TGTACATCAT CGACTTCTTC 
ATTGCATTGG CCATTTGCAA CACAGTGGTG GTCTCTGCTC CTAACCAACC GCGACAGAAG 
ATTGGACTCT CATCACTGAG TGGAATGCCT ATCAAGTCCT TGGAAGATAT TAAAAACCTC 
TTCCAGAGGT TGTCTGTCCG AAGATCAAGT TCGCCATCGC TTGCCAGTGG GAAAGAGCCC 
TCTCCCGGGG TCCCAAATCC CTTTGTGAGC AGACTCTCCC TCTTTAGTCG AATGAAACCG 
GCTTTCCCTG TGGAGGAAGA GGCCTCCCAC ATGAGTGAGA GCCCAGAGGG CCCTAGGAAC 
TCTCCTTGCC CTACAGAAGT TGAGAAACAG AACACTGATC CAGGCCTCCC AGAGGGCAAG 
GTGGCCCCCT CCCCTGGACA GCCGTTGGCC TCCACCCTGT GTTACGAGGC CGAGAGCCCT 
GATGAAGCGG CCTTGGTCTA TGCCGCCAGG GCTTACCAAT GCACTTTACG GTCCCGGACA 
CCGGAGCAGG TCGTGGTGGA CTTCGCTGCT CTGGGGCCAT TAACATTTCA ACTCCTGCAC 
ATCCTGCCCT TCGACTCAGT AAGAAAAAGA ATGTCTGTTG TCGTTCGGCA CCCCCTTTCC 
AACCAAGTTG TGGTGTATAC GAAGGGTGCT GATTCGGTCA TCATGGAGTT GCTGTCAGTG 
GCTTCCCCAG ATGGAACAAG TCTCGAGAAA CAACAGATGA TAATAAGGGA GAAAACCCAG 
AAACACTTGG ATGACTATGC CAGACGGGGC CTACGCACTT TATGTATAGC GAAGAAGGTC 
ATGAGTGACA CAGAATATAC AGAGTGGCTG AGGAACCATT TTTTAGCTGA AACCAGCATT 
GACCACAGGG AAGAATTACT CCTTGAATCT GCCATGAGGT TGGAGAACAA GCTCACTTTA 
CTTGGTGCTA CTGGCATTGA AGACCGTCTG CAGGAGGGAG TCCCTGAGTC CATCGAAGCC 
CTTCAGAAAG CCGGCATCAA GATCTGGATG CTGACAGGGG ACAAGCAGGA GACCGCCGTC 
AACATAGCTT ATGCGTGCAG ACTGCTGGAG CCAGACGACA AGCTCTTTAT CCTCAACACC 
CAGAGTAAAG ATGCCTGTGA GACGCTGATG AGCACAATTT TGACAGAACT TCAGGAGAAG 
AACCCGGCCT TTCCCGAGCA AGCATCATTA AGGGACGGTT TACACCAGCC TGCGGCCACG 
CAGGACTCAG AGCTGCGGGC CGGCCTCATC ATCACTGGGA AGGCCCTGGA GTTCGCCCTG 
CAGGAGAGCC TGCAGAGGCA GTTCCTGGAG CTGACCGCCT GCTGTCAGGC TGTGGTCTGC 
TGCCGAGCCA CCCCTCTGCA GAAAAGCGAG GTGGTGAAAC TGGTTCGCAA CCACCTCCGG 
GTGATGACGC TGGCCATCGG TGATGGTGCC AATGATGTTA GCATGATTCA AGTGGCAGAC 
ATTGGGATTG GGATCTCGGG TCAAGAAGGC ATGCAGGCTG TGATGGCCAG CGACTTCGCC 
CTTGCTCAGT TCAAGCATCT TGGCAAGCTC CTCCTTGTCC ACGGGCACTG GTGTTACACA 
CGGCTGTCCA ACATGATTCT CTATTTTTTC TACAAGAACG TGGCCTATGT GAACCTCCTT 
TTCTGGTACC AGTTCTTTTG TGGATTTTCA GGAACCTCCA TGACTGACTA CTGGGTTTTG 
ATCTTGTTCA ACCTCCTTTT CACTTCCGCT CCTCCTGTCA TTTATGGGGT TTTGGAGAAG 
GATGTGTCTG CCGAGACCCT CATGCAGCTG CCTGAACTTT ACAAGAGTGG TCAGAAATCA 
GAGGCATACT TACCCCTTAC CTTCTGGATC ACCTTGTTGG ATGCCTTTTA TCAAAGCCTG 
GTCTGCTTCT TTGTGCCTTA CTATACCTAC CGGGGCTCAG ACATTGACAT CTTTGCATTT 
GGAAACCCCC TGAACACAGC GGCCCTGTTC ATCATTATCC TCCACCTGGT GATTGAAAGC 
AAGAGTTTGA CCTGGGTCCA CATGCTGGTC ATCGCGGGTA GCATCTTGTC TTATTTCTTC 
TTTGCCTTGG TTTTTGGAGC CGTGTGTGTC ACTTGCAACC CACCGTCCAA CCCCTACTGG 
ATTATGCAGG AGCACATGCT GGATCCCGTG TTCTACCTGG TTTGTGTCCT CACAACCTGC 
GTCGCTCTCC TGCCCAGGTT TACATACCGA GTTCTTCAGG GATCCCTGTT TCCGTCTCCA 
GTTCGGAGGG CTCAGCACTT TGACAGACTG ACTCCAGAGG AGAGGACTGA AGCTCTCAAG 
AAGTGGAGAG GGGCCGGAAT GATAGGCCGG GGGCCATCTA AGTATGCTGA CCACTCAGCT 
GCCAAGTCGG AGAAAACAGC CATGTCTGGC CCGCCTGCTG CCTTTGTGAT GATGTCAGCA 
CCGTCTTGTG CTGTCGAGCA GGGAAGCTTA TCTGTACATG AAACTGCTTT GGACTCAGAC 
TTCTGTGAAA CTAAGGCCTC AGGAATGGCT GGGCCCTCAG ACGGTTAA

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

RefSeq	XP_011220340.1
CDS	90..3617
Translation	MLKLRGHFQNREHSNKERVGLSKENLLLRGCTIRNTEAVVGIVVYAGHETKAMLNNSGPRYKRSKLERRANTDVLWCVLLLVVMCLTGALGHGIWLSRYENIMFFNIPEPDGHVISPVLGGFYMFWTMIILLQVLIPISLYVSIEIVKLGQIYFIQSDVDFYHEKMDSTVQCRALNITEDLGQIQYLFSDKTGTLTENKMVFRRCSVAGFDYCHEENAKRLESYQEALSEDEDSTDTPSDSLSNMAKPKAPSCRPIHNGPLGSKSSNHLAGSCLALGSGEGASEVPHSRQAAFSSPIETDVVPDTRLLDKFSQITPQLFTKLDETIPNPAPETLYIIDFFIALAICNTVVVSAPNQPRQKIGLSSLSGMPIKSLEDIKNLFQRLSVRRSSSPSLASGKEPSPGVPNPFVSRLSLFSRMKPAFPVEEEASHMSESPEGPRNSPCPTEVEKQNTDPGLPEGKVAPSPGQPLASTLCYEAESPDEAALVYAARAYQCTLRSRTPEQVVVDFAALGPLTFQLLHILPFDSVRKRMSVVVRHPLSNQVVVYTKGADSVIMELLSVASPDGTSLEKQQMIIREKTQKHLDDYARRGLRTLCIAKKVMSDTEYTEWLRNHFLAETSIDHREELLLESAMRLENKLTLLGATGIEDRLQEGVPESIEALQKAGIKIWMLTGDKQETAVNIAYACRLLEPDDKLFILNTQSKDACETLMSTILTELQEKNPAFPEQASLRDGLHQPAATQDSELRAGLIITGKALEFALQESLQRQFLELTACCQAVVCCRATPLQKSEVVKLVRNHLRVMTLAIGDGANDVSMIQVADIGIGISGQEGMQAVMASDFALAQFKHLGKLLLVHGHWCYTRLSNMILYFFYKNVAYVNLLFWYQFFCGFSGTSMTDYWVLILFNLLFTSAPPVIYGVLEKDVSAETLMQLPELYKSGQKSEAYLPLTFWITLLDAFYQSLVCFFVPYYTYRGSDIDIFAFGNPLNTAALFIIILHLVIESKSLTWVHMLVIAGSILSYFFFALVFGAVCVTCNPPSNPYWIMQEHMLDPVFYLVCVLTTCVALLPRFTYRVLQGSLFPSPVRRAQHFDRLTPEERTEALKKWRGAGMIGRGPSKYADHSAAKSEKTAMSGPPAAFVMMSAPSCAVEQGSLSVHETALDSDFCETKASGMAGPSDG

Target ORF information:

RefSeq Version	XM_011222038.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca 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_011222038.2

ORF Insert Sequence:

ATGCTGAAAT TGAGAGGGCA TTTTCAAAAT AGAGAACATT CCAACAAAGA ACGCGTGGGT 
CTCAGTAAAG AAAATTTGTT ACTTAGAGGA TGCACCATTA GAAACACAGA GGCTGTCGTG 
GGCATTGTGG TTTATGCAGG CCATGAAACC AAAGCAATGC TGAACAACAG TGGTCCCAGG 
TATAAGCGCA GCAAATTAGA AAGAAGAGCA AATACAGATG TCCTCTGGTG TGTCCTCCTT 
CTGGTTGTGA TGTGTTTAAC TGGTGCATTG GGTCATGGAA TCTGGTTGAG TAGATACGAA 
AACATAATGT TTTTTAATAT CCCTGAGCCT GATGGACATG TCATATCACC CGTGTTGGGA 
GGATTCTATA TGTTTTGGAC CATGATCATT TTGTTACAGG TCTTGATTCC CATTTCTCTC 
TATGTTTCCA TTGAAATTGT GAAGCTCGGA CAGATATATT TCATTCAAAG TGATGTGGAT 
TTCTACCATG AGAAAATGGA TTCCACTGTT CAGTGCCGAG CCCTGAACAT CACTGAGGAT 
CTTGGACAGA TTCAGTACCT CTTTTCTGAT AAGACAGGAA CTCTCACTGA GAATAAGATG 
GTTTTCCGAA GATGTAGTGT GGCAGGCTTT GATTACTGCC ACGAAGAAAA TGCCAAGAGG 
TTAGAGTCCT ACCAGGAAGC TCTCTCTGAA GATGAAGATT CCACAGACAC TCCCAGTGAC 
TCCCTCAGCA ATATGGCGAA ACCGAAGGCC CCCAGCTGCA GGCCGATTCA TAATGGGCCC 
TTGGGAAGTA AATCCTCGAA TCATCTTGCT GGGAGCTGTT TAGCTCTGGG AAGTGGAGAA 
GGAGCCAGTG AAGTGCCTCA CTCCAGACAG GCTGCTTTCA GTAGCCCCAT TGAAACAGAT 
GTGGTACCAG ACACCAGGCT TTTGGACAAG TTTAGTCAGA TTACACCTCA GCTTTTTACA 
AAACTAGATG AGACTATCCC AAATCCAGCC CCGGAGACTT TGTACATCAT CGACTTCTTC 
ATTGCATTGG CCATTTGCAA CACAGTGGTG GTCTCTGCTC CTAACCAACC GCGACAGAAG 
ATTGGACTCT CATCACTGAG TGGAATGCCT ATCAAGTCCT TGGAAGATAT TAAAAACCTC 
TTCCAGAGGT TGTCTGTCCG AAGATCAAGT TCGCCATCGC TTGCCAGTGG GAAAGAGCCC 
TCTCCCGGGG TCCCAAATCC CTTTGTGAGC AGACTCTCCC TCTTTAGTCG AATGAAACCG 
GCTTTCCCTG TGGAGGAAGA GGCCTCCCAC ATGAGTGAGA GCCCAGAGGG CCCTAGGAAC 
TCTCCTTGCC CTACAGAAGT TGAGAAACAG AACACTGATC CAGGCCTCCC AGAGGGCAAG 
GTGGCCCCCT CCCCTGGACA GCCGTTGGCC TCCACCCTGT GTTACGAGGC CGAGAGCCCT 
GATGAAGCGG CCTTGGTCTA TGCCGCCAGG GCTTACCAAT GCACTTTACG GTCCCGGACA 
CCGGAGCAGG TCGTGGTGGA CTTCGCTGCT CTGGGGCCAT TAACATTTCA ACTCCTGCAC 
ATCCTGCCCT TCGACTCAGT AAGAAAAAGA ATGTCTGTTG TCGTTCGGCA CCCCCTTTCC 
AACCAAGTTG TGGTGTATAC GAAGGGTGCT GATTCGGTCA TCATGGAGTT GCTGTCAGTG 
GCTTCCCCAG ATGGAACAAG TCTCGAGAAA CAACAGATGA TAATAAGGGA GAAAACCCAG 
AAACACTTGG ATGACTATGC CAGACGGGGC CTACGCACTT TATGTATAGC GAAGAAGGTC 
ATGAGTGACA CAGAATATAC AGAGTGGCTG AGGAACCATT TTTTAGCTGA AACCAGCATT 
GACCACAGGG AAGAATTACT CCTTGAATCT GCCATGAGGT TGGAGAACAA GCTCACTTTA 
CTTGGTGCTA CTGGCATTGA AGACCGTCTG CAGGAGGGAG TCCCTGAGTC CATCGAAGCC 
CTTCAGAAAG CCGGCATCAA GATCTGGATG CTGACAGGGG ACAAGCAGGA GACCGCCGTC 
AACATAGCTT ATGCGTGCAG ACTGCTGGAG CCAGACGACA AGCTCTTTAT CCTCAACACC 
CAGAGTAAAG ATGCCTGTGA GACGCTGATG AGCACAATTT TGACAGAACT TCAGGAGAAG 
AACCCGGCCT TTCCCGAGCA AGCATCATTA AGGGACGGTT TACACCAGCC TGCGGCCACG 
CAGGACTCAG AGCTGCGGGC CGGCCTCATC ATCACTGGGA AGGCCCTGGA GTTCGCCCTG 
CAGGAGAGCC TGCAGAGGCA GTTCCTGGAG CTGACCGCCT GCTGTCAGGC TGTGGTCTGC 
TGCCGAGCCA CCCCTCTGCA GAAAAGCGAG GTGGTGAAAC TGGTTCGCAA CCACCTCCGG 
GTGATGACGC TGGCCATCGG TGATGGTGCC AATGATGTTA GCATGATTCA AGTGGCAGAC 
ATTGGGATTG GGATCTCGGG TCAAGAAGGC ATGCAGGCTG TGATGGCCAG CGACTTCGCC 
CTTGCTCAGT TCAAGCATCT TGGCAAGCTC CTCCTTGTCC ACGGGCACTG GTGTTACACA 
CGGCTGTCCA ACATGATTCT CTATTTTTTC TACAAGAACG TGGCCTATGT GAACCTCCTT 
TTCTGGTACC AGTTCTTTTG TGGATTTTCA GGAACCTCCA TGACTGACTA CTGGGTTTTG 
ATCTTGTTCA ACCTCCTTTT CACTTCCGCT CCTCCTGTCA TTTATGGGGT TTTGGAGAAG 
GATGTGTCTG CCGAGACCCT CATGCAGCTG CCTGAACTTT ACAAGAGTGG TCAGAAATCA 
GAGGCATACT TACCCCTTAC CTTCTGGATC ACCTTGTTGG ATGCCTTTTA TCAAAGCCTG 
GTCTGCTTCT TTGTGCCTTA CTATACCTAC CGGGGCTCAG ACATTGACAT CTTTGCATTT 
GGAAACCCCC TGAACACAGC GGCCCTGTTC ATCATTATCC TCCACCTGGT GATTGAAAGC 
AAGAGTTTGA CCTGGGTCCA CATGCTGGTC ATCGCGGGTA GCATCTTGTC TTATTTCTTC 
TTTGCCTTGG TTTTTGGAGC CGTGTGTGTC ACTTGCAACC CACCGTCCAA CCCCTACTGG 
ATTATGCAGG AGCACATGCT GGATCCCGTG TTCTACCTGG TTTGTGTCCT CACAACCTGC 
GTCGCTCTCC TGCCCAGGTT TACATACCGA GTTCTTCAGG GATCCCTGTT TCCGTCTCCA 
GTTCGGAGGG CTCAGCACTT TGACAGACTG ACTCCAGAGG AGAGGACTGA AGCTCTCAAG 
AAGTGGAGAG GGGCCGGAAT GATAGGCCGG GGGCCATCTA AGTATGCTGA CCACTCAGCT 
GCCAAGTCGG AGAAAACAGC CATGTCTGGC CCGCCTGCTG CCTTTGTGAT GATGTCAGCA 
CCGTCTTGTG CTGTCGAGCA GGGAAGCTTA TCTGTACATG AAACTGCTTT GGACTCAGAC 
TTCTGTGAAA CTAAGGCCTC AGGAATGGCT GGGCCCTCAG ACGGTTAA

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

PubMed

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

ONLINE FORM

Online Quote Submission

ONLINE FORM

Online Quote Submission

ATP10D cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Most Popular Services

Services & Products

News & Blogs

REQUEST A QUOTE

EMAIL

PHONE

ONLINE FORM

ONLINE FORM