atp10a cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	atp10a
Entrez Gene ID	100494528
Full Name	ATPase, class V, type 10A
General protein information	Preferred Names ATPase, class V, type 10A Names probable phospholipid-transporting ATPase VA
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018091640.1	XP_017947129.1	probable phospholipid-transporting ATPase VA isoform X2
XM_002931642.5	XP_002931688.2	probable phospholipid-transporting ATPase VA
XM_002931642.4	XP_002931688.1	probable phospholipid-transporting ATPase VA isoform X1

Pathways from BioSystems

Homologies

Homo sapiens (human)	ATP10A	NP_077816.1
Pan troglodytes (chimpanzee)	ATP10A	XP_510255.2
Canis lupus familiaris (dog)	ATP10A	XP_545808.4
Bos taurus (cattle)	ATP10A	XP_005221762.1
	ATP10A	XP_001108767.1
Magnaporthe oryzae (rice blast fungus)	MGG_02767	XP_003720981.1
Neurospora crassa	NCU07443	XP_964630.1
Danio rerio (zebrafish)	atp10a	XP_695556.2
Arabidopsis thaliana (thale cress)	ALA1	NP_568146.1
Schizosaccharomyces pombe (fission yeast)	SPAC24B11.12c	NP_592849.1
Mus musculus (house mouse)	Atp10a	NP_033858.2
Rattus norvegicus (Norway rat)	Atp10a	NP_001135407.1
Gallus gallus (chicken)	ATP10A	XP_416881.3
Saccharomyces cerevisiae (baker's yeast)	DNF1	NP_011093.3
Saccharomyces cerevisiae (baker's yeast)	DNF2	NP_010378.1
Kluyveromyces lactis	KLLA0C17644g	XP_452988.1
Eremothecium gossypii	AGOS_AGR120C	NP_986786.2
Oryza sativa (rice)	Os01g0277600	NP_001042736.2
Xenopus tropicalis (tropical clawed frog)	atp10a	XP_002931688.1

Gene Ontology

The following atp10a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the atp10a cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OXa42800	XM_018091640.1 Latest version!	Xenopus tropicalis ATPase, class V, type 10A (atp10a), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
OXa52490	XM_002931642.5 Latest version!	Xenopus tropicalis ATPase, class V, type 10A (atp10a), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OXa05874	XM_002931642.4 Latest version!	Xenopus tropicalis ATPase, class V, type 10A (atp10a), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00

ORF Online Only Promotion

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

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

Reference Sequences (Refseq)

atp10a ( XM_018091640.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947129.1 Xenopus tropicalis ATPase, class V, type 10A (atp10a), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OXa42800
Clone ID Related Accession (Same CDS sequence)	XM_018091640.1
Accession Version	XM_018091640.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4398bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-09-07
Organism	Xenopus tropicalis(tropical clawed frog)
Product	probable phospholipid-transporting ATPase VA isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGACGG ATGGCGGGGG AGGTGAGCCT AAGTGCCAGG TGGCTAAAGA TGAAGAAGAC 
AACGTGAAGA GAAAGAAAAA GAAGAGGAAA ACACGGAGAG AGAGCAGAGT GAGGACTGTC 
CGCTCTAACC TGCTTCTCTA TGAGTCCGAC AACCCGAACC GGCTCTATGC CGGCAACTCA 
ATCAAAACCA CCAAGTACAC GGCTTTGTCC TTCCTGCCCA AGAACCTCTT CGAGCAGTTC 
CACCGGCTGG CCAATGTCTA CTTTGTCTTC ATGGCTCTGC TCAACTTCGT GCCGGCGGTG 
AACGCTTTCA AGCCCGAGCT AGCCCTGGCC CCCGTCCTCT TTATTTTGGC GGTGACCGCT 
ATTAAGGACC TGTGGGAGGA TTACCGGAGG TACCGCTCGG ACAAGGAGAT CAACCACATG 
GACTGCCTGG TGTTCTGCAG GAGTGAAAAG AAATATCGTG AAAAGTATTG GAAGGAAGTT 
CAAGTTGGAG ATTTTGTACA ACTACGTTGC AATGAAATAA TTCCCGCTGA TATATTGCTG 
CTATCCTCTA GTGATCCAGA TGGGCTCTGT CACATTGAAA CTGCCAATCT GGATGGAGAA 
ACAAACCTGA AACAAAGACA AGTGTTGAAA GGATTCGTAG AACTGGAATC TGAATTTGAT 
CCAATGACAT TTAAGAGCAT CATTGAATGT GAGAAACCAA ACAATGATTT GACCAGGTTT 
CGTGGTTACA TCCATAAAAA TGGGAAAAAA TCTGGACTTT TTAAGGAAAA CCTTCTTTTG 
CGTGGGTGCA CTATTCGTAA CACAGAAGTT GTGTCTGGCA TTGTTATCTA TGCAGGCCAT 
GAGACCAAAG CTTTGCTAAA CAACAATGGA CCTCGCTACA AACGTAGTAA ACTTGAGAGG 
CAAATGAATA AAGATGTCTT TTGGTGTGTT CTGATCCTCC TTATTATGTG TCTTTTTTCA 
GCTGTTGGAC ATGCTCTCTG GGTCTGGCAA TATGGAGAAA AGCGACCTGT GTTTGATGTT 
TTAGGCTCTG ATGGAAAATA TGTAAAGCCA TTTCTTTCAG CTGTATATTT ATTTTTCACC 
ATGATAATAG TATTGCAGGT GCTTATCCCA GTGTCTTTGT ATGTTTCAAT TGAAATTGTG 
AAAATATGCC AAGTGTATTT CATTCACCAA GATAAAGACT TATATGATGA AGAAACAGAT 
TCCCAACTTC AGTGCAGAGC TCTCAATATT ACTGAAGACT TAGGACAGAT ACAGTATGTT 
TTCTCTGACA AAACTGGAAC ACTTACTGAA AATAAAATGG TTTTCCGAAG GTGCACCGTC 
TCCGGAGTAG AATATTCTCA TGATGATAAT GCAAAACGTC TAGCAATGTA TCAAGAAGCA 
GACTCTGAAG ATGAAGTCAA TGGGCCAAAA ACAGGAACAC TTCCGCGTCG TGATAGTAGT 
GGCAGTCACC ATAGTGTTAA AGCAGCACAC AGAAGCCAAA GTACCAAGAC TCATCGACGT 
ACAGGAAGCA GAGCTGAGGC AATGAAAGCC AACATATTGT CCAAACACAC AGCTTTCAGC 
AGCCCAATGG AAAAGGACAT TACACCAGAC CCAAAATTGC AAGAAAAGGT CAATGAATGT 
GCAAAGACTC TGAAGATTAT GAGAAACCAC AAGCAACCAT TTTCTCAGCT CACTGCAGAA 
CTCTCAGATA TTTTTGACTT TTTTACTGCT TTGACAATTT GCAACACTGT TGTTGTTACT 
TCTCCAAATC AACCACGACA GAAGGTAAGA GTAAGATTTG AACTGAAGTC TCCGGTGAAA 
ACCATAGAGG ACTTTATCCG CAGATTTACA CCCAGCCGTT TAACTTCAGG ATCTAATAGC 
AGCAGTTCAT CCAGCCTTGG AACTAATAAG TCAATGCACA GAGCTGGATC CAGCATCATG 
TCTTCAAGTT CCATTGAAGG CAGTTTTACA AAATTAGAAA GAAAACTTTC CAGCTCTCCA 
CAGATAAATT TTACTGGACT AGGCACTCAG CCAGGTTTTA AAGAACAGGT AGATGGACAT 
GAAGGGGATC TGCGCTTTGA AGCAGAGAGT CCTGATGAAG CTGCTCTTGT ATATGCTTCC 
AGAGCATATA ATTGTGCTCT TGTTGGTAGA CTTTCAGATC AGGTAACTGT AGAGTTACCA 
CATTTGGGTA GGCTAAACTT TGAACTCTTG CATACCCTTG GTTTTGATTC GGTCAGAAAA 
CGAATGTCTG TTGTGGTGAG ACACCCACTT ACAGATGAAA TAGTGGTTTA CGCTAAAGGA 
GCAGATTCCG TTATTCTGGA CCTTATTCAG CCATGCTCTA AAGATGATCG TCTGGGAAAG 
CACCAAAGAA AAATTCAAGC CAAAACTCAA AAGTATTTGA ACTGTTATGC AGTTGATGGT 
TTACGAACTC TGTGTATTGC AAAACGAGTG CTCAGTAAAG AAGAATATGC CTGTTGGCTG 
AAATTTCATT TGCAAGCTGA ATCTTCTTTA GATAATCGTG AAGAACTACT GTTCCAATCT 
GCAGTTCGTC TGGAGACTAA TCTACACTTG CTTGGTGCCA CTGGCATAGA AGATCGTTTA 
CAAGAAGGTG TTCCAGAAAC GATCACAAGG TTACGCAAAG CTGGCATACA GATATGGGTT 
TTAACTGGAG ATAAACAAGA AACTGCTGTA AATATTGGCT ATTCCTGCAA GCTTCTAGAT 
CATGAAGATG ATCTAATCAC TTTGAATGCT GAATCTCTGG AAGAATGTTC TACTTTGCTT 
GAACAATGTT TGCACTACAT ACAATCCAAG TTTTCAAGTG GCTTACAGGA AAAAGTCGTT 
GGAGGGACTG GCATTGACTC TGTCCAACAC AATACTCTTT GGCCTCCAAA TTTAAAGCAA 
TCTAGCCTTG GACTTGTAAT AGATGGAAAA ACCTTGGCCT TTGCGCTAGA TATAACACAG 
TCAGACAAAT TCCTTTTACT TGCTAGAAAA TGCCGTTCAG TTCTTTGTTG TCGTTCTACC 
CCTCTGCAGA AGAGCTTGGT GGTAAAGCTT GTCCGTGATA AGCTCAGAGC TATGACTTTA 
GCAGTAGGGG ATGGAACCAA TGATGTCAGC ATGATACAGG TAGCTGATGT TGGGGTTGGA 
ATCTCTGGTC AAGAAGGAAT GCAGGCAGTA ATGGCAAGTG ATTTTGCTGT TCCAAGGTTT 
CGGCACCTGG AAAAGCTTTT GCTTGTACAT GGTCGATGGT GTTATTCCAG GCTTGCCAAC 
ATGGTCTTGT ATTTCTTCTA TAAGAATGCA ATGTTTGTGG CTCTTCTTTT CTGGTACCAG 
TTCTATTGTG GATTTTCTGG CTCAGCAATG ATTGATCAAT GGTATTTGAT CTTCTTTAAT 
TTATTATTTT CATCCATTCC ACAACTTATC ACTGGAATTT TGGACAAAGA CTTGCCAGCT 
GAATTACTGA CTGCAAATCC CGAGCTCTAT AAAAGTGGAC CCAACATGGA GAGTTTCTTC 
GATTCTGACA TTGATTTATT TACCTGGGGA ACACCAATTG TCACTTGTGC ACTTTTGACA 
ATTATGATGC ACTTGGGAAT GGAAACAAAA ACATGGACAT GGATCAATGT ATCTTCAATT 
GTGTTCAGCA TCCTTTTGTT TTTTACTGTG GCTCTTGTTT ACAATTCATC TTGTCCAACA 
TGCAACCCTC CTTCCAATCC CTATTGGACT ATGCAGAAAT TAATGGCCAA CCCTTTATTT 
TATCTTATTT GCATTTTGTC ACCTGTTACT GCATTGTTGC CAAGGTTTTT ATACAAATCT 
GTCCAGGGAA CTCTGTTTCC AACACAAATT CAACTTGGCC GCAAACTGCT GAGAGCCCAT 
CCAGAGTGCC TTACTGGTAA CTTTAGTATA TTGAAATCCA GCACTGCATC TGAAATGCGA 
AGTAAGACAA CAGAACCAAA TAACACCAGC ATTGCTTTAA ACACAAACCA AAGACAAAAT 
AATATGGATC CTGAGCAAAA TGTCAAGTTT TATTCCTCTC CCAAAGAAGA AAGGAATGAG 
TCAGTCGATC AGAGCTATTG TTCCTGTGAG GATACTTCCA TTTGTGTGAA AGATGAAGCA 
AAAAATACTT CTTTTTACCA TGACTCTTCT GTACTACTTG ACACATTACC CTTGGATGAA 
ACGTTCCAGT GGAACTCAAA GTTAGACCAG TCGGATATCA GTTTAATAAA CTGGATGACA 
TCAACTCCCT TGTTTAAAAA GTATAGCCAA CATTTAAACA GTATTCAGGA CAGTCTGAAA 
GATACTGCCG TTTCACTAGC TGGCTCTTAT TGCCCTAAAG ACCAGGATAG TATTGCCATA 
GGCAATACAC GTTTATGTGA AGATACAGTA ATTAGGACTA GTGGCAATGG GGAAATCCAG 
GAAACAACTT TTTTATGA

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

RefSeq	XP_017947129.1
CDS	408..4805
Translation	MATDGGGGEPKCQVAKDEEDNVKRKKKKRKTRRESRVRTVRSNLLLYESDNPNRLYAGNSIKTTKYTALSFLPKNLFEQFHRLANVYFVFMALLNFVPAVNAFKPELALAPVLFILAVTAIKDLWEDYRRYRSDKEINHMDCLVFCRSEKKYREKYWKEVQVGDFVQLRCNEIIPADILLLSSSDPDGLCHIETANLDGETNLKQRQVLKGFVELESEFDPMTFKSIIECEKPNNDLTRFRGYIHKNGKKSGLFKENLLLRGCTIRNTEVVSGIVIYAGHETKALLNNNGPRYKRSKLERQMNKDVFWCVLILLIMCLFSAVGHALWVWQYGEKRPVFDVLGSDGKYVKPFLSAVYLFFTMIIVLQVLIPVSLYVSIEIVKICQVYFIHQDKDLYDEETDSQLQCRALNITEDLGQIQYVFSDKTGTLTENKMVFRRCTVSGVEYSHDDNAKRLAMYQEADSEDEVNGPKTGTLPRRDSSGSHHSVKAAHRSQSTKTHRRTGSRAEAMKANILSKHTAFSSPMEKDITPDPKLQEKVNECAKTLKIMRNHKQPFSQLTAELSDIFDFFTALTICNTVVVTSPNQPRQKVRVRFELKSPVKTIEDFIRRFTPSRLTSGSNSSSSSSLGTNKSMHRAGSSIMSSSSIEGSFTKLERKLSSSPQINFTGLGTQPGFKEQVDGHEGDLRFEAESPDEAALVYASRAYNCALVGRLSDQVTVELPHLGRLNFELLHTLGFDSVRKRMSVVVRHPLTDEIVVYAKGADSVILDLIQPCSKDDRLGKHQRKIQAKTQKYLNCYAVDGLRTLCIAKRVLSKEEYACWLKFHLQAESSLDNREELLFQSAVRLETNLHLLGATGIEDRLQEGVPETITRLRKAGIQIWVLTGDKQETAVNIGYSCKLLDHEDDLITLNAESLEECSTLLEQCLHYIQSKFSSGLQEKVVGGTGIDSVQHNTLWPPNLKQSSLGLVIDGKTLAFALDITQSDKFLLLARKCRSVLCCRSTPLQKSLVVKLVRDKLRAMTLAVGDGTNDVSMIQVADVGVGISGQEGMQAVMASDFAVPRFRHLEKLLLVHGRWCYSRLANMVLYFFYKNAMFVALLFWYQFYCGFSGSAMIDQWYLIFFNLLFSSIPQLITGILDKDLPAELLTANPELYKSGPNMESFFDSDIDLFTWGTPIVTCALLTIMMHLGMETKTWTWINVSSIVFSILLFFTVALVYNSSCPTCNPPSNPYWTMQKLMANPLFYLICILSPVTALLPRFLYKSVQGTLFPTQIQLGRKLLRAHPECLTGNFSILKSSTASEMRSKTTEPNNTSIALNTNQRQNNMDPEQNVKFYSSPKEERNESVDQSYCSCEDTSICVKDEAKNTSFYHDSSVLLDTLPLDETFQWNSKLDQSDISLINWMTSTPLFKKYSQHLNSIQDSLKDTAVSLAGSYCPKDQDSIAIGNTRLCEDTVIRTSGNGEIQETTFL

Target ORF information:

RefSeq Version	XM_018091640.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ATPase, class V, type 10A (atp10a), transcript variant X2, mRNA.

Target ORF information:

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

XM_018091640.1

ORF Insert Sequence:

ATGGCGACGG ATGGCGGGGG AGGTGAGCCT AAGTGCCAGG TGGCTAAAGA TGAAGAAGAC 
AACGTGAAGA GAAAGAAAAA GAAGAGGAAA ACACGGAGAG AGAGCAGAGT GAGGACTGTC 
CGCTCTAACC TGCTTCTCTA TGAGTCCGAC AACCCGAACC GGCTCTATGC CGGCAACTCA 
ATCAAAACCA CCAAGTACAC GGCTTTGTCC TTCCTGCCCA AGAACCTCTT CGAGCAGTTC 
CACCGGCTGG CCAATGTCTA CTTTGTCTTC ATGGCTCTGC TCAACTTCGT GCCGGCGGTG 
AACGCTTTCA AGCCCGAGCT AGCCCTGGCC CCCGTCCTCT TTATTTTGGC GGTGACCGCT 
ATTAAGGACC TGTGGGAGGA TTACCGGAGG TACCGCTCGG ACAAGGAGAT CAACCACATG 
GACTGCCTGG TGTTCTGCAG GAGTGAAAAG AAATATCGTG AAAAGTATTG GAAGGAAGTT 
CAAGTTGGAG ATTTTGTACA ACTACGTTGC AATGAAATAA TTCCCGCTGA TATATTGCTG 
CTATCCTCTA GTGATCCAGA TGGGCTCTGT CACATTGAAA CTGCCAATCT GGATGGAGAA 
ACAAACCTGA AACAAAGACA AGTGTTGAAA GGATTCGTAG AACTGGAATC TGAATTTGAT 
CCAATGACAT TTAAGAGCAT CATTGAATGT GAGAAACCAA ACAATGATTT GACCAGGTTT 
CGTGGTTACA TCCATAAAAA TGGGAAAAAA TCTGGACTTT TTAAGGAAAA CCTTCTTTTG 
CGTGGGTGCA CTATTCGTAA CACAGAAGTT GTGTCTGGCA TTGTTATCTA TGCAGGCCAT 
GAGACCAAAG CTTTGCTAAA CAACAATGGA CCTCGCTACA AACGTAGTAA ACTTGAGAGG 
CAAATGAATA AAGATGTCTT TTGGTGTGTT CTGATCCTCC TTATTATGTG TCTTTTTTCA 
GCTGTTGGAC ATGCTCTCTG GGTCTGGCAA TATGGAGAAA AGCGACCTGT GTTTGATGTT 
TTAGGCTCTG ATGGAAAATA TGTAAAGCCA TTTCTTTCAG CTGTATATTT ATTTTTCACC 
ATGATAATAG TATTGCAGGT GCTTATCCCA GTGTCTTTGT ATGTTTCAAT TGAAATTGTG 
AAAATATGCC AAGTGTATTT CATTCACCAA GATAAAGACT TATATGATGA AGAAACAGAT 
TCCCAACTTC AGTGCAGAGC TCTCAATATT ACTGAAGACT TAGGACAGAT ACAGTATGTT 
TTCTCTGACA AAACTGGAAC ACTTACTGAA AATAAAATGG TTTTCCGAAG GTGCACCGTC 
TCCGGAGTAG AATATTCTCA TGATGATAAT GCAAAACGTC TAGCAATGTA TCAAGAAGCA 
GACTCTGAAG ATGAAGTCAA TGGGCCAAAA ACAGGAACAC TTCCGCGTCG TGATAGTAGT 
GGCAGTCACC ATAGTGTTAA AGCAGCACAC AGAAGCCAAA GTACCAAGAC TCATCGACGT 
ACAGGAAGCA GAGCTGAGGC AATGAAAGCC AACATATTGT CCAAACACAC AGCTTTCAGC 
AGCCCAATGG AAAAGGACAT TACACCAGAC CCAAAATTGC AAGAAAAGGT CAATGAATGT 
GCAAAGACTC TGAAGATTAT GAGAAACCAC AAGCAACCAT TTTCTCAGCT CACTGCAGAA 
CTCTCAGATA TTTTTGACTT TTTTACTGCT TTGACAATTT GCAACACTGT TGTTGTTACT 
TCTCCAAATC AACCACGACA GAAGGTAAGA GTAAGATTTG AACTGAAGTC TCCGGTGAAA 
ACCATAGAGG ACTTTATCCG CAGATTTACA CCCAGCCGTT TAACTTCAGG ATCTAATAGC 
AGCAGTTCAT CCAGCCTTGG AACTAATAAG TCAATGCACA GAGCTGGATC CAGCATCATG 
TCTTCAAGTT CCATTGAAGG CAGTTTTACA AAATTAGAAA GAAAACTTTC CAGCTCTCCA 
CAGATAAATT TTACTGGACT AGGCACTCAG CCAGGTTTTA AAGAACAGGT AGATGGACAT 
GAAGGGGATC TGCGCTTTGA AGCAGAGAGT CCTGATGAAG CTGCTCTTGT ATATGCTTCC 
AGAGCATATA ATTGTGCTCT TGTTGGTAGA CTTTCAGATC AGGTAACTGT AGAGTTACCA 
CATTTGGGTA GGCTAAACTT TGAACTCTTG CATACCCTTG GTTTTGATTC GGTCAGAAAA 
CGAATGTCTG TTGTGGTGAG ACACCCACTT ACAGATGAAA TAGTGGTTTA CGCTAAAGGA 
GCAGATTCCG TTATTCTGGA CCTTATTCAG CCATGCTCTA AAGATGATCG TCTGGGAAAG 
CACCAAAGAA AAATTCAAGC CAAAACTCAA AAGTATTTGA ACTGTTATGC AGTTGATGGT 
TTACGAACTC TGTGTATTGC AAAACGAGTG CTCAGTAAAG AAGAATATGC CTGTTGGCTG 
AAATTTCATT TGCAAGCTGA ATCTTCTTTA GATAATCGTG AAGAACTACT GTTCCAATCT 
GCAGTTCGTC TGGAGACTAA TCTACACTTG CTTGGTGCCA CTGGCATAGA AGATCGTTTA 
CAAGAAGGTG TTCCAGAAAC GATCACAAGG TTACGCAAAG CTGGCATACA GATATGGGTT 
TTAACTGGAG ATAAACAAGA AACTGCTGTA AATATTGGCT ATTCCTGCAA GCTTCTAGAT 
CATGAAGATG ATCTAATCAC TTTGAATGCT GAATCTCTGG AAGAATGTTC TACTTTGCTT 
GAACAATGTT TGCACTACAT ACAATCCAAG TTTTCAAGTG GCTTACAGGA AAAAGTCGTT 
GGAGGGACTG GCATTGACTC TGTCCAACAC AATACTCTTT GGCCTCCAAA TTTAAAGCAA 
TCTAGCCTTG GACTTGTAAT AGATGGAAAA ACCTTGGCCT TTGCGCTAGA TATAACACAG 
TCAGACAAAT TCCTTTTACT TGCTAGAAAA TGCCGTTCAG TTCTTTGTTG TCGTTCTACC 
CCTCTGCAGA AGAGCTTGGT GGTAAAGCTT GTCCGTGATA AGCTCAGAGC TATGACTTTA 
GCAGTAGGGG ATGGAACCAA TGATGTCAGC ATGATACAGG TAGCTGATGT TGGGGTTGGA 
ATCTCTGGTC AAGAAGGAAT GCAGGCAGTA ATGGCAAGTG ATTTTGCTGT TCCAAGGTTT 
CGGCACCTGG AAAAGCTTTT GCTTGTACAT GGTCGATGGT GTTATTCCAG GCTTGCCAAC 
ATGGTCTTGT ATTTCTTCTA TAAGAATGCA ATGTTTGTGG CTCTTCTTTT CTGGTACCAG 
TTCTATTGTG GATTTTCTGG CTCAGCAATG ATTGATCAAT GGTATTTGAT CTTCTTTAAT 
TTATTATTTT CATCCATTCC ACAACTTATC ACTGGAATTT TGGACAAAGA CTTGCCAGCT 
GAATTACTGA CTGCAAATCC CGAGCTCTAT AAAAGTGGAC CCAACATGGA GAGTTTCTTC 
GATTCTGACA TTGATTTATT TACCTGGGGA ACACCAATTG TCACTTGTGC ACTTTTGACA 
ATTATGATGC ACTTGGGAAT GGAAACAAAA ACATGGACAT GGATCAATGT ATCTTCAATT 
GTGTTCAGCA TCCTTTTGTT TTTTACTGTG GCTCTTGTTT ACAATTCATC TTGTCCAACA 
TGCAACCCTC CTTCCAATCC CTATTGGACT ATGCAGAAAT TAATGGCCAA CCCTTTATTT 
TATCTTATTT GCATTTTGTC ACCTGTTACT GCATTGTTGC CAAGGTTTTT ATACAAATCT 
GTCCAGGGAA CTCTGTTTCC AACACAAATT CAACTTGGCC GCAAACTGCT GAGAGCCCAT 
CCAGAGTGCC TTACTGGTAA CTTTAGTATA TTGAAATCCA GCACTGCATC TGAAATGCGA 
AGTAAGACAA CAGAACCAAA TAACACCAGC ATTGCTTTAA ACACAAACCA AAGACAAAAT 
AATATGGATC CTGAGCAAAA TGTCAAGTTT TATTCCTCTC CCAAAGAAGA AAGGAATGAG 
TCAGTCGATC AGAGCTATTG TTCCTGTGAG GATACTTCCA TTTGTGTGAA AGATGAAGCA 
AAAAATACTT CTTTTTACCA TGACTCTTCT GTACTACTTG ACACATTACC CTTGGATGAA 
ACGTTCCAGT GGAACTCAAA GTTAGACCAG TCGGATATCA GTTTAATAAA CTGGATGACA 
TCAACTCCCT TGTTTAAAAA GTATAGCCAA CATTTAAACA GTATTCAGGA CAGTCTGAAA 
GATACTGCCG TTTCACTAGC TGGCTCTTAT TGCCCTAAAG ACCAGGATAG TATTGCCATA 
GGCAATACAC GTTTATGTGA AGATACAGTA ATTAGGACTA GTGGCAATGG GGAAATCCAG 
GAAACAACTT TTTTATGA

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

atp10a ( XM_002931642.5 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002931688.2 Xenopus tropicalis ATPase, class V, type 10A (atp10a), mRNA.

Price & Availability↑

CloneID	OXa52490
Clone ID Related Accession (Same CDS sequence)	XM_002931642.5
Accession Version	XM_002931642.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4479bp) 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	2019-12-17
Organism	Xenopus tropicalis(tropical clawed frog)
Product	probable phospholipid-transporting ATPase VA
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002931642.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGACGG ATGGCGGGGG AGGTGAGCCT AAGTGCCAGG CGGCTAAAGA TGAAGAAGAC 
AACGTGAAGA GAAAGAAAAA GAAGAGGAAA ACACGGAGAG AGAGCAGAGT GAGGACTGTC 
CGCTCTAACC TGCTTCTCTA TGAGTCCGAC AACCCGAACC GGCTCTATGC CGGCAACTCA 
ATCAAAACCA CCAAGTACAC GGCTTTGTCC TTCCTGCCCA AGAACCTCTT CGAGCAGTTC 
CACCGGCTGG CCAATGTCTA CTTTGTCTTC ATGGCTCTGC TCAACTTCGT GCCGGCGGTG 
AACGCTTTCA AGCCCGAGCT AGCCCTGGCC CCCGTCCTCT TTATTTTGGC GGTGACCGCT 
ATTAAGGACC TGTGGGAGGA TTACCGGAGG TACCGCTCGG ACAAGGAGAT CAACCACATG 
GACTGCCTGG TGTTCTGCAG GAGTGAAAAG AAATATCGTG AAAAGTATTG GAAGGAAGTT 
CAAGTTGGAG ATTTTGTACA ACTACGTTGC AATGAAATAA TTCCCGCTGA TATATTGCTG 
CTATCCTCTA GTGATCCAGA TGGGCTCTGT CACATTGAAA CTGCCAATCT GGATGGAGAA 
ACAAACCTGA AACAAAGACA AGTGGTGAAA GGATTCGTAG AACTGGAATC TGAATTTGAT 
CCAATGACAT TTAAGAGCAT CATTGAATGT GAGAAACCAA ACAATGATTT GACCAGGTTT 
CGTGGTTACA TCCATAAAAA TGGGAAAAAA TCTGGACTTT TTAAGGAAAA CCTTCTTTTG 
CGTGGGTGCA CTATTCGTAA CACAGAAGTT GTGTCTGGCA TTGTTATCTA TGCAGGCCAT 
GAGACCAAAG CTTTGCTAAA CAACAATGGA CCTCGCTACA AACGTAGTAA ACTTGAGAGG 
CAAATGAATA AAGATGTCTT TTGGTGTGTT CTGATCCTCC TTATTATGTG TCTTTTTTCA 
GCTGTTGGAC ATGCTCTCTG GGTCTGGCAA TATGGAGAAA AGCGACCTGT GTTTGATGTT 
TTAGGCTCTG ATGGAAAATA TGTAAAGCCA TTTCTTTCAG CTGTATATTT ATTTTTCACC 
ATGATAATAG TATTGCAGGT GCTTATCCCA GTGTCTTTGT ATGTTTCAAT TGAAATTGTG 
AAAATATGCC AAGTGTATTT CATTCACCAA GATAAAGACT TATATGATGA AGAAACAGAT 
TCCCAACTTC AGTGCAGAGC TCTCAATATT ACTGAAGACT TAGGACAGAT ACAGTATGTT 
TTCTCTGACA AAACTGGAAC ACTTACTGAA AATAAAATGG TTTTCCGAAG GTGCACCGTC 
TCCGGAGTAG AATATTCTCA TGATGATAAT GCAAAACGTC TAGCAATGTA TCAAGAAGCA 
GACTCTGAAG ATGAAGTCAA TGGGCCAAAA ACAGGAACAC TTCCGCGTCG TGATAGTAGT 
GGCAGTCACC ATAGTGTTAA AGCAGCACAC AGAAGCCAAA GTACCAAGAC TCATCGACGT 
ACAGGAAGCA GAGCTGAGGC AATGAAAGCC AACATATTGT CCAAACACAC AGCTTTCAGC 
AGCCCAATGG AAAAGGACAT TACACCAGAC CCAAAATTGC AAGAAAAGGT CAATGAATGT 
GCAAAGACTC TGAAGATTAT GAGAAACCAC AAGCAACCAT TTTCTCAGCT CACTGCAGAA 
CTCTCAGATA TTTTTGACTT TTTTACTGCT TTGACAATTT GCAACACTGT TGTTGTTACT 
TCTCCAAATC AACCACGACA GAAGGTAAGA GTAAGATTTG AACTGAAGTC TCCGGTGAAA 
ACCATAGAGG ACTTTATCCG CAGATTTACA CCCAGCCGTT TAACTTCAGG ATCTAATAGC 
AGCAGTTCAT CCAGCCTTGG AACTAATAAG TCAATGCACA GAGCTGGATC CAGCATCATG 
TCTTCAAGTT CCATTGAAGG CAGTTTTACA AAATTAGAAA GAAAACTTTC CAGCTCTCCA 
CAGATAAATT TTACTGGACT AGGCACTCAG CCAGGTTTTA AAGAACAGGT AGATGGACAT 
GAAGGGGATC TGCGCTTTGA AGCAGAGAGT CCTGATGAAG CTGCTCTTGT ATATGCTTCC 
AGAGCATATA ATTGTGCTCT TGTTGGAAGA CTTTCAGATC AGGTAACTGT AGAGTTACCA 
CATTTGGGTA GGCTAAACTT TGAACTTTTG CATACCCTTG GTTTTGATTC GGTCAGAAAA 
CGAATGTCTG TTGTGGTGAG ACACCCACTT ACAGATGAAA TAGTGGTTTA CGCTAAAGGA 
GCAGATTCCG TTATTCTGGA CCTTATTCAG CCATGCTCTA AAGATGATCG TCTGGGAAAG 
CACCAAAGAA AAATTCAAGC CAAAACTCAA AAGTATTTGA ACTGTTATGC AGTTGATGGT 
TTACGAACTC TGTGTATTGC AAAACGAGTG CTCAGTAAAG AAGAATATGC CTGTTGGCTG 
AAATTTCATT TGCAAGCTGA ATCTTCTTTA GATAATCGTG AAGAACTACT GTTCCAATCT 
GCAGTTCGTC TGGAGACTAA TCTACACTTG CTTGGTGCCA CTGGCATAGA AGATCGTTTA 
CAAGAAGGTG TTCCAGAAAC GATCACAAGG TTACGCAAAG CTGGCATACA GATATGGGTT 
TTAACTGGAG ATAAACAAGA AACTGCTGTA AATATTGGCT ATTCCTGCAA GCTTCTAGAT 
CATGAAGATG ATCTAATCAC TTTGAATGCT GAATCTCTGG AAGAATGTTC TACTTTGCTT 
GAACAATGTT TGCACTACAT ACAATCCAAG TTTTCAAGTG GCTTACAGGA AAAAGTCGTT 
GGAGGGACTG GCATTGACTC TGTCCAACAC AATACTCTTT GGCCTCCAAA TTTAAAGCAA 
TCTAGCCTTG GACTTGTAAT AGATGGAAAA ACCTTGGCCT TTGCGCTAGA TATAACACAG 
TCAGACAAAT TCCTTTTACT TGCTAGAAAA TGCCGTTCAG TTCTTTGTTG TCGTTCTACC 
CCTCTGCAGA AGAGCTTGGT GGTAAAGCTT GTCCGTGATA AGCTCAGAGC TATGACTTTA 
GCAGTAGGGG ATGGAACCAA TGATGTCAGC ATGATACAGG TAGCTGATGT TGGGGTTGGA 
ATCTCTGGTC AAGAAGGAAT GCAGGCAGTA ATGGCAAGTG ATTTTGCTGT TCCAAGGTTT 
CGGCACCTGG AAAAGCTTTT GCTTGTACAT GGTCGATGGT GTTATTCCAG GCTTGCCAAC 
ATGGTCTTGT ATTTCTTCTA TAAGAATGCA ATGTTTGTGG CTCTTCTTTT CTGGTACCAG 
TTCTATTGTG GATTTTCTGG CTCAGCAATG ATTGATCAAT GGTATTTGAT CTTCTTTAAT 
TTATTATTTT CATCCATTCC ACAACTTATC ACTGGAATTT TGGACAAAGA CTTGCCAGCT 
GAATTACTGA CTGCAAATCC CGAGCTCTAT AAAAGTGGAC CCAACATGGA GGAATACAAG 
CCACATATGT TTTGGCTTAA TATGATTGAC GCTTTCTACC AAAGCCTTGT ATGTTTTTTC 
ATCCCATATT TTAGTTTCTT CGATTCTGAC ATTGATTTAT TTACCTGGGG AACACCAATT 
GTCACTTGTG CACTTTTGAC AATTATGATG CACTTGGGAA TGGAAACAAA AACATGGACA 
TGGATCAATG TATCTTCAAT TGTGTTCAGC ATCCTTTTGT TTTTTACTGT GGCTCTTGTT 
TACAATTCAT CTTGTCCAAC ATGCAACCCT CCTTCCAATC CCTATTGGAC TATGCAGAAA 
TTAATGGCCA ACCCTTTATT TTATCTTATT TGCATTTTGT CACCTGTTAC TGCATTGTTG 
CCAAGGTTTT TATACAAATC TGTCCAGGGA ACTCTGTTTC CAACACAAAT TCAACTTGGC 
CGCAAACTGC TGAGAGCCCA TCCAGAGTGC CTTACTGGTA ACTTTAGTAT ATTGAAATCC 
AGCACTGCAT CTGAAATGCG AAGTAAGACA ACAGAACCAA ATAACACCAG CATTGCTTTA 
AACACAAACC AAAGACAAAA TAATATGGAT CCTGAGCAAA ATGTCAAGTT TTATTCCTCT 
CCCAAAGAAG AAAGGAATGA GTCAGTCGAT CAGAGCTATT GTTCCTGTGA GGATACTTCC 
ATTTGTGTGA AAGATGAAGC AAAAAATACT TCTTTTTACC ATGACTCTTC TGTACTACTT 
GACACATTAC CCTTGGATGA AACGTTCCAG TGGAACTCAA AGTTAGACCA GTCGGATATC 
AGTTTAATAA ACTGGATGAC ATCAACTCCC TTGTTTAAAA AGTATAGCCA ACATTTAAAC 
AGTATTCAGG ACAGTCTGAA AGATACTGCC GTTTCACTAG CTGGCTCTTA TTGCCCTAAA 
GACCAGGATA GTATTGCCAT AGGCAATACA CGTTTATGTG AAGATACAGT AATTAGGACT 
AGTGGCAATG GGGAAATCCA GGAAACAACT TTTTTATGA

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

RefSeq	XP_002931688.2
CDS	383..4861
Translation	MATDGGGGEPKCQAAKDEEDNVKRKKKKRKTRRESRVRTVRSNLLLYESDNPNRLYAGNSIKTTKYTALSFLPKNLFEQFHRLANVYFVFMALLNFVPAVNAFKPELALAPVLFILAVTAIKDLWEDYRRYRSDKEINHMDCLVFCRSEKKYREKYWKEVQVGDFVQLRCNEIIPADILLLSSSDPDGLCHIETANLDGETNLKQRQVVKGFVELESEFDPMTFKSIIECEKPNNDLTRFRGYIHKNGKKSGLFKENLLLRGCTIRNTEVVSGIVIYAGHETKALLNNNGPRYKRSKLERQMNKDVFWCVLILLIMCLFSAVGHALWVWQYGEKRPVFDVLGSDGKYVKPFLSAVYLFFTMIIVLQVLIPVSLYVSIEIVKICQVYFIHQDKDLYDEETDSQLQCRALNITEDLGQIQYVFSDKTGTLTENKMVFRRCTVSGVEYSHDDNAKRLAMYQEADSEDEVNGPKTGTLPRRDSSGSHHSVKAAHRSQSTKTHRRTGSRAEAMKANILSKHTAFSSPMEKDITPDPKLQEKVNECAKTLKIMRNHKQPFSQLTAELSDIFDFFTALTICNTVVVTSPNQPRQKVRVRFELKSPVKTIEDFIRRFTPSRLTSGSNSSSSSSLGTNKSMHRAGSSIMSSSSIEGSFTKLERKLSSSPQINFTGLGTQPGFKEQVDGHEGDLRFEAESPDEAALVYASRAYNCALVGRLSDQVTVELPHLGRLNFELLHTLGFDSVRKRMSVVVRHPLTDEIVVYAKGADSVILDLIQPCSKDDRLGKHQRKIQAKTQKYLNCYAVDGLRTLCIAKRVLSKEEYACWLKFHLQAESSLDNREELLFQSAVRLETNLHLLGATGIEDRLQEGVPETITRLRKAGIQIWVLTGDKQETAVNIGYSCKLLDHEDDLITLNAESLEECSTLLEQCLHYIQSKFSSGLQEKVVGGTGIDSVQHNTLWPPNLKQSSLGLVIDGKTLAFALDITQSDKFLLLARKCRSVLCCRSTPLQKSLVVKLVRDKLRAMTLAVGDGTNDVSMIQVADVGVGISGQEGMQAVMASDFAVPRFRHLEKLLLVHGRWCYSRLANMVLYFFYKNAMFVALLFWYQFYCGFSGSAMIDQWYLIFFNLLFSSIPQLITGILDKDLPAELLTANPELYKSGPNMEEYKPHMFWLNMIDAFYQSLVCFFIPYFSFFDSDIDLFTWGTPIVTCALLTIMMHLGMETKTWTWINVSSIVFSILLFFTVALVYNSSCPTCNPPSNPYWTMQKLMANPLFYLICILSPVTALLPRFLYKSVQGTLFPTQIQLGRKLLRAHPECLTGNFSILKSSTASEMRSKTTEPNNTSIALNTNQRQNNMDPEQNVKFYSSPKEERNESVDQSYCSCEDTSICVKDEAKNTSFYHDSSVLLDTLPLDETFQWNSKLDQSDISLINWMTSTPLFKKYSQHLNSIQDSLKDTAVSLAGSYCPKDQDSIAIGNTRLCEDTVIRTSGNGEIQETTFL

Target ORF information:

RefSeq Version	XM_002931642.5
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ATPase, class V, type 10A (atp10a), mRNA.

Target ORF information:

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

XM_002931642.5

ORF Insert Sequence:

ATGGCGACGG ATGGCGGGGG AGGTGAGCCT AAGTGCCAGG CGGCTAAAGA TGAAGAAGAC 
AACGTGAAGA GAAAGAAAAA GAAGAGGAAA ACACGGAGAG AGAGCAGAGT GAGGACTGTC 
CGCTCTAACC TGCTTCTCTA TGAGTCCGAC AACCCGAACC GGCTCTATGC CGGCAACTCA 
ATCAAAACCA CCAAGTACAC GGCTTTGTCC TTCCTGCCCA AGAACCTCTT CGAGCAGTTC 
CACCGGCTGG CCAATGTCTA CTTTGTCTTC ATGGCTCTGC TCAACTTCGT GCCGGCGGTG 
AACGCTTTCA AGCCCGAGCT AGCCCTGGCC CCCGTCCTCT TTATTTTGGC GGTGACCGCT 
ATTAAGGACC TGTGGGAGGA TTACCGGAGG TACCGCTCGG ACAAGGAGAT CAACCACATG 
GACTGCCTGG TGTTCTGCAG GAGTGAAAAG AAATATCGTG AAAAGTATTG GAAGGAAGTT 
CAAGTTGGAG ATTTTGTACA ACTACGTTGC AATGAAATAA TTCCCGCTGA TATATTGCTG 
CTATCCTCTA GTGATCCAGA TGGGCTCTGT CACATTGAAA CTGCCAATCT GGATGGAGAA 
ACAAACCTGA AACAAAGACA AGTGGTGAAA GGATTCGTAG AACTGGAATC TGAATTTGAT 
CCAATGACAT TTAAGAGCAT CATTGAATGT GAGAAACCAA ACAATGATTT GACCAGGTTT 
CGTGGTTACA TCCATAAAAA TGGGAAAAAA TCTGGACTTT TTAAGGAAAA CCTTCTTTTG 
CGTGGGTGCA CTATTCGTAA CACAGAAGTT GTGTCTGGCA TTGTTATCTA TGCAGGCCAT 
GAGACCAAAG CTTTGCTAAA CAACAATGGA CCTCGCTACA AACGTAGTAA ACTTGAGAGG 
CAAATGAATA AAGATGTCTT TTGGTGTGTT CTGATCCTCC TTATTATGTG TCTTTTTTCA 
GCTGTTGGAC ATGCTCTCTG GGTCTGGCAA TATGGAGAAA AGCGACCTGT GTTTGATGTT 
TTAGGCTCTG ATGGAAAATA TGTAAAGCCA TTTCTTTCAG CTGTATATTT ATTTTTCACC 
ATGATAATAG TATTGCAGGT GCTTATCCCA GTGTCTTTGT ATGTTTCAAT TGAAATTGTG 
AAAATATGCC AAGTGTATTT CATTCACCAA GATAAAGACT TATATGATGA AGAAACAGAT 
TCCCAACTTC AGTGCAGAGC TCTCAATATT ACTGAAGACT TAGGACAGAT ACAGTATGTT 
TTCTCTGACA AAACTGGAAC ACTTACTGAA AATAAAATGG TTTTCCGAAG GTGCACCGTC 
TCCGGAGTAG AATATTCTCA TGATGATAAT GCAAAACGTC TAGCAATGTA TCAAGAAGCA 
GACTCTGAAG ATGAAGTCAA TGGGCCAAAA ACAGGAACAC TTCCGCGTCG TGATAGTAGT 
GGCAGTCACC ATAGTGTTAA AGCAGCACAC AGAAGCCAAA GTACCAAGAC TCATCGACGT 
ACAGGAAGCA GAGCTGAGGC AATGAAAGCC AACATATTGT CCAAACACAC AGCTTTCAGC 
AGCCCAATGG AAAAGGACAT TACACCAGAC CCAAAATTGC AAGAAAAGGT CAATGAATGT 
GCAAAGACTC TGAAGATTAT GAGAAACCAC AAGCAACCAT TTTCTCAGCT CACTGCAGAA 
CTCTCAGATA TTTTTGACTT TTTTACTGCT TTGACAATTT GCAACACTGT TGTTGTTACT 
TCTCCAAATC AACCACGACA GAAGGTAAGA GTAAGATTTG AACTGAAGTC TCCGGTGAAA 
ACCATAGAGG ACTTTATCCG CAGATTTACA CCCAGCCGTT TAACTTCAGG ATCTAATAGC 
AGCAGTTCAT CCAGCCTTGG AACTAATAAG TCAATGCACA GAGCTGGATC CAGCATCATG 
TCTTCAAGTT CCATTGAAGG CAGTTTTACA AAATTAGAAA GAAAACTTTC CAGCTCTCCA 
CAGATAAATT TTACTGGACT AGGCACTCAG CCAGGTTTTA AAGAACAGGT AGATGGACAT 
GAAGGGGATC TGCGCTTTGA AGCAGAGAGT CCTGATGAAG CTGCTCTTGT ATATGCTTCC 
AGAGCATATA ATTGTGCTCT TGTTGGAAGA CTTTCAGATC AGGTAACTGT AGAGTTACCA 
CATTTGGGTA GGCTAAACTT TGAACTTTTG CATACCCTTG GTTTTGATTC GGTCAGAAAA 
CGAATGTCTG TTGTGGTGAG ACACCCACTT ACAGATGAAA TAGTGGTTTA CGCTAAAGGA 
GCAGATTCCG TTATTCTGGA CCTTATTCAG CCATGCTCTA AAGATGATCG TCTGGGAAAG 
CACCAAAGAA AAATTCAAGC CAAAACTCAA AAGTATTTGA ACTGTTATGC AGTTGATGGT 
TTACGAACTC TGTGTATTGC AAAACGAGTG CTCAGTAAAG AAGAATATGC CTGTTGGCTG 
AAATTTCATT TGCAAGCTGA ATCTTCTTTA GATAATCGTG AAGAACTACT GTTCCAATCT 
GCAGTTCGTC TGGAGACTAA TCTACACTTG CTTGGTGCCA CTGGCATAGA AGATCGTTTA 
CAAGAAGGTG TTCCAGAAAC GATCACAAGG TTACGCAAAG CTGGCATACA GATATGGGTT 
TTAACTGGAG ATAAACAAGA AACTGCTGTA AATATTGGCT ATTCCTGCAA GCTTCTAGAT 
CATGAAGATG ATCTAATCAC TTTGAATGCT GAATCTCTGG AAGAATGTTC TACTTTGCTT 
GAACAATGTT TGCACTACAT ACAATCCAAG TTTTCAAGTG GCTTACAGGA AAAAGTCGTT 
GGAGGGACTG GCATTGACTC TGTCCAACAC AATACTCTTT GGCCTCCAAA TTTAAAGCAA 
TCTAGCCTTG GACTTGTAAT AGATGGAAAA ACCTTGGCCT TTGCGCTAGA TATAACACAG 
TCAGACAAAT TCCTTTTACT TGCTAGAAAA TGCCGTTCAG TTCTTTGTTG TCGTTCTACC 
CCTCTGCAGA AGAGCTTGGT GGTAAAGCTT GTCCGTGATA AGCTCAGAGC TATGACTTTA 
GCAGTAGGGG ATGGAACCAA TGATGTCAGC ATGATACAGG TAGCTGATGT TGGGGTTGGA 
ATCTCTGGTC AAGAAGGAAT GCAGGCAGTA ATGGCAAGTG ATTTTGCTGT TCCAAGGTTT 
CGGCACCTGG AAAAGCTTTT GCTTGTACAT GGTCGATGGT GTTATTCCAG GCTTGCCAAC 
ATGGTCTTGT ATTTCTTCTA TAAGAATGCA ATGTTTGTGG CTCTTCTTTT CTGGTACCAG 
TTCTATTGTG GATTTTCTGG CTCAGCAATG ATTGATCAAT GGTATTTGAT CTTCTTTAAT 
TTATTATTTT CATCCATTCC ACAACTTATC ACTGGAATTT TGGACAAAGA CTTGCCAGCT 
GAATTACTGA CTGCAAATCC CGAGCTCTAT AAAAGTGGAC CCAACATGGA GGAATACAAG 
CCACATATGT TTTGGCTTAA TATGATTGAC GCTTTCTACC AAAGCCTTGT ATGTTTTTTC 
ATCCCATATT TTAGTTTCTT CGATTCTGAC ATTGATTTAT TTACCTGGGG AACACCAATT 
GTCACTTGTG CACTTTTGAC AATTATGATG CACTTGGGAA TGGAAACAAA AACATGGACA 
TGGATCAATG TATCTTCAAT TGTGTTCAGC ATCCTTTTGT TTTTTACTGT GGCTCTTGTT 
TACAATTCAT CTTGTCCAAC ATGCAACCCT CCTTCCAATC CCTATTGGAC TATGCAGAAA 
TTAATGGCCA ACCCTTTATT TTATCTTATT TGCATTTTGT CACCTGTTAC TGCATTGTTG 
CCAAGGTTTT TATACAAATC TGTCCAGGGA ACTCTGTTTC CAACACAAAT TCAACTTGGC 
CGCAAACTGC TGAGAGCCCA TCCAGAGTGC CTTACTGGTA ACTTTAGTAT ATTGAAATCC 
AGCACTGCAT CTGAAATGCG AAGTAAGACA ACAGAACCAA ATAACACCAG CATTGCTTTA 
AACACAAACC AAAGACAAAA TAATATGGAT CCTGAGCAAA ATGTCAAGTT TTATTCCTCT 
CCCAAAGAAG AAAGGAATGA GTCAGTCGAT CAGAGCTATT GTTCCTGTGA GGATACTTCC 
ATTTGTGTGA AAGATGAAGC AAAAAATACT TCTTTTTACC ATGACTCTTC TGTACTACTT 
GACACATTAC CCTTGGATGA AACGTTCCAG TGGAACTCAA AGTTAGACCA GTCGGATATC 
AGTTTAATAA ACTGGATGAC ATCAACTCCC TTGTTTAAAA AGTATAGCCA ACATTTAAAC 
AGTATTCAGG ACAGTCTGAA AGATACTGCC GTTTCACTAG CTGGCTCTTA TTGCCCTAAA 
GACCAGGATA GTATTGCCAT AGGCAATACA CGTTTATGTG AAGATACAGT AATTAGGACT 
AGTGGCAATG GGGAAATCCA GGAAACAACT TTTTTATGA

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

atp10a ( XM_002931642.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002931688.1 Xenopus tropicalis ATPase, class V, type 10A (atp10a), transcript variant X1, mRNA.

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CloneID	OXa05874
Clone ID Related Accession (Same CDS sequence)	XM_002931642.4
Accession Version	XM_002931642.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4479bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-09-07
Organism	Xenopus tropicalis(tropical clawed frog)
Product	probable phospholipid-transporting ATPase VA isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002931642.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGACGG ATGGCGGGGG AGGTGAGCCT AAGTGCCAGG TGGCTAAAGA TGAAGAAGAC 
AACGTGAAGA GAAAGAAAAA GAAGAGGAAA ACACGGAGAG AGAGCAGAGT GAGGACTGTC 
CGCTCTAACC TGCTTCTCTA TGAGTCCGAC AACCCGAACC GGCTCTATGC CGGCAACTCA 
ATCAAAACCA CCAAGTACAC GGCTTTGTCC TTCCTGCCCA AGAACCTCTT CGAGCAGTTC 
CACCGGCTGG CCAATGTCTA CTTTGTCTTC ATGGCTCTGC TCAACTTCGT GCCGGCGGTG 
AACGCTTTCA AGCCCGAGCT AGCCCTGGCC CCCGTCCTCT TTATTTTGGC GGTGACCGCT 
ATTAAGGACC TGTGGGAGGA TTACCGGAGG TACCGCTCGG ACAAGGAGAT CAACCACATG 
GACTGCCTGG TGTTCTGCAG GAGTGAAAAG AAATATCGTG AAAAGTATTG GAAGGAAGTT 
CAAGTTGGAG ATTTTGTACA ACTACGTTGC AATGAAATAA TTCCCGCTGA TATATTGCTG 
CTATCCTCTA GTGATCCAGA TGGGCTCTGT CACATTGAAA CTGCCAATCT GGATGGAGAA 
ACAAACCTGA AACAAAGACA AGTGTTGAAA GGATTCGTAG AACTGGAATC TGAATTTGAT 
CCAATGACAT TTAAGAGCAT CATTGAATGT GAGAAACCAA ACAATGATTT GACCAGGTTT 
CGTGGTTACA TCCATAAAAA TGGGAAAAAA TCTGGACTTT TTAAGGAAAA CCTTCTTTTG 
CGTGGGTGCA CTATTCGTAA CACAGAAGTT GTGTCTGGCA TTGTTATCTA TGCAGGCCAT 
GAGACCAAAG CTTTGCTAAA CAACAATGGA CCTCGCTACA AACGTAGTAA ACTTGAGAGG 
CAAATGAATA AAGATGTCTT TTGGTGTGTT CTGATCCTCC TTATTATGTG TCTTTTTTCA 
GCTGTTGGAC ATGCTCTCTG GGTCTGGCAA TATGGAGAAA AGCGACCTGT GTTTGATGTT 
TTAGGCTCTG ATGGAAAATA TGTAAAGCCA TTTCTTTCAG CTGTATATTT ATTTTTCACC 
ATGATAATAG TATTGCAGGT GCTTATCCCA GTGTCTTTGT ATGTTTCAAT TGAAATTGTG 
AAAATATGCC AAGTGTATTT CATTCACCAA GATAAAGACT TATATGATGA AGAAACAGAT 
TCCCAACTTC AGTGCAGAGC TCTCAATATT ACTGAAGACT TAGGACAGAT ACAGTATGTT 
TTCTCTGACA AAACTGGAAC ACTTACTGAA AATAAAATGG TTTTCCGAAG GTGCACCGTC 
TCCGGAGTAG AATATTCTCA TGATGATAAT GCAAAACGTC TAGCAATGTA TCAAGAAGCA 
GACTCTGAAG ATGAAGTCAA TGGGCCAAAA ACAGGAACAC TTCCGCGTCG TGATAGTAGT 
GGCAGTCACC ATAGTGTTAA AGCAGCACAC AGAAGCCAAA GTACCAAGAC TCATCGACGT 
ACAGGAAGCA GAGCTGAGGC AATGAAAGCC AACATATTGT CCAAACACAC AGCTTTCAGC 
AGCCCAATGG AAAAGGACAT TACACCAGAC CCAAAATTGC AAGAAAAGGT CAATGAATGT 
GCAAAGACTC TGAAGATTAT GAGAAACCAC AAGCAACCAT TTTCTCAGCT CACTGCAGAA 
CTCTCAGATA TTTTTGACTT TTTTACTGCT TTGACAATTT GCAACACTGT TGTTGTTACT 
TCTCCAAATC AACCACGACA GAAGGTAAGA GTAAGATTTG AACTGAAGTC TCCGGTGAAA 
ACCATAGAGG ACTTTATCCG CAGATTTACA CCCAGCCGTT TAACTTCAGG ATCTAATAGC 
AGCAGTTCAT CCAGCCTTGG AACTAATAAG TCAATGCACA GAGCTGGATC CAGCATCATG 
TCTTCAAGTT CCATTGAAGG CAGTTTTACA AAATTAGAAA GAAAACTTTC CAGCTCTCCA 
CAGATAAATT TTACTGGACT AGGCACTCAG CCAGGTTTTA AAGAACAGGT AGATGGACAT 
GAAGGGGATC TGCGCTTTGA AGCAGAGAGT CCTGATGAAG CTGCTCTTGT ATATGCTTCC 
AGAGCATATA ATTGTGCTCT TGTTGGTAGA CTTTCAGATC AGGTAACTGT AGAGTTACCA 
CATTTGGGTA GGCTAAACTT TGAACTCTTG CATACCCTTG GTTTTGATTC GGTCAGAAAA 
CGAATGTCTG TTGTGGTGAG ACACCCACTT ACAGATGAAA TAGTGGTTTA CGCTAAAGGA 
GCAGATTCCG TTATTCTGGA CCTTATTCAG CCATGCTCTA AAGATGATCG TCTGGGAAAG 
CACCAAAGAA AAATTCAAGC CAAAACTCAA AAGTATTTGA ACTGTTATGC AGTTGATGGT 
TTACGAACTC TGTGTATTGC AAAACGAGTG CTCAGTAAAG AAGAATATGC CTGTTGGCTG 
AAATTTCATT TGCAAGCTGA ATCTTCTTTA GATAATCGTG AAGAACTACT GTTCCAATCT 
GCAGTTCGTC TGGAGACTAA TCTACACTTG CTTGGTGCCA CTGGCATAGA AGATCGTTTA 
CAAGAAGGTG TTCCAGAAAC GATCACAAGG TTACGCAAAG CTGGCATACA GATATGGGTT 
TTAACTGGAG ATAAACAAGA AACTGCTGTA AATATTGGCT ATTCCTGCAA GCTTCTAGAT 
CATGAAGATG ATCTAATCAC TTTGAATGCT GAATCTCTGG AAGAATGTTC TACTTTGCTT 
GAACAATGTT TGCACTACAT ACAATCCAAG TTTTCAAGTG GCTTACAGGA AAAAGTCGTT 
GGAGGGACTG GCATTGACTC TGTCCAACAC AATACTCTTT GGCCTCCAAA TTTAAAGCAA 
TCTAGCCTTG GACTTGTAAT AGATGGAAAA ACCTTGGCCT TTGCGCTAGA TATAACACAG 
TCAGACAAAT TCCTTTTACT TGCTAGAAAA TGCCGTTCAG TTCTTTGTTG TCGTTCTACC 
CCTCTGCAGA AGAGCTTGGT GGTAAAGCTT GTCCGTGATA AGCTCAGAGC TATGACTTTA 
GCAGTAGGGG ATGGAACCAA TGATGTCAGC ATGATACAGG TAGCTGATGT TGGGGTTGGA 
ATCTCTGGTC AAGAAGGAAT GCAGGCAGTA ATGGCAAGTG ATTTTGCTGT TCCAAGGTTT 
CGGCACCTGG AAAAGCTTTT GCTTGTACAT GGTCGATGGT GTTATTCCAG GCTTGCCAAC 
ATGGTCTTGT ATTTCTTCTA TAAGAATGCA ATGTTTGTGG CTCTTCTTTT CTGGTACCAG 
TTCTATTGTG GATTTTCTGG CTCAGCAATG ATTGATCAAT GGTATTTGAT CTTCTTTAAT 
TTATTATTTT CATCCATTCC ACAACTTATC ACTGGAATTT TGGACAAAGA CTTGCCAGCT 
GAATTACTGA CTGCAAATCC CGAGCTCTAT AAAAGTGGAC CCAACATGGA GGAATACAAG 
CCACATATGT TTTGGCTTAA TATGATTGAC GCTTTCTACC AAAGCCTTGT ATGTTTTTTC 
ATCCCATATT TTAGTTTCTT CGATTCTGAC ATTGATTTAT TTACCTGGGG AACACCAATT 
GTCACTTGTG CACTTTTGAC AATTATGATG CACTTGGGAA TGGAAACAAA AACATGGACA 
TGGATCAATG TATCTTCAAT TGTGTTCAGC ATCCTTTTGT TTTTTACTGT GGCTCTTGTT 
TACAATTCAT CTTGTCCAAC ATGCAACCCT CCTTCCAATC CCTATTGGAC TATGCAGAAA 
TTAATGGCCA ACCCTTTATT TTATCTTATT TGCATTTTGT CACCTGTTAC TGCATTGTTG 
CCAAGGTTTT TATACAAATC TGTCCAGGGA ACTCTGTTTC CAACACAAAT TCAACTTGGC 
CGCAAACTGC TGAGAGCCCA TCCAGAGTGC CTTACTGGTA ACTTTAGTAT ATTGAAATCC 
AGCACTGCAT CTGAAATGCG AAGTAAGACA ACAGAACCAA ATAACACCAG CATTGCTTTA 
AACACAAACC AAAGACAAAA TAATATGGAT CCTGAGCAAA ATGTCAAGTT TTATTCCTCT 
CCCAAAGAAG AAAGGAATGA GTCAGTCGAT CAGAGCTATT GTTCCTGTGA GGATACTTCC 
ATTTGTGTGA AAGATGAAGC AAAAAATACT TCTTTTTACC ATGACTCTTC TGTACTACTT 
GACACATTAC CCTTGGATGA AACGTTCCAG TGGAACTCAA AGTTAGACCA GTCGGATATC 
AGTTTAATAA ACTGGATGAC ATCAACTCCC TTGTTTAAAA AGTATAGCCA ACATTTAAAC 
AGTATTCAGG ACAGTCTGAA AGATACTGCC GTTTCACTAG CTGGCTCTTA TTGCCCTAAA 
GACCAGGATA GTATTGCCAT AGGCAATACA CGTTTATGTG AAGATACAGT AATTAGGACT 
AGTGGCAATG GGGAAATCCA GGAAACAACT TTTTTATGA

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

RefSeq	XP_002931688.1
CDS	408..4886
Translation	MATDGGGGEPKCQVAKDEEDNVKRKKKKRKTRRESRVRTVRSNLLLYESDNPNRLYAGNSIKTTKYTALSFLPKNLFEQFHRLANVYFVFMALLNFVPAVNAFKPELALAPVLFILAVTAIKDLWEDYRRYRSDKEINHMDCLVFCRSEKKYREKYWKEVQVGDFVQLRCNEIIPADILLLSSSDPDGLCHIETANLDGETNLKQRQVLKGFVELESEFDPMTFKSIIECEKPNNDLTRFRGYIHKNGKKSGLFKENLLLRGCTIRNTEVVSGIVIYAGHETKALLNNNGPRYKRSKLERQMNKDVFWCVLILLIMCLFSAVGHALWVWQYGEKRPVFDVLGSDGKYVKPFLSAVYLFFTMIIVLQVLIPVSLYVSIEIVKICQVYFIHQDKDLYDEETDSQLQCRALNITEDLGQIQYVFSDKTGTLTENKMVFRRCTVSGVEYSHDDNAKRLAMYQEADSEDEVNGPKTGTLPRRDSSGSHHSVKAAHRSQSTKTHRRTGSRAEAMKANILSKHTAFSSPMEKDITPDPKLQEKVNECAKTLKIMRNHKQPFSQLTAELSDIFDFFTALTICNTVVVTSPNQPRQKVRVRFELKSPVKTIEDFIRRFTPSRLTSGSNSSSSSSLGTNKSMHRAGSSIMSSSSIEGSFTKLERKLSSSPQINFTGLGTQPGFKEQVDGHEGDLRFEAESPDEAALVYASRAYNCALVGRLSDQVTVELPHLGRLNFELLHTLGFDSVRKRMSVVVRHPLTDEIVVYAKGADSVILDLIQPCSKDDRLGKHQRKIQAKTQKYLNCYAVDGLRTLCIAKRVLSKEEYACWLKFHLQAESSLDNREELLFQSAVRLETNLHLLGATGIEDRLQEGVPETITRLRKAGIQIWVLTGDKQETAVNIGYSCKLLDHEDDLITLNAESLEECSTLLEQCLHYIQSKFSSGLQEKVVGGTGIDSVQHNTLWPPNLKQSSLGLVIDGKTLAFALDITQSDKFLLLARKCRSVLCCRSTPLQKSLVVKLVRDKLRAMTLAVGDGTNDVSMIQVADVGVGISGQEGMQAVMASDFAVPRFRHLEKLLLVHGRWCYSRLANMVLYFFYKNAMFVALLFWYQFYCGFSGSAMIDQWYLIFFNLLFSSIPQLITGILDKDLPAELLTANPELYKSGPNMEEYKPHMFWLNMIDAFYQSLVCFFIPYFSFFDSDIDLFTWGTPIVTCALLTIMMHLGMETKTWTWINVSSIVFSILLFFTVALVYNSSCPTCNPPSNPYWTMQKLMANPLFYLICILSPVTALLPRFLYKSVQGTLFPTQIQLGRKLLRAHPECLTGNFSILKSSTASEMRSKTTEPNNTSIALNTNQRQNNMDPEQNVKFYSSPKEERNESVDQSYCSCEDTSICVKDEAKNTSFYHDSSVLLDTLPLDETFQWNSKLDQSDISLINWMTSTPLFKKYSQHLNSIQDSLKDTAVSLAGSYCPKDQDSIAIGNTRLCEDTVIRTSGNGEIQETTFL

Target ORF information:

RefSeq Version	XM_002931642.4
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis ATPase, class V, type 10A (atp10a), transcript variant X1, mRNA.

Target ORF information:

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

XM_002931642.4

ORF Insert Sequence:

ATGGCGACGG ATGGCGGGGG AGGTGAGCCT AAGTGCCAGG TGGCTAAAGA TGAAGAAGAC 
AACGTGAAGA GAAAGAAAAA GAAGAGGAAA ACACGGAGAG AGAGCAGAGT GAGGACTGTC 
CGCTCTAACC TGCTTCTCTA TGAGTCCGAC AACCCGAACC GGCTCTATGC CGGCAACTCA 
ATCAAAACCA CCAAGTACAC GGCTTTGTCC TTCCTGCCCA AGAACCTCTT CGAGCAGTTC 
CACCGGCTGG CCAATGTCTA CTTTGTCTTC ATGGCTCTGC TCAACTTCGT GCCGGCGGTG 
AACGCTTTCA AGCCCGAGCT AGCCCTGGCC CCCGTCCTCT TTATTTTGGC GGTGACCGCT 
ATTAAGGACC TGTGGGAGGA TTACCGGAGG TACCGCTCGG ACAAGGAGAT CAACCACATG 
GACTGCCTGG TGTTCTGCAG GAGTGAAAAG AAATATCGTG AAAAGTATTG GAAGGAAGTT 
CAAGTTGGAG ATTTTGTACA ACTACGTTGC AATGAAATAA TTCCCGCTGA TATATTGCTG 
CTATCCTCTA GTGATCCAGA TGGGCTCTGT CACATTGAAA CTGCCAATCT GGATGGAGAA 
ACAAACCTGA AACAAAGACA AGTGTTGAAA GGATTCGTAG AACTGGAATC TGAATTTGAT 
CCAATGACAT TTAAGAGCAT CATTGAATGT GAGAAACCAA ACAATGATTT GACCAGGTTT 
CGTGGTTACA TCCATAAAAA TGGGAAAAAA TCTGGACTTT TTAAGGAAAA CCTTCTTTTG 
CGTGGGTGCA CTATTCGTAA CACAGAAGTT GTGTCTGGCA TTGTTATCTA TGCAGGCCAT 
GAGACCAAAG CTTTGCTAAA CAACAATGGA CCTCGCTACA AACGTAGTAA ACTTGAGAGG 
CAAATGAATA AAGATGTCTT TTGGTGTGTT CTGATCCTCC TTATTATGTG TCTTTTTTCA 
GCTGTTGGAC ATGCTCTCTG GGTCTGGCAA TATGGAGAAA AGCGACCTGT GTTTGATGTT 
TTAGGCTCTG ATGGAAAATA TGTAAAGCCA TTTCTTTCAG CTGTATATTT ATTTTTCACC 
ATGATAATAG TATTGCAGGT GCTTATCCCA GTGTCTTTGT ATGTTTCAAT TGAAATTGTG 
AAAATATGCC AAGTGTATTT CATTCACCAA GATAAAGACT TATATGATGA AGAAACAGAT 
TCCCAACTTC AGTGCAGAGC TCTCAATATT ACTGAAGACT TAGGACAGAT ACAGTATGTT 
TTCTCTGACA AAACTGGAAC ACTTACTGAA AATAAAATGG TTTTCCGAAG GTGCACCGTC 
TCCGGAGTAG AATATTCTCA TGATGATAAT GCAAAACGTC TAGCAATGTA TCAAGAAGCA 
GACTCTGAAG ATGAAGTCAA TGGGCCAAAA ACAGGAACAC TTCCGCGTCG TGATAGTAGT 
GGCAGTCACC ATAGTGTTAA AGCAGCACAC AGAAGCCAAA GTACCAAGAC TCATCGACGT 
ACAGGAAGCA GAGCTGAGGC AATGAAAGCC AACATATTGT CCAAACACAC AGCTTTCAGC 
AGCCCAATGG AAAAGGACAT TACACCAGAC CCAAAATTGC AAGAAAAGGT CAATGAATGT 
GCAAAGACTC TGAAGATTAT GAGAAACCAC AAGCAACCAT TTTCTCAGCT CACTGCAGAA 
CTCTCAGATA TTTTTGACTT TTTTACTGCT TTGACAATTT GCAACACTGT TGTTGTTACT 
TCTCCAAATC AACCACGACA GAAGGTAAGA GTAAGATTTG AACTGAAGTC TCCGGTGAAA 
ACCATAGAGG ACTTTATCCG CAGATTTACA CCCAGCCGTT TAACTTCAGG ATCTAATAGC 
AGCAGTTCAT CCAGCCTTGG AACTAATAAG TCAATGCACA GAGCTGGATC CAGCATCATG 
TCTTCAAGTT CCATTGAAGG CAGTTTTACA AAATTAGAAA GAAAACTTTC CAGCTCTCCA 
CAGATAAATT TTACTGGACT AGGCACTCAG CCAGGTTTTA AAGAACAGGT AGATGGACAT 
GAAGGGGATC TGCGCTTTGA AGCAGAGAGT CCTGATGAAG CTGCTCTTGT ATATGCTTCC 
AGAGCATATA ATTGTGCTCT TGTTGGTAGA CTTTCAGATC AGGTAACTGT AGAGTTACCA 
CATTTGGGTA GGCTAAACTT TGAACTCTTG CATACCCTTG GTTTTGATTC GGTCAGAAAA 
CGAATGTCTG TTGTGGTGAG ACACCCACTT ACAGATGAAA TAGTGGTTTA CGCTAAAGGA 
GCAGATTCCG TTATTCTGGA CCTTATTCAG CCATGCTCTA AAGATGATCG TCTGGGAAAG 
CACCAAAGAA AAATTCAAGC CAAAACTCAA AAGTATTTGA ACTGTTATGC AGTTGATGGT 
TTACGAACTC TGTGTATTGC AAAACGAGTG CTCAGTAAAG AAGAATATGC CTGTTGGCTG 
AAATTTCATT TGCAAGCTGA ATCTTCTTTA GATAATCGTG AAGAACTACT GTTCCAATCT 
GCAGTTCGTC TGGAGACTAA TCTACACTTG CTTGGTGCCA CTGGCATAGA AGATCGTTTA 
CAAGAAGGTG TTCCAGAAAC GATCACAAGG TTACGCAAAG CTGGCATACA GATATGGGTT 
TTAACTGGAG ATAAACAAGA AACTGCTGTA AATATTGGCT ATTCCTGCAA GCTTCTAGAT 
CATGAAGATG ATCTAATCAC TTTGAATGCT GAATCTCTGG AAGAATGTTC TACTTTGCTT 
GAACAATGTT TGCACTACAT ACAATCCAAG TTTTCAAGTG GCTTACAGGA AAAAGTCGTT 
GGAGGGACTG GCATTGACTC TGTCCAACAC AATACTCTTT GGCCTCCAAA TTTAAAGCAA 
TCTAGCCTTG GACTTGTAAT AGATGGAAAA ACCTTGGCCT TTGCGCTAGA TATAACACAG 
TCAGACAAAT TCCTTTTACT TGCTAGAAAA TGCCGTTCAG TTCTTTGTTG TCGTTCTACC 
CCTCTGCAGA AGAGCTTGGT GGTAAAGCTT GTCCGTGATA AGCTCAGAGC TATGACTTTA 
GCAGTAGGGG ATGGAACCAA TGATGTCAGC ATGATACAGG TAGCTGATGT TGGGGTTGGA 
ATCTCTGGTC AAGAAGGAAT GCAGGCAGTA ATGGCAAGTG ATTTTGCTGT TCCAAGGTTT 
CGGCACCTGG AAAAGCTTTT GCTTGTACAT GGTCGATGGT GTTATTCCAG GCTTGCCAAC 
ATGGTCTTGT ATTTCTTCTA TAAGAATGCA ATGTTTGTGG CTCTTCTTTT CTGGTACCAG 
TTCTATTGTG GATTTTCTGG CTCAGCAATG ATTGATCAAT GGTATTTGAT CTTCTTTAAT 
TTATTATTTT CATCCATTCC ACAACTTATC ACTGGAATTT TGGACAAAGA CTTGCCAGCT 
GAATTACTGA CTGCAAATCC CGAGCTCTAT AAAAGTGGAC CCAACATGGA GGAATACAAG 
CCACATATGT TTTGGCTTAA TATGATTGAC GCTTTCTACC AAAGCCTTGT ATGTTTTTTC 
ATCCCATATT TTAGTTTCTT CGATTCTGAC ATTGATTTAT TTACCTGGGG AACACCAATT 
GTCACTTGTG CACTTTTGAC AATTATGATG CACTTGGGAA TGGAAACAAA AACATGGACA 
TGGATCAATG TATCTTCAAT TGTGTTCAGC ATCCTTTTGT TTTTTACTGT GGCTCTTGTT 
TACAATTCAT CTTGTCCAAC ATGCAACCCT CCTTCCAATC CCTATTGGAC TATGCAGAAA 
TTAATGGCCA ACCCTTTATT TTATCTTATT TGCATTTTGT CACCTGTTAC TGCATTGTTG 
CCAAGGTTTT TATACAAATC TGTCCAGGGA ACTCTGTTTC CAACACAAAT TCAACTTGGC 
CGCAAACTGC TGAGAGCCCA TCCAGAGTGC CTTACTGGTA ACTTTAGTAT ATTGAAATCC 
AGCACTGCAT CTGAAATGCG AAGTAAGACA ACAGAACCAA ATAACACCAG CATTGCTTTA 
AACACAAACC AAAGACAAAA TAATATGGAT CCTGAGCAAA ATGTCAAGTT TTATTCCTCT 
CCCAAAGAAG AAAGGAATGA GTCAGTCGAT CAGAGCTATT GTTCCTGTGA GGATACTTCC 
ATTTGTGTGA AAGATGAAGC AAAAAATACT TCTTTTTACC ATGACTCTTC TGTACTACTT 
GACACATTAC CCTTGGATGA AACGTTCCAG TGGAACTCAA AGTTAGACCA GTCGGATATC 
AGTTTAATAA ACTGGATGAC ATCAACTCCC TTGTTTAAAA AGTATAGCCA ACATTTAAAC 
AGTATTCAGG ACAGTCTGAA AGATACTGCC GTTTCACTAG CTGGCTCTTA TTGCCCTAAA 
GACCAGGATA GTATTGCCAT AGGCAATACA CGTTTATGTG AAGATACAGT AATTAGGACT 
AGTGGCAATG GGGAAATCCA GGAAACAACT TTTTTATGA

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

PubMed

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03-6811-6572

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オンライン注文

atp10a cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene

Clones

gRNAs

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:

見積依頼

Eメール

電話

FAX

オンラインフォーム

サポート

会社情報

サポート

会社情報