ATP2B1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	ATP2B1
Entrez Gene ID	100465354
Full Name	ATPase plasma membrane Ca2+ transporting 1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011232988.2	XP_011231290.1	plasma membrane calcium-transporting ATPase 1 isoform X2
XM_019806456.1	XP_019662015.1	plasma membrane calcium-transporting ATPase 1 isoform X1
XM_019806457.1	XP_019662016.1	plasma membrane calcium-transporting ATPase 1 isoform X3

Pathways from BioSystems
Gene Ontology

The following ATP2B1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP2B1 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)
OAc12906	XM_011232988.2 Latest version!	Ailuropoda melanoleuca ATPase plasma membrane Ca2+ transporting 1 (ATP2B1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc97347	XM_019806456.1 Latest version!	Ailuropoda melanoleuca ATPase plasma membrane Ca2+ transporting 1 (ATP2B1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc97348	XM_019806457.1 Latest version!	Ailuropoda melanoleuca ATPase plasma membrane Ca2+ transporting 1 (ATP2B1), transcript variant X3, 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)
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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)

ATP2B1 ( XM_011232988.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011231290.1 Ailuropoda melanoleuca ATPase plasma membrane Ca2+ transporting 1 (ATP2B1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc12906
Clone ID Related Accession (Same CDS sequence)	XM_011232988.2
Accession Version	XM_011232988.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3663bp) 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	plasma membrane calcium-transporting ATPase 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218280.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232988.1. ##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##

ATGGGCGACA TGGCAAACAA CTCACTTGCG TATAGTGGAG TAAAAAACTC TTTGAAGGAA 
GCTAATCATG ACGGAGACTT TGGAATCACG CTCGCAGAGC TGCGGGCTCT CATGGAGCTC 
AGGTCTACAG ATGCATTACG AAAAATACAG GAAAGCTATG GAGACGTCTA TGGAATTTGC 
AGCAGGTTGA AAACATCTCC CAATGAAGGT TTAAGTGGAA ACCCTGCAGA TATAGAGAGA 
AGAGAAGCAG TGTTTGGAAA GAATTTTATA CCTCCTAAAA AGCCAAAAAC CTTTCTTCAG 
TTAGTATGGG AAGCATTACA AGATGTCACT TTAATTATAC TAGAAATCGC AGCCATAGTA 
TCATTGGGCC TTTCTTTTTA TCAACCTCCA GAAGGGGATA ATGCACTTTG TGGAGAAGTT 
TCTGTTGGAG AGGAAGAAGG TGAAGGTGAA ACCGGTTGGA TTGAAGGCGC TGCCATCCTG 
TTGTCAGTAG TGTGTGTGGT ATTAGTAACA GCTTTCAATG ACTGGAGTAA AGAGAAACAA 
TTTCGAGGTT TGCAGAGTCG AATTGAACAA GAACAGAAGT TCACAGTCAT CAGGGGCGGT 
CAGGTCATTC AGATACCTGT AGCTGACATC ACCGTTGGAG ACATTGCTCA GGTGAAATAT 
GGTGATCTTC TTCCAGCTGA TGGCATTCTG ATTCAAGGCA ATGATCTTAA AATTGATGAA 
AGCTCATTGA CTGGTGAATC TGATCATGTT AAGAAGTCTT TAGATAAGGA TCCCTTACTG 
TTATCAGGTA CCCATGTAAT GGAAGGCTCC GGAAGAATGG TCGTTACTGC TGTAGGTGTT 
AATTCTCAAA CTGGAATCAT CTTTACCTTA CTTGGAGCTG GAGGTGAAGA GGAAGAAAAG 
AAAGATGAAA AGAAAAAGGA AAAGAAAAAT AAGAAACAAG ATGGAGCTAT TGAGAATCGC 
AACAAAGCAA AAGCCCAGGA TGGTGCAGCC ATGGAAATGC AGCCTTTGAA GAGTGAAGAA 
GGTGGAGATG GTGATGAAAA AGACAAAAAG AAAGCAAATT TGCCAAAAAA GGAAAAATCT 
GTCTTACAAG GGAAACTTAC AAAGCTGGCT GTTCAAATTG GCAAAGCAGG TTTGTTGATG 
TCTGCCATCA CAGTTATCAT TCTAGTATTG TATTTTGTCA TTGATACATT CTGGGTTCAG 
AAGAGACCGT GGCTTGCGGA GTGCACCCCG ATTTACATAC AATATTTTGT GAAGTTCTTC 
ATCATTGGAG TCACGGTTCT GGTGGTTGCC GTACCAGAGG GTCTTCCCCT TGCTGTCACT 
ATCTCCCTGG CTTACTCAGT CAAGAAAATG ATGAAAGATA ATAACTTAGT AAGGCATCTG 
GACGCTTGTG AAACCATGGG AAACGCTACA GCTATTTGTT CAGATAAAAC AGGGACATTG 
ACAATGAACA GAATGACGGT GGTTCAAGCT TACATAAATG AAAAACACTA TAAAAAGATT 
CCTGAACCAG AAGCTATTCC ACCAAATATT TTATCCTATC TTGTAACAGG AATTTCTGTG 
AATTGTGCTT ATACATCAAA AATATTGCCA CCAGAGAAAG AGGGTGGATT ACCTCGTCAT 
GTTGGTAATA AAACTGAATG TGCCTTGTTG GGACTTCTTT TGGATTTAAA ACGAGATTAT 
CAGGATGTTA GAAATGAAAT ACCAGAAGAA GCACTGTACA AAGTCTACAC CTTCAATTCT 
GTTAGGAAGT CCATGAGTAC TGTCCTGAAA AATTCAGATG GAAGTTATCG AATATTCAGC 
AAGGGTGCAT CTGAGATAAT TCTGAAAAAG TGTTTCAAAA TCTTGAGTGC TAATGGTGAG 
GCAAAAGTAT TCAGACCAAG GGACCGTGAT GATATTGTAA AAACGGTGAT TGAACCGATG 
GCATCAGAAG GCTTGAGAAC CATATGTCTT GCATTCAGAG ATTTCCCAGC AGGAGAACCC 
GAACCAGAGT GGGATAATGA AAATGATATT GTCACCGGCC TTACGTGCAT TGCTGTTGTG 
GGGATCGAAG ACCCTGTGAG ACCTGAGGTA CCAGAGGCCA TAAAGAAATG TCAGAGGGCT 
GGAATTACTG TGCGGATGGT CACTGGTGAT AATATTAATA CTGCTCGGGC GATTGCCACC 
AAATGTGGTA TTTTACATCC TGGTGAAGAT TTTCTGTGCC TAGAAGGTAA AGATTTCAAC 
AGAAGAATAC GAAATGAAAA AGGAGAGATT GAGCAAGAGC GGATAGACAA GATTTGGCCA 
AAGCTTCGAG TACTTGCAAG ATCATCTCCT ACTGACAAAC ATACACTGGT TAAAGGTATA 
ATTGATAGCA CTGTGTCAGA ACAACGCCAG GTTGTAGCTG TAACTGGTGA TGGTACAAAT 
GATGGCCCAG CACTAAAGAA AGCTGATGTT GGATTTGCGA TGGGTATCGC TGGAACTGAC 
GTAGCTAAAG AAGCATCTGA TATCATTCTC ACAGATGACA ACTTTACAAG CATTGTTAAA 
GCAGTTATGT GGGGACGAAA TGTCTATGAC AGCATCTCAA AATTTCTTCA GTTCCAGCTC 
ACTGTTAATG TGGTAGCAGT GATAGTTGCT TTCACGGGCG CCTGTATTAC TCAAGATTCA 
CCGCTTAAGG CTGTGCAGAT GCTGTGGGTA AACCTCATAA TGGATACGCT CGCTTCCCTG 
GCTCTGGCAA CCGAACCCCC CACTGAATCT CTCTTGCTTC GGAAGCCTTA TGGTAGAAAT 
AAGCCTCTCA TCTCACGCAC GATGATGAAG AATATTTTGG GTCATGCATT CTATCAACTT 
GTAGTAGTCT TTACACTCTT ATTTGCTGGA GAAAAGTTTT TTGATATTGA TAGCGGAAGA 
AATGCTCCTT TGCACGCTCC TCCTTCGGAA CATTATACTA TTGTTTTTAA TACCTTTGTG 
CTGATGCAAC TTTTCAACGA AATAAATGCC CGGAAAATTC ACGGTGAAAG AAATGTGTTC 
GAAGGAATCT TTAATAATGC CATCTTCTGC ACAATTGTTT TAGGCACTTT TGTGGTACAG 
ATAATAATTG TGCAGTTTGG TGGAAAACCT TTCAGTTGTT CAGAACTTTC AATAGAACAG 
TGGCTATGGT CAATATTCCT AGGAATGGGA ACGTTACTCT GGGGCCAGCT TATTTCAACA 
ATTCCAACTA GCCGTTTAAA ATTCCTAAAA GAAGCTGGTC ATGGTACACA AAAGGAGGAA 
ATCCCAGAGG AGGAGCTCGC AGAAGACGTG GAGGAGATTG ACCATGCGGA GAGGGAGCTG 
CGTCGCGGCC AGATCTTGTG GTTTAGAGGT CTGAACAGAA TCCAAACGCA GATTCGAGTG 
GTGAATGCAT TTCGTAGTTC TTTGTATGAA GGGTTAGAGA AACCGGAATC AAGAAGTTCG 
ATTCACAACT TCATGACACA TCCTGAGTTT AGGATAGAAG ATTCAGAGCC TCACATCCCC 
CTTATTGATG ACACTGATGC TGAAGATGAC GCTCCTACGA AACGTAACCC CAGCCCTCCC 
CCCTCTCCCA ACAAGAATAA CAATGCTGTG GACAGCGGGA TCCACCTTAC AATAGAAATG 
AACACGTCTG CTACCTCTTC ATCCCCAGGA AGCCCACTAC ATAGTTTGGA AACATCACTC 
TGA

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

RefSeq	XP_011231290.1
CDS	288..3950
Translation	MGDMANNSLAYSGVKNSLKEANHDGDFGITLAELRALMELRSTDALRKIQESYGDVYGICSRLKTSPNEGLSGNPADIERREAVFGKNFIPPKKPKTFLQLVWEALQDVTLIILEIAAIVSLGLSFYQPPEGDNALCGEVSVGEEEGEGETGWIEGAAILLSVVCVVLVTAFNDWSKEKQFRGLQSRIEQEQKFTVIRGGQVIQIPVADITVGDIAQVKYGDLLPADGILIQGNDLKIDESSLTGESDHVKKSLDKDPLLLSGTHVMEGSGRMVVTAVGVNSQTGIIFTLLGAGGEEEEKKDEKKKEKKNKKQDGAIENRNKAKAQDGAAMEMQPLKSEEGGDGDEKDKKKANLPKKEKSVLQGKLTKLAVQIGKAGLLMSAITVIILVLYFVIDTFWVQKRPWLAECTPIYIQYFVKFFIIGVTVLVVAVPEGLPLAVTISLAYSVKKMMKDNNLVRHLDACETMGNATAICSDKTGTLTMNRMTVVQAYINEKHYKKIPEPEAIPPNILSYLVTGISVNCAYTSKILPPEKEGGLPRHVGNKTECALLGLLLDLKRDYQDVRNEIPEEALYKVYTFNSVRKSMSTVLKNSDGSYRIFSKGASEIILKKCFKILSANGEAKVFRPRDRDDIVKTVIEPMASEGLRTICLAFRDFPAGEPEPEWDNENDIVTGLTCIAVVGIEDPVRPEVPEAIKKCQRAGITVRMVTGDNINTARAIATKCGILHPGEDFLCLEGKDFNRRIRNEKGEIEQERIDKIWPKLRVLARSSPTDKHTLVKGIIDSTVSEQRQVVAVTGDGTNDGPALKKADVGFAMGIAGTDVAKEASDIILTDDNFTSIVKAVMWGRNVYDSISKFLQFQLTVNVVAVIVAFTGACITQDSPLKAVQMLWVNLIMDTLASLALATEPPTESLLLRKPYGRNKPLISRTMMKNILGHAFYQLVVVFTLLFAGEKFFDIDSGRNAPLHAPPSEHYTIVFNTFVLMQLFNEINARKIHGERNVFEGIFNNAIFCTIVLGTFVVQIIIVQFGGKPFSCSELSIEQWLWSIFLGMGTLLWGQLISTIPTSRLKFLKEAGHGTQKEEIPEEELAEDVEEIDHAERELRRGQILWFRGLNRIQTQIRVVNAFRSSLYEGLEKPESRSSIHNFMTHPEFRIEDSEPHIPLIDDTDAEDDAPTKRNPSPPPSPNKNNNAVDSGIHLTIEMNTSATSSSPGSPLHSLETSL

Target ORF information:

RefSeq Version	XM_011232988.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca ATPase plasma membrane Ca2+ transporting 1 (ATP2B1), transcript variant X2, mRNA.

Target ORF information:

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

XM_011232988.2

ORF Insert Sequence:

ATGGGCGACA TGGCAAACAA CTCACTTGCG TATAGTGGAG TAAAAAACTC TTTGAAGGAA 
GCTAATCATG ACGGAGACTT TGGAATCACG CTCGCAGAGC TGCGGGCTCT CATGGAGCTC 
AGGTCTACAG ATGCATTACG AAAAATACAG GAAAGCTATG GAGACGTCTA TGGAATTTGC 
AGCAGGTTGA AAACATCTCC CAATGAAGGT TTAAGTGGAA ACCCTGCAGA TATAGAGAGA 
AGAGAAGCAG TGTTTGGAAA GAATTTTATA CCTCCTAAAA AGCCAAAAAC CTTTCTTCAG 
TTAGTATGGG AAGCATTACA AGATGTCACT TTAATTATAC TAGAAATCGC AGCCATAGTA 
TCATTGGGCC TTTCTTTTTA TCAACCTCCA GAAGGGGATA ATGCACTTTG TGGAGAAGTT 
TCTGTTGGAG AGGAAGAAGG TGAAGGTGAA ACCGGTTGGA TTGAAGGCGC TGCCATCCTG 
TTGTCAGTAG TGTGTGTGGT ATTAGTAACA GCTTTCAATG ACTGGAGTAA AGAGAAACAA 
TTTCGAGGTT TGCAGAGTCG AATTGAACAA GAACAGAAGT TCACAGTCAT CAGGGGCGGT 
CAGGTCATTC AGATACCTGT AGCTGACATC ACCGTTGGAG ACATTGCTCA GGTGAAATAT 
GGTGATCTTC TTCCAGCTGA TGGCATTCTG ATTCAAGGCA ATGATCTTAA AATTGATGAA 
AGCTCATTGA CTGGTGAATC TGATCATGTT AAGAAGTCTT TAGATAAGGA TCCCTTACTG 
TTATCAGGTA CCCATGTAAT GGAAGGCTCC GGAAGAATGG TCGTTACTGC TGTAGGTGTT 
AATTCTCAAA CTGGAATCAT CTTTACCTTA CTTGGAGCTG GAGGTGAAGA GGAAGAAAAG 
AAAGATGAAA AGAAAAAGGA AAAGAAAAAT AAGAAACAAG ATGGAGCTAT TGAGAATCGC 
AACAAAGCAA AAGCCCAGGA TGGTGCAGCC ATGGAAATGC AGCCTTTGAA GAGTGAAGAA 
GGTGGAGATG GTGATGAAAA AGACAAAAAG AAAGCAAATT TGCCAAAAAA GGAAAAATCT 
GTCTTACAAG GGAAACTTAC AAAGCTGGCT GTTCAAATTG GCAAAGCAGG TTTGTTGATG 
TCTGCCATCA CAGTTATCAT TCTAGTATTG TATTTTGTCA TTGATACATT CTGGGTTCAG 
AAGAGACCGT GGCTTGCGGA GTGCACCCCG ATTTACATAC AATATTTTGT GAAGTTCTTC 
ATCATTGGAG TCACGGTTCT GGTGGTTGCC GTACCAGAGG GTCTTCCCCT TGCTGTCACT 
ATCTCCCTGG CTTACTCAGT CAAGAAAATG ATGAAAGATA ATAACTTAGT AAGGCATCTG 
GACGCTTGTG AAACCATGGG AAACGCTACA GCTATTTGTT CAGATAAAAC AGGGACATTG 
ACAATGAACA GAATGACGGT GGTTCAAGCT TACATAAATG AAAAACACTA TAAAAAGATT 
CCTGAACCAG AAGCTATTCC ACCAAATATT TTATCCTATC TTGTAACAGG AATTTCTGTG 
AATTGTGCTT ATACATCAAA AATATTGCCA CCAGAGAAAG AGGGTGGATT ACCTCGTCAT 
GTTGGTAATA AAACTGAATG TGCCTTGTTG GGACTTCTTT TGGATTTAAA ACGAGATTAT 
CAGGATGTTA GAAATGAAAT ACCAGAAGAA GCACTGTACA AAGTCTACAC CTTCAATTCT 
GTTAGGAAGT CCATGAGTAC TGTCCTGAAA AATTCAGATG GAAGTTATCG AATATTCAGC 
AAGGGTGCAT CTGAGATAAT TCTGAAAAAG TGTTTCAAAA TCTTGAGTGC TAATGGTGAG 
GCAAAAGTAT TCAGACCAAG GGACCGTGAT GATATTGTAA AAACGGTGAT TGAACCGATG 
GCATCAGAAG GCTTGAGAAC CATATGTCTT GCATTCAGAG ATTTCCCAGC AGGAGAACCC 
GAACCAGAGT GGGATAATGA AAATGATATT GTCACCGGCC TTACGTGCAT TGCTGTTGTG 
GGGATCGAAG ACCCTGTGAG ACCTGAGGTA CCAGAGGCCA TAAAGAAATG TCAGAGGGCT 
GGAATTACTG TGCGGATGGT CACTGGTGAT AATATTAATA CTGCTCGGGC GATTGCCACC 
AAATGTGGTA TTTTACATCC TGGTGAAGAT TTTCTGTGCC TAGAAGGTAA AGATTTCAAC 
AGAAGAATAC GAAATGAAAA AGGAGAGATT GAGCAAGAGC GGATAGACAA GATTTGGCCA 
AAGCTTCGAG TACTTGCAAG ATCATCTCCT ACTGACAAAC ATACACTGGT TAAAGGTATA 
ATTGATAGCA CTGTGTCAGA ACAACGCCAG GTTGTAGCTG TAACTGGTGA TGGTACAAAT 
GATGGCCCAG CACTAAAGAA AGCTGATGTT GGATTTGCGA TGGGTATCGC TGGAACTGAC 
GTAGCTAAAG AAGCATCTGA TATCATTCTC ACAGATGACA ACTTTACAAG CATTGTTAAA 
GCAGTTATGT GGGGACGAAA TGTCTATGAC AGCATCTCAA AATTTCTTCA GTTCCAGCTC 
ACTGTTAATG TGGTAGCAGT GATAGTTGCT TTCACGGGCG CCTGTATTAC TCAAGATTCA 
CCGCTTAAGG CTGTGCAGAT GCTGTGGGTA AACCTCATAA TGGATACGCT CGCTTCCCTG 
GCTCTGGCAA CCGAACCCCC CACTGAATCT CTCTTGCTTC GGAAGCCTTA TGGTAGAAAT 
AAGCCTCTCA TCTCACGCAC GATGATGAAG AATATTTTGG GTCATGCATT CTATCAACTT 
GTAGTAGTCT TTACACTCTT ATTTGCTGGA GAAAAGTTTT TTGATATTGA TAGCGGAAGA 
AATGCTCCTT TGCACGCTCC TCCTTCGGAA CATTATACTA TTGTTTTTAA TACCTTTGTG 
CTGATGCAAC TTTTCAACGA AATAAATGCC CGGAAAATTC ACGGTGAAAG AAATGTGTTC 
GAAGGAATCT TTAATAATGC CATCTTCTGC ACAATTGTTT TAGGCACTTT TGTGGTACAG 
ATAATAATTG TGCAGTTTGG TGGAAAACCT TTCAGTTGTT CAGAACTTTC AATAGAACAG 
TGGCTATGGT CAATATTCCT AGGAATGGGA ACGTTACTCT GGGGCCAGCT TATTTCAACA 
ATTCCAACTA GCCGTTTAAA ATTCCTAAAA GAAGCTGGTC ATGGTACACA AAAGGAGGAA 
ATCCCAGAGG AGGAGCTCGC AGAAGACGTG GAGGAGATTG ACCATGCGGA GAGGGAGCTG 
CGTCGCGGCC AGATCTTGTG GTTTAGAGGT CTGAACAGAA TCCAAACGCA GATTCGAGTG 
GTGAATGCAT TTCGTAGTTC TTTGTATGAA GGGTTAGAGA AACCGGAATC AAGAAGTTCG 
ATTCACAACT TCATGACACA TCCTGAGTTT AGGATAGAAG ATTCAGAGCC TCACATCCCC 
CTTATTGATG ACACTGATGC TGAAGATGAC GCTCCTACGA AACGTAACCC CAGCCCTCCC 
CCCTCTCCCA ACAAGAATAA CAATGCTGTG GACAGCGGGA TCCACCTTAC AATAGAAATG 
AACACGTCTG CTACCTCTTC ATCCCCAGGA AGCCCACTAC ATAGTTTGGA AACATCACTC 
TGA

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

ATP2B1 ( XM_019806456.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019662015.1 Ailuropoda melanoleuca ATPase plasma membrane Ca2+ transporting 1 (ATP2B1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc97347
Clone ID Related Accession (Same CDS sequence)	XM_019806456.1
Accession Version	XM_019806456.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3750bp) 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	plasma membrane calcium-transporting ATPase 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218280.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##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##

ATGGGCGACA TGGCAAACAA CTCACTTGCG TATAGTGGAG TAAAAAACTC TTTGAAGGAA 
GCTAATCATG ACGGAGACTT TGGAATCACG CTCGCAGAGC TGCGGGCTCT CATGGAGCTC 
AGGTCTACAG ATGCATTACG AAAAATACAG GAAAGCTATG GAGACGTCTA TGGAATTTGC 
AGCAGGTTGA AAACATCTCC CAATGAAGGT TTAAGTGGAA ACCCTGCAGA TATAGAGAGA 
AGAGAAGCAG TGTTTGGAAA GAATTTTATA CCTCCTAAAA AGCCAAAAAC CTTTCTTCAG 
TTAGTATGGG AAGCATTACA AGATGTCACT TTAATTATAC TAGAAATCGC AGCCATAGTA 
TCATTGGGCC TTTCTTTTTA TCAACCTCCA GAAGGGGATA ATGCACTTTG TGGAGAAGTT 
TCTGTTGGAG AGGAAGAAGG TGAAGGTGAA ACCGGTTGGA TTGAAGGCGC TGCCATCCTG 
TTGTCAGTAG TGTGTGTGGT ATTAGTAACA GCTTTCAATG ACTGGAGTAA AGAGAAACAA 
TTTCGAGGTT TGCAGAGTCG AATTGAACAA GAACAGAAGT TCACAGTCAT CAGGGGCGGT 
CAGGTCATTC AGATACCTGT AGCTGACATC ACCGTTGGAG ACATTGCTCA GGTGAAATAT 
GGTGATCTTC TTCCAGCTGA TGGCATTCTG ATTCAAGGCA ATGATCTTAA AATTGATGAA 
AGCTCATTGA CTGGTGAATC TGATCATGTT AAGAAGTCTT TAGATAAGGA TCCCTTACTG 
TTATCAGGTA CCCATGTAAT GGAAGGCTCC GGAAGAATGG TCGTTACTGC TGTAGGTGTT 
AATTCTCAAA CTGGAATCAT CTTTACCTTA CTTGGAGCTG GAGGTGAAGA GGAAGAAAAG 
AAAGATGAAA AGAAAAAGGA AAAGAAAAAT AAGAAACAAG ATGGAGCTAT TGAGAATCGC 
AACAAAGCAA AAGCCCAGGA TGGTGCAGCC ATGGAAATGC AGCCTTTGAA GAGTGAAGAA 
GGTGGAGATG GTGATGAAAA AGACAAAAAG AAAGCAAATT TGCCAAAAAA GGAAAAATCT 
GTCTTACAAG GGAAACTTAC AAAGCTGGCT GTTCAAATTG GCAAAGCAGG TTTGTTGATG 
TCTGCCATCA CAGTTATCAT TCTAGTATTG TATTTTGTCA TTGATACATT CTGGGTTCAG 
AAGAGACCGT GGCTTGCGGA GTGCACCCCG ATTTACATAC AATATTTTGT GAAGTTCTTC 
ATCATTGGAG TCACGGTTCT GGTGGTTGCC GTACCAGAGG GTCTTCCCCT TGCTGTCACT 
ATCTCCCTGG CTTACTCAGT CAAGAAAATG ATGAAAGATA ATAACTTAGT AAGGCATCTG 
GACGCTTGTG AAACCATGGG AAACGCTACA GCTATTTGTT CAGATAAAAC AGGGACATTG 
ACAATGAACA GAATGACGGT GGTTCAAGCT TACATAAATG AAAAACACTA TAAAAAGATT 
CCTGAACCAG AAGCTATTCC ACCAAATATT TTATCCTATC TTGTAACAGG AATTTCTGTG 
AATTGTGCTT ATACATCAAA AATATTGCCA CCAGAGAAAG AGGGTGGATT ACCTCGTCAT 
GTTGGTAATA AAACTGAATG TGCCTTGTTG GGACTTCTTT TGGATTTAAA ACGAGATTAT 
CAGGATGTTA GAAATGAAAT ACCAGAAGAA GCACTGTACA AAGTCTACAC CTTCAATTCT 
GTTAGGAAGT CCATGAGTAC TGTCCTGAAA AATTCAGATG GAAGTTATCG AATATTCAGC 
AAGGGTGCAT CTGAGATAAT TCTGAAAAAG TGTTTCAAAA TCTTGAGTGC TAATGGTGAG 
GCAAAAGTAT TCAGACCAAG GGACCGTGAT GATATTGTAA AAACGGTGAT TGAACCGATG 
GCATCAGAAG GCTTGAGAAC CATATGTCTT GCATTCAGAG ATTTCCCAGC AGGAGAACCC 
GAACCAGAGT GGGATAATGA AAATGATATT GTCACCGGCC TTACGTGCAT TGCTGTTGTG 
GGGATCGAAG ACCCTGTGAG ACCTGAGGTA CCAGAGGCCA TAAAGAAATG TCAGAGGGCT 
GGAATTACTG TGCGGATGGT CACTGGTGAT AATATTAATA CTGCTCGGGC GATTGCCACC 
AAATGTGGTA TTTTACATCC TGGTGAAGAT TTTCTGTGCC TAGAAGGTAA AGATTTCAAC 
AGAAGAATAC GAAATGAAAA AGGAGAGATT GAGCAAGAGC GGATAGACAA GATTTGGCCA 
AAGCTTCGAG TACTTGCAAG ATCATCTCCT ACTGACAAAC ATACACTGGT TAAAGGTATA 
ATTGATAGCA CTGTGTCAGA ACAACGCCAG GTTGTAGCTG TAACTGGTGA TGGTACAAAT 
GATGGCCCAG CACTAAAGAA AGCTGATGTT GGATTTGCGA TGGGTATCGC TGGAACTGAC 
GTAGCTAAAG AAGCATCTGA TATCATTCTC ACAGATGACA ACTTTACAAG CATTGTTAAA 
GCAGTTATGT GGGGACGAAA TGTCTATGAC AGCATCTCAA AATTTCTTCA GTTCCAGCTC 
ACTGTTAATG TGGTAGCAGT GATAGTTGCT TTCACGGGCG CCTGTATTAC TCAAGATTCA 
CCGCTTAAGG CTGTGCAGAT GCTGTGGGTA AACCTCATAA TGGATACGCT CGCTTCCCTG 
GCTCTGGCAA CCGAACCCCC CACTGAATCT CTCTTGCTTC GGAAGCCTTA TGGTAGAAAT 
AAGCCTCTCA TCTCACGCAC GATGATGAAG AATATTTTGG GTCATGCATT CTATCAACTT 
GTAGTAGTCT TTACACTCTT ATTTGCTGGA GAAAAGTTTT TTGATATTGA TAGCGGAAGA 
AATGCTCCTT TGCACGCTCC TCCTTCGGAA CATTATACTA TTGTTTTTAA TACCTTTGTG 
CTGATGCAAC TTTTCAACGA AATAAATGCC CGGAAAATTC ACGGTGAAAG AAATGTGTTC 
GAAGGAATCT TTAATAATGC CATCTTCTGC ACAATTGTTT TAGGCACTTT TGTGGTACAG 
ATAATAATTG TGCAGTTTGG TGGAAAACCT TTCAGTTGTT CAGAACTTTC AATAGAACAG 
TGGCTATGGT CAATATTCCT AGGAATGGGA ACGTTACTCT GGGGCCAGCT TATTTCAACA 
ATTCCAACTA GCCGTTTAAA ATTCCTAAAA GAAGCTGGTC ATGGTACACA AAAGGAGGAA 
ATCCCAGAGG AGGAGCTCGC AGAAGACGTG GAGGAGATTG ACCATGCGGA GAGGGAGCTG 
CGTCGCGGCC AGATCTTGTG GTTTAGAGGT CTGAACAGAA TCCAAACGCA GATGGATGTA 
GTGAATGCTT TCCAGAGTGG AAGTTCCATT CAGGGGGCTC TAAGGCGGCA ACCCTCCATC 
GCCAGCCAGC ATCATGATAT TCGAGTGGTG AATGCATTTC GTAGTTCTTT GTATGAAGGG 
TTAGAGAAAC CGGAATCAAG AAGTTCGATT CACAACTTCA TGACACATCC TGAGTTTAGG 
ATAGAAGATT CAGAGCCTCA CATCCCCCTT ATTGATGACA CTGATGCTGA AGATGACGCT 
CCTACGAAAC GTAACCCCAG CCCTCCCCCC TCTCCCAACA AGAATAACAA TGCTGTGGAC 
AGCGGGATCC ACCTTACAAT AGAAATGAAC ACGTCTGCTA CCTCTTCATC CCCAGGAAGC 
CCACTACATA GTTTGGAAAC ATCACTCTGA

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

RefSeq	XP_019662015.1
CDS	288..4037
Translation	MGDMANNSLAYSGVKNSLKEANHDGDFGITLAELRALMELRSTDALRKIQESYGDVYGICSRLKTSPNEGLSGNPADIERREAVFGKNFIPPKKPKTFLQLVWEALQDVTLIILEIAAIVSLGLSFYQPPEGDNALCGEVSVGEEEGEGETGWIEGAAILLSVVCVVLVTAFNDWSKEKQFRGLQSRIEQEQKFTVIRGGQVIQIPVADITVGDIAQVKYGDLLPADGILIQGNDLKIDESSLTGESDHVKKSLDKDPLLLSGTHVMEGSGRMVVTAVGVNSQTGIIFTLLGAGGEEEEKKDEKKKEKKNKKQDGAIENRNKAKAQDGAAMEMQPLKSEEGGDGDEKDKKKANLPKKEKSVLQGKLTKLAVQIGKAGLLMSAITVIILVLYFVIDTFWVQKRPWLAECTPIYIQYFVKFFIIGVTVLVVAVPEGLPLAVTISLAYSVKKMMKDNNLVRHLDACETMGNATAICSDKTGTLTMNRMTVVQAYINEKHYKKIPEPEAIPPNILSYLVTGISVNCAYTSKILPPEKEGGLPRHVGNKTECALLGLLLDLKRDYQDVRNEIPEEALYKVYTFNSVRKSMSTVLKNSDGSYRIFSKGASEIILKKCFKILSANGEAKVFRPRDRDDIVKTVIEPMASEGLRTICLAFRDFPAGEPEPEWDNENDIVTGLTCIAVVGIEDPVRPEVPEAIKKCQRAGITVRMVTGDNINTARAIATKCGILHPGEDFLCLEGKDFNRRIRNEKGEIEQERIDKIWPKLRVLARSSPTDKHTLVKGIIDSTVSEQRQVVAVTGDGTNDGPALKKADVGFAMGIAGTDVAKEASDIILTDDNFTSIVKAVMWGRNVYDSISKFLQFQLTVNVVAVIVAFTGACITQDSPLKAVQMLWVNLIMDTLASLALATEPPTESLLLRKPYGRNKPLISRTMMKNILGHAFYQLVVVFTLLFAGEKFFDIDSGRNAPLHAPPSEHYTIVFNTFVLMQLFNEINARKIHGERNVFEGIFNNAIFCTIVLGTFVVQIIIVQFGGKPFSCSELSIEQWLWSIFLGMGTLLWGQLISTIPTSRLKFLKEAGHGTQKEEIPEEELAEDVEEIDHAERELRRGQILWFRGLNRIQTQMDVVNAFQSGSSIQGALRRQPSIASQHHDIRVVNAFRSSLYEGLEKPESRSSIHNFMTHPEFRIEDSEPHIPLIDDTDAEDDAPTKRNPSPPPSPNKNNNAVDSGIHLTIEMNTSATSSSPGSPLHSLETSL

Target ORF information:

RefSeq Version	XM_019806456.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca ATPase plasma membrane Ca2+ transporting 1 (ATP2B1), transcript variant X1, mRNA.

Target ORF information:

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

XM_019806456.1

ORF Insert Sequence:

ATGGGCGACA TGGCAAACAA CTCACTTGCG TATAGTGGAG TAAAAAACTC TTTGAAGGAA 
GCTAATCATG ACGGAGACTT TGGAATCACG CTCGCAGAGC TGCGGGCTCT CATGGAGCTC 
AGGTCTACAG ATGCATTACG AAAAATACAG GAAAGCTATG GAGACGTCTA TGGAATTTGC 
AGCAGGTTGA AAACATCTCC CAATGAAGGT TTAAGTGGAA ACCCTGCAGA TATAGAGAGA 
AGAGAAGCAG TGTTTGGAAA GAATTTTATA CCTCCTAAAA AGCCAAAAAC CTTTCTTCAG 
TTAGTATGGG AAGCATTACA AGATGTCACT TTAATTATAC TAGAAATCGC AGCCATAGTA 
TCATTGGGCC TTTCTTTTTA TCAACCTCCA GAAGGGGATA ATGCACTTTG TGGAGAAGTT 
TCTGTTGGAG AGGAAGAAGG TGAAGGTGAA ACCGGTTGGA TTGAAGGCGC TGCCATCCTG 
TTGTCAGTAG TGTGTGTGGT ATTAGTAACA GCTTTCAATG ACTGGAGTAA AGAGAAACAA 
TTTCGAGGTT TGCAGAGTCG AATTGAACAA GAACAGAAGT TCACAGTCAT CAGGGGCGGT 
CAGGTCATTC AGATACCTGT AGCTGACATC ACCGTTGGAG ACATTGCTCA GGTGAAATAT 
GGTGATCTTC TTCCAGCTGA TGGCATTCTG ATTCAAGGCA ATGATCTTAA AATTGATGAA 
AGCTCATTGA CTGGTGAATC TGATCATGTT AAGAAGTCTT TAGATAAGGA TCCCTTACTG 
TTATCAGGTA CCCATGTAAT GGAAGGCTCC GGAAGAATGG TCGTTACTGC TGTAGGTGTT 
AATTCTCAAA CTGGAATCAT CTTTACCTTA CTTGGAGCTG GAGGTGAAGA GGAAGAAAAG 
AAAGATGAAA AGAAAAAGGA AAAGAAAAAT AAGAAACAAG ATGGAGCTAT TGAGAATCGC 
AACAAAGCAA AAGCCCAGGA TGGTGCAGCC ATGGAAATGC AGCCTTTGAA GAGTGAAGAA 
GGTGGAGATG GTGATGAAAA AGACAAAAAG AAAGCAAATT TGCCAAAAAA GGAAAAATCT 
GTCTTACAAG GGAAACTTAC AAAGCTGGCT GTTCAAATTG GCAAAGCAGG TTTGTTGATG 
TCTGCCATCA CAGTTATCAT TCTAGTATTG TATTTTGTCA TTGATACATT CTGGGTTCAG 
AAGAGACCGT GGCTTGCGGA GTGCACCCCG ATTTACATAC AATATTTTGT GAAGTTCTTC 
ATCATTGGAG TCACGGTTCT GGTGGTTGCC GTACCAGAGG GTCTTCCCCT TGCTGTCACT 
ATCTCCCTGG CTTACTCAGT CAAGAAAATG ATGAAAGATA ATAACTTAGT AAGGCATCTG 
GACGCTTGTG AAACCATGGG AAACGCTACA GCTATTTGTT CAGATAAAAC AGGGACATTG 
ACAATGAACA GAATGACGGT GGTTCAAGCT TACATAAATG AAAAACACTA TAAAAAGATT 
CCTGAACCAG AAGCTATTCC ACCAAATATT TTATCCTATC TTGTAACAGG AATTTCTGTG 
AATTGTGCTT ATACATCAAA AATATTGCCA CCAGAGAAAG AGGGTGGATT ACCTCGTCAT 
GTTGGTAATA AAACTGAATG TGCCTTGTTG GGACTTCTTT TGGATTTAAA ACGAGATTAT 
CAGGATGTTA GAAATGAAAT ACCAGAAGAA GCACTGTACA AAGTCTACAC CTTCAATTCT 
GTTAGGAAGT CCATGAGTAC TGTCCTGAAA AATTCAGATG GAAGTTATCG AATATTCAGC 
AAGGGTGCAT CTGAGATAAT TCTGAAAAAG TGTTTCAAAA TCTTGAGTGC TAATGGTGAG 
GCAAAAGTAT TCAGACCAAG GGACCGTGAT GATATTGTAA AAACGGTGAT TGAACCGATG 
GCATCAGAAG GCTTGAGAAC CATATGTCTT GCATTCAGAG ATTTCCCAGC AGGAGAACCC 
GAACCAGAGT GGGATAATGA AAATGATATT GTCACCGGCC TTACGTGCAT TGCTGTTGTG 
GGGATCGAAG ACCCTGTGAG ACCTGAGGTA CCAGAGGCCA TAAAGAAATG TCAGAGGGCT 
GGAATTACTG TGCGGATGGT CACTGGTGAT AATATTAATA CTGCTCGGGC GATTGCCACC 
AAATGTGGTA TTTTACATCC TGGTGAAGAT TTTCTGTGCC TAGAAGGTAA AGATTTCAAC 
AGAAGAATAC GAAATGAAAA AGGAGAGATT GAGCAAGAGC GGATAGACAA GATTTGGCCA 
AAGCTTCGAG TACTTGCAAG ATCATCTCCT ACTGACAAAC ATACACTGGT TAAAGGTATA 
ATTGATAGCA CTGTGTCAGA ACAACGCCAG GTTGTAGCTG TAACTGGTGA TGGTACAAAT 
GATGGCCCAG CACTAAAGAA AGCTGATGTT GGATTTGCGA TGGGTATCGC TGGAACTGAC 
GTAGCTAAAG AAGCATCTGA TATCATTCTC ACAGATGACA ACTTTACAAG CATTGTTAAA 
GCAGTTATGT GGGGACGAAA TGTCTATGAC AGCATCTCAA AATTTCTTCA GTTCCAGCTC 
ACTGTTAATG TGGTAGCAGT GATAGTTGCT TTCACGGGCG CCTGTATTAC TCAAGATTCA 
CCGCTTAAGG CTGTGCAGAT GCTGTGGGTA AACCTCATAA TGGATACGCT CGCTTCCCTG 
GCTCTGGCAA CCGAACCCCC CACTGAATCT CTCTTGCTTC GGAAGCCTTA TGGTAGAAAT 
AAGCCTCTCA TCTCACGCAC GATGATGAAG AATATTTTGG GTCATGCATT CTATCAACTT 
GTAGTAGTCT TTACACTCTT ATTTGCTGGA GAAAAGTTTT TTGATATTGA TAGCGGAAGA 
AATGCTCCTT TGCACGCTCC TCCTTCGGAA CATTATACTA TTGTTTTTAA TACCTTTGTG 
CTGATGCAAC TTTTCAACGA AATAAATGCC CGGAAAATTC ACGGTGAAAG AAATGTGTTC 
GAAGGAATCT TTAATAATGC CATCTTCTGC ACAATTGTTT TAGGCACTTT TGTGGTACAG 
ATAATAATTG TGCAGTTTGG TGGAAAACCT TTCAGTTGTT CAGAACTTTC AATAGAACAG 
TGGCTATGGT CAATATTCCT AGGAATGGGA ACGTTACTCT GGGGCCAGCT TATTTCAACA 
ATTCCAACTA GCCGTTTAAA ATTCCTAAAA GAAGCTGGTC ATGGTACACA AAAGGAGGAA 
ATCCCAGAGG AGGAGCTCGC AGAAGACGTG GAGGAGATTG ACCATGCGGA GAGGGAGCTG 
CGTCGCGGCC AGATCTTGTG GTTTAGAGGT CTGAACAGAA TCCAAACGCA GATGGATGTA 
GTGAATGCTT TCCAGAGTGG AAGTTCCATT CAGGGGGCTC TAAGGCGGCA ACCCTCCATC 
GCCAGCCAGC ATCATGATAT TCGAGTGGTG AATGCATTTC GTAGTTCTTT GTATGAAGGG 
TTAGAGAAAC CGGAATCAAG AAGTTCGATT CACAACTTCA TGACACATCC TGAGTTTAGG 
ATAGAAGATT CAGAGCCTCA CATCCCCCTT ATTGATGACA CTGATGCTGA AGATGACGCT 
CCTACGAAAC GTAACCCCAG CCCTCCCCCC TCTCCCAACA AGAATAACAA TGCTGTGGAC 
AGCGGGATCC ACCTTACAAT AGAAATGAAC ACGTCTGCTA CCTCTTCATC CCCAGGAAGC 
CCACTACATA GTTTGGAAAC ATCACTCTGA

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

ATP2B1 ( XM_019806457.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019662016.1 Ailuropoda melanoleuca ATPase plasma membrane Ca2+ transporting 1 (ATP2B1), transcript variant X3, mRNA.

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CloneID	OAc97348
Clone ID Related Accession (Same CDS sequence)	XM_019806457.1
Accession Version	XM_019806457.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3516bp) 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	plasma membrane calcium-transporting ATPase 1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218280.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##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##

ATGGGCGACA TGGCAAACAA CTCACTTGCG TATAGTGGAG TAAAAAACTC TTTGAAGGAA 
GCTAATCATG ACGGAGACTT TGGAATCACG CTCGCAGAGC TGCGGGCTCT CATGGAGCTC 
AGGTCTACAG ATGCATTACG AAAAATACAG GAAAGCTATG GAGACGTCTA TGGAATTTGC 
AGCAGGTTGA AAACATCTCC CAATGAAGGT TTAAGTGGAA ACCCTGCAGA TATAGAGAGA 
AGAGAAGCAG TGTTTGGAAA GAATTTTATA CCTCCTAAAA AGCCAAAAAC CTTTCTTCAG 
TTAGTATGGG AAGCATTACA AGATGTCACT TTAATTATAC TAGAAATCGC AGCCATAGTA 
TCATTGGGCC TTTCTTTTTA TCAACCTCCA GAAGGGGATA ATGCACTTTG TGGAGAAGTT 
TCTGTTGGAG AGGAAGAAGG TGAAGGTGAA ACCGGTTGGA TTGAAGGCGC TGCCATCCTG 
TTGTCAGTAG TGTGTGTGGT ATTAGTAACA GCTTTCAATG ACTGGAGTAA AGAGAAACAA 
TTTCGAGGTT TGCAGAGTCG AATTGAACAA GAACAGAAGT TCACAGTCAT CAGGGGCGGT 
CAGGTCATTC AGATACCTGT AGCTGACATC ACCGTTGGAG ACATTGCTCA GGTGAAATAT 
GGTGATCTTC TTCCAGCTGA TGGCATTCTG ATTCAAGGCA ATGATCTTAA AATTGATGAA 
AGCTCATTGA CTGGTGAATC TGATCATGTT AAGAAGTCTT TAGATAAGGA TCCCTTACTG 
TTATCAGGTA CCCATGTAAT GGAAGGCTCC GGAAGAATGG TCGTTACTGC TGTAGGTGTT 
AATTCTCAAA CTGGAATCAT CTTTACCTTA CTTGGAGCTG GAGGTGAAGA GGAAGAAAAG 
AAAGATGAAA AGAAAAAGGA AAAGAAAAAT AAGAAACAAG ATGGAGCTAT TGAGAATCGC 
AACAAAGCAA AAGCCCAGGA TGGTGCAGCC ATGGAAATGC AGCCTTTGAA GAGTGAAGAA 
GGTGGAGATG GTGATGAAAA AGACAAAAAG AAAGCAAATT TGCCAAAAAA GGAAAAATCT 
GTCTTACAAG GGAAACTTAC AAAGCTGGCT GTTCAAATTG GCAAAGCAGG TTTGTTGATG 
TCTGCCATCA CAGTTATCAT TCTAGTATTG TATTTTGTCA TTGATACATT CTGGGTTCAG 
AAGAGACCGT GGCTTGCGGA GTGCACCCCG ATTTACATAC AATATTTTGT GAAGTTCTTC 
ATCATTGGAG TCACGGTTCT GGTGGTTGCC GTACCAGAGG GTCTTCCCCT TGCTGTCACT 
ATCTCCCTGG CTTACTCAGT CAAGAAAATG ATGAAAGATA ATAACTTAGT AAGGCATCTG 
GACGCTTGTG AAACCATGGG AAACGCTACA GCTATTTGTT CAGATAAAAC AGGGACATTG 
ACAATGAACA GAATGACGGT GGTTCAAGCT TACATAAATG AAAAACACTA TAAAAAGATT 
CCTGAACCAG AAGCTATTCC ACCAAATATT TTATCCTATC TTGTAACAGG AATTTCTGTG 
AATTGTGCTT ATACATCAAA AATATTGCCA CCAGAGAAAG AGGGTGGATT ACCTCGTCAT 
GTTGGTAATA AAACTGAATG TGCCTTGTTG GGACTTCTTT TGGATTTAAA ACGAGATTAT 
CAGGATGTTA GAAATGAAAT ACCAGAAGAA GCACTGTACA AAGTCTACAC CTTCAATTCT 
GTTAGGAAGT CCATGAGTAC TGTCCTGAAA AATTCAGATG GAAGTTATCG AATATTCAGC 
AAGGGTGCAT CTGAGATAAT TCTGAAAAAG TGTTTCAAAA TCTTGAGTGC TAATGGTGAG 
GCAAAAGTAT TCAGACCAAG GGACCGTGAT GATATTGTAA AAACGGTGAT TGAACCGATG 
GCATCAGAAG GCTTGAGAAC CATATGTCTT GCATTCAGAG ATTTCCCAGC AGGAGAACCC 
GAACCAGAGT GGGATAATGA AAATGATATT GTCACCGGCC TTACGTGCAT TGCTGTTGTG 
GGGATCGAAG ACCCTGTGAG ACCTGAGGTA CCAGAGGCCA TAAAGAAATG TCAGAGGGCT 
GGAATTACTG TGCGGATGGT CACTGGTGAT AATATTAATA CTGCTCGGGC GATTGCCACC 
AAATGTGGTA TTTTACATCC TGGTGAAGAT TTTCTGTGCC TAGAAGGTAA AGATTTCAAC 
AGAAGAATAC GAAATGAAAA AGGAGAGATT GAGCAAGAGC GGATAGACAA GATTTGGCCA 
AAGCTTCGAG TACTTGCAAG ATCATCTCCT ACTGACAAAC ATACACTGGT TAAAGGTATA 
ATTGATAGCA CTGTGTCAGA ACAACGCCAG GTTGTAGCTG TAACTGGTGA TGGTACAAAT 
GATGGCCCAG CACTAAAGAA AGCTGATGTT GGATTTGCGA TGGGTATCGC TGGAACTGAC 
GTAGCTAAAG AAGCATCTGA TATCATTCTC ACAGATGACA ACTTTACAAG CATTGTTAAA 
GCAGTTATGT GGGGACGAAA TGTCTATGAC AGCATCTCAA AATTTCTTCA GTTCCAGCTC 
ACTGTTAATG TGGTAGCAGT GATAGTTGCT TTCACGGGCG CCTGTATTAC TCAAGATTCA 
CCGCTTAAGG CTGTGCAGAT GCTGTGGGTA AACCTCATAA TGGATACGCT CGCTTCCCTG 
GCTCTGGCAA CCGAACCCCC CACTGAATCT CTCTTGCTTC GGAAGCCTTA TGGTAGAAAT 
AAGCCTCTCA TCTCACGCAC GATGATGAAG AATATTTTGG GTCATGCATT CTATCAACTT 
GTAGTAGTCT TTACACTCTT ATTTGCTGGA GAAAAGTTTT TTGATATTGA TAGCGGAAGA 
AATGCTCCTT TGCACGCTCC TCCTTCGGAA CATTATACTA TTGTTTTTAA TACCTTTGTG 
CTGATGCAAC TTTTCAACGA AATAAATGCC CGGAAAATTC ACGGTGAAAG AAATGTGTTC 
GAAGGAATCT TTAATAATGC CATCTTCTGC ACAATTGTTT TAGGCACTTT TGTGGTACAG 
ATAATAATTG TGCAGTTTGG TGGAAAACCT TTCAGTTGTT CAGAACTTTC AATAGAACAG 
TGGCTATGGT CAATATTCCT AGGAATGGGA ACGTTACTCT GGGGCCAGCT TATTTCAACA 
ATTCCAACTA GCCGTTTAAA ATTCCTAAAA GAAGCTGGTC ATGGTACACA AAAGGAGGAA 
ATCCCAGAGG AGGAGCTCGC AGAAGACGTG GAGGAGATTG ACCATGCGGA GAGGGAGCTG 
CGTCGCGGCC AGATCTTGTG GTTTAGAGGT CTGAACAGAA TCCAAACGCA GATGGATGTA 
GTGAATGCTT TCCAGAGTGG AAGTTCCATT CAGGGGGCTC TAAGGCGGCA ACCCTCCATC 
GCCAGCCAGC ATCATGATGT AACAAATATT TCTACCCCTA CACATGTAGT GTTTTCCTCT 
TCTACTGCTT CTACTACTGT GGGATTCGAG TGGTGA

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

RefSeq	XP_019662016.1
CDS	288..3803
Translation	MGDMANNSLAYSGVKNSLKEANHDGDFGITLAELRALMELRSTDALRKIQESYGDVYGICSRLKTSPNEGLSGNPADIERREAVFGKNFIPPKKPKTFLQLVWEALQDVTLIILEIAAIVSLGLSFYQPPEGDNALCGEVSVGEEEGEGETGWIEGAAILLSVVCVVLVTAFNDWSKEKQFRGLQSRIEQEQKFTVIRGGQVIQIPVADITVGDIAQVKYGDLLPADGILIQGNDLKIDESSLTGESDHVKKSLDKDPLLLSGTHVMEGSGRMVVTAVGVNSQTGIIFTLLGAGGEEEEKKDEKKKEKKNKKQDGAIENRNKAKAQDGAAMEMQPLKSEEGGDGDEKDKKKANLPKKEKSVLQGKLTKLAVQIGKAGLLMSAITVIILVLYFVIDTFWVQKRPWLAECTPIYIQYFVKFFIIGVTVLVVAVPEGLPLAVTISLAYSVKKMMKDNNLVRHLDACETMGNATAICSDKTGTLTMNRMTVVQAYINEKHYKKIPEPEAIPPNILSYLVTGISVNCAYTSKILPPEKEGGLPRHVGNKTECALLGLLLDLKRDYQDVRNEIPEEALYKVYTFNSVRKSMSTVLKNSDGSYRIFSKGASEIILKKCFKILSANGEAKVFRPRDRDDIVKTVIEPMASEGLRTICLAFRDFPAGEPEPEWDNENDIVTGLTCIAVVGIEDPVRPEVPEAIKKCQRAGITVRMVTGDNINTARAIATKCGILHPGEDFLCLEGKDFNRRIRNEKGEIEQERIDKIWPKLRVLARSSPTDKHTLVKGIIDSTVSEQRQVVAVTGDGTNDGPALKKADVGFAMGIAGTDVAKEASDIILTDDNFTSIVKAVMWGRNVYDSISKFLQFQLTVNVVAVIVAFTGACITQDSPLKAVQMLWVNLIMDTLASLALATEPPTESLLLRKPYGRNKPLISRTMMKNILGHAFYQLVVVFTLLFAGEKFFDIDSGRNAPLHAPPSEHYTIVFNTFVLMQLFNEINARKIHGERNVFEGIFNNAIFCTIVLGTFVVQIIIVQFGGKPFSCSELSIEQWLWSIFLGMGTLLWGQLISTIPTSRLKFLKEAGHGTQKEEIPEEELAEDVEEIDHAERELRRGQILWFRGLNRIQTQMDVVNAFQSGSSIQGALRRQPSIASQHHDVTNISTPTHVVFSSSTASTTVGFEW

Target ORF information:

RefSeq Version	XM_019806457.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca ATPase plasma membrane Ca2+ transporting 1 (ATP2B1), transcript variant X3, mRNA.

Target ORF information:

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

XM_019806457.1

ORF Insert Sequence:

ATGGGCGACA TGGCAAACAA CTCACTTGCG TATAGTGGAG TAAAAAACTC TTTGAAGGAA 
GCTAATCATG ACGGAGACTT TGGAATCACG CTCGCAGAGC TGCGGGCTCT CATGGAGCTC 
AGGTCTACAG ATGCATTACG AAAAATACAG GAAAGCTATG GAGACGTCTA TGGAATTTGC 
AGCAGGTTGA AAACATCTCC CAATGAAGGT TTAAGTGGAA ACCCTGCAGA TATAGAGAGA 
AGAGAAGCAG TGTTTGGAAA GAATTTTATA CCTCCTAAAA AGCCAAAAAC CTTTCTTCAG 
TTAGTATGGG AAGCATTACA AGATGTCACT TTAATTATAC TAGAAATCGC AGCCATAGTA 
TCATTGGGCC TTTCTTTTTA TCAACCTCCA GAAGGGGATA ATGCACTTTG TGGAGAAGTT 
TCTGTTGGAG AGGAAGAAGG TGAAGGTGAA ACCGGTTGGA TTGAAGGCGC TGCCATCCTG 
TTGTCAGTAG TGTGTGTGGT ATTAGTAACA GCTTTCAATG ACTGGAGTAA AGAGAAACAA 
TTTCGAGGTT TGCAGAGTCG AATTGAACAA GAACAGAAGT TCACAGTCAT CAGGGGCGGT 
CAGGTCATTC AGATACCTGT AGCTGACATC ACCGTTGGAG ACATTGCTCA GGTGAAATAT 
GGTGATCTTC TTCCAGCTGA TGGCATTCTG ATTCAAGGCA ATGATCTTAA AATTGATGAA 
AGCTCATTGA CTGGTGAATC TGATCATGTT AAGAAGTCTT TAGATAAGGA TCCCTTACTG 
TTATCAGGTA CCCATGTAAT GGAAGGCTCC GGAAGAATGG TCGTTACTGC TGTAGGTGTT 
AATTCTCAAA CTGGAATCAT CTTTACCTTA CTTGGAGCTG GAGGTGAAGA GGAAGAAAAG 
AAAGATGAAA AGAAAAAGGA AAAGAAAAAT AAGAAACAAG ATGGAGCTAT TGAGAATCGC 
AACAAAGCAA AAGCCCAGGA TGGTGCAGCC ATGGAAATGC AGCCTTTGAA GAGTGAAGAA 
GGTGGAGATG GTGATGAAAA AGACAAAAAG AAAGCAAATT TGCCAAAAAA GGAAAAATCT 
GTCTTACAAG GGAAACTTAC AAAGCTGGCT GTTCAAATTG GCAAAGCAGG TTTGTTGATG 
TCTGCCATCA CAGTTATCAT TCTAGTATTG TATTTTGTCA TTGATACATT CTGGGTTCAG 
AAGAGACCGT GGCTTGCGGA GTGCACCCCG ATTTACATAC AATATTTTGT GAAGTTCTTC 
ATCATTGGAG TCACGGTTCT GGTGGTTGCC GTACCAGAGG GTCTTCCCCT TGCTGTCACT 
ATCTCCCTGG CTTACTCAGT CAAGAAAATG ATGAAAGATA ATAACTTAGT AAGGCATCTG 
GACGCTTGTG AAACCATGGG AAACGCTACA GCTATTTGTT CAGATAAAAC AGGGACATTG 
ACAATGAACA GAATGACGGT GGTTCAAGCT TACATAAATG AAAAACACTA TAAAAAGATT 
CCTGAACCAG AAGCTATTCC ACCAAATATT TTATCCTATC TTGTAACAGG AATTTCTGTG 
AATTGTGCTT ATACATCAAA AATATTGCCA CCAGAGAAAG AGGGTGGATT ACCTCGTCAT 
GTTGGTAATA AAACTGAATG TGCCTTGTTG GGACTTCTTT TGGATTTAAA ACGAGATTAT 
CAGGATGTTA GAAATGAAAT ACCAGAAGAA GCACTGTACA AAGTCTACAC CTTCAATTCT 
GTTAGGAAGT CCATGAGTAC TGTCCTGAAA AATTCAGATG GAAGTTATCG AATATTCAGC 
AAGGGTGCAT CTGAGATAAT TCTGAAAAAG TGTTTCAAAA TCTTGAGTGC TAATGGTGAG 
GCAAAAGTAT TCAGACCAAG GGACCGTGAT GATATTGTAA AAACGGTGAT TGAACCGATG 
GCATCAGAAG GCTTGAGAAC CATATGTCTT GCATTCAGAG ATTTCCCAGC AGGAGAACCC 
GAACCAGAGT GGGATAATGA AAATGATATT GTCACCGGCC TTACGTGCAT TGCTGTTGTG 
GGGATCGAAG ACCCTGTGAG ACCTGAGGTA CCAGAGGCCA TAAAGAAATG TCAGAGGGCT 
GGAATTACTG TGCGGATGGT CACTGGTGAT AATATTAATA CTGCTCGGGC GATTGCCACC 
AAATGTGGTA TTTTACATCC TGGTGAAGAT TTTCTGTGCC TAGAAGGTAA AGATTTCAAC 
AGAAGAATAC GAAATGAAAA AGGAGAGATT GAGCAAGAGC GGATAGACAA GATTTGGCCA 
AAGCTTCGAG TACTTGCAAG ATCATCTCCT ACTGACAAAC ATACACTGGT TAAAGGTATA 
ATTGATAGCA CTGTGTCAGA ACAACGCCAG GTTGTAGCTG TAACTGGTGA TGGTACAAAT 
GATGGCCCAG CACTAAAGAA AGCTGATGTT GGATTTGCGA TGGGTATCGC TGGAACTGAC 
GTAGCTAAAG AAGCATCTGA TATCATTCTC ACAGATGACA ACTTTACAAG CATTGTTAAA 
GCAGTTATGT GGGGACGAAA TGTCTATGAC AGCATCTCAA AATTTCTTCA GTTCCAGCTC 
ACTGTTAATG TGGTAGCAGT GATAGTTGCT TTCACGGGCG CCTGTATTAC TCAAGATTCA 
CCGCTTAAGG CTGTGCAGAT GCTGTGGGTA AACCTCATAA TGGATACGCT CGCTTCCCTG 
GCTCTGGCAA CCGAACCCCC CACTGAATCT CTCTTGCTTC GGAAGCCTTA TGGTAGAAAT 
AAGCCTCTCA TCTCACGCAC GATGATGAAG AATATTTTGG GTCATGCATT CTATCAACTT 
GTAGTAGTCT TTACACTCTT ATTTGCTGGA GAAAAGTTTT TTGATATTGA TAGCGGAAGA 
AATGCTCCTT TGCACGCTCC TCCTTCGGAA CATTATACTA TTGTTTTTAA TACCTTTGTG 
CTGATGCAAC TTTTCAACGA AATAAATGCC CGGAAAATTC ACGGTGAAAG AAATGTGTTC 
GAAGGAATCT TTAATAATGC CATCTTCTGC ACAATTGTTT TAGGCACTTT TGTGGTACAG 
ATAATAATTG TGCAGTTTGG TGGAAAACCT TTCAGTTGTT CAGAACTTTC AATAGAACAG 
TGGCTATGGT CAATATTCCT AGGAATGGGA ACGTTACTCT GGGGCCAGCT TATTTCAACA 
ATTCCAACTA GCCGTTTAAA ATTCCTAAAA GAAGCTGGTC ATGGTACACA AAAGGAGGAA 
ATCCCAGAGG AGGAGCTCGC AGAAGACGTG GAGGAGATTG ACCATGCGGA GAGGGAGCTG 
CGTCGCGGCC AGATCTTGTG GTTTAGAGGT CTGAACAGAA TCCAAACGCA GATGGATGTA 
GTGAATGCTT TCCAGAGTGG AAGTTCCATT CAGGGGGCTC TAAGGCGGCA ACCCTCCATC 
GCCAGCCAGC ATCATGATGT AACAAATATT TCTACCCCTA CACATGTAGT GTTTTCCTCT 
TCTACTGCTT CTACTACTGT GGGATTCGAG TGGTGA

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

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ATP2B1 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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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