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ATP13A2 cDNA ORF clone, Homo sapiens(Human)

Gene Symbol ATP13A2
Entrez Gene ID 23400
Full Name ATPase 13A2
Synonyms CLN12,HSA9947,KRPPD,PARK9,SPG78
General protein information
Preferred Names

ATPase 13A2

Names

cation-transporting ATPase 13A2
probable cation-transporting ATPase 13A2
ATPase type 13A2

Gene Type protein-coding
Organism Homo sapiens(Human)
Genome

1

1p36.13

Summary This gene encodes a member of the P5 subfamily of ATPases which transports inorganic cations as well as other substrates. Mutations in this gene are associated with Kufor-Rakeb syndrome (KRS), also referred to as Parkinson disease 9. Multiple transcript variants encoding different isoforms have been found for this gene.[provided by RefSeq, Nov 2008].
Disorder MIM:

610513

Disorder Html: Parkinson disease 9, 606693 (3)

mRNA and Protein(s)

mRNA Protein Name
NM_001141973.2 NP_001135445.1 probable cation-transporting ATPase 13A2 isoform 2
XM_011541128.1 XP_011539430.1 probable cation-transporting ATPase 13A2 isoform X3
XM_017000845.1 XP_016856334.1 probable cation-transporting ATPase 13A2 isoform X8
XM_011541129.1 XP_011539431.1 probable cation-transporting ATPase 13A2 isoform X14
XM_006710513.1 XP_006710576.1 probable cation-transporting ATPase 13A2 isoform X6
NM_022089.3 NP_071372.1 probable cation-transporting ATPase 13A2 isoform 1
NM_001141974.2 NP_001135446.1 probable cation-transporting ATPase 13A2 isoform 3
XM_005245811.1 XP_005245868.1 probable cation-transporting ATPase 13A2 isoform X2
XM_017000844.1 XP_016856333.1 probable cation-transporting ATPase 13A2 isoform X7
XM_017000846.1 XP_016856335.1 probable cation-transporting ATPase 13A2 isoform X9
XM_017000850.1 XP_016856339.1 probable cation-transporting ATPase 13A2 isoform X15
XM_005245810.1 XP_005245867.1 probable cation-transporting ATPase 13A2 isoform X1
XM_006710512.1 XP_006710575.1 probable cation-transporting ATPase 13A2 isoform X4
XM_005245812.1 XP_005245869.1 probable cation-transporting ATPase 13A2 isoform X5
XM_005245815.1 XP_005245872.1 probable cation-transporting ATPase 13A2 isoform X11
XM_017000848.1 XP_016856337.1 probable cation-transporting ATPase 13A2 isoform X12
XM_017000849.1 XP_016856338.1 probable cation-transporting ATPase 13A2 isoform X13
XM_017000847.1 XP_016856336.1 probable cation-transporting ATPase 13A2 isoform X10



Bos taurus (cattle) ATP13A2 NP_001179200.1
Danio rerio (zebrafish) atp13a2 NP_001073506.1
Macaca mulatta (rhesus monkey) ATP13A2 XP_001087655.2
Canis lupus familiaris (dog) ATP13A2 XP_005618006.1
Mus musculus (house mouse) Atp13a2 NP_083373.2
Rattus norvegicus (Norway rat) Atp13a2 NP_001166903.1
Homo sapiens (human) ATP13A2 NP_001135445.1
Pan troglodytes (chimpanzee) ATP13A2 XP_513111.3


Related articles in PubMed

High-resolution arrays reveal burden of copy number variations on Parkinson disease genes associated with increased disease risk in random cohorts.
Murthy MN, Veerappa AM, Seshachalam KB, Ramachandra NB
Neurological research38(9)775-85(2016 Sep)

Regulation of ATP13A2 via PHD2-HIF1α Signaling Is Critical for Cellular Iron Homeostasis: Implications for Parkinson's Disease.
Rajagopalan S, Rane A, Chinta SJ, Andersen JK
The Journal of neuroscience : the official journal of the Society for Neuroscience36(4)1086-95(2016 Jan)

Unlocking ATP13A2/PARK9 activity.
Martin S, Holemans T, Vangheluwe P
Cell cycle (Georgetown, Tex.)14(21)3341-2(2015)

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

ATP13A2 inhibition by hsa-miR-4306 efficiently restored manganese-induced cytotoxicity in cultured neurons.
Title: Comprehensive investigation of aberrant microRNAs expression in cells culture model of MnCl2-induced neurodegenerative disease.

This study demonstrated that loss of ATP13A2 function causes a combination of lysosomal and mitochondrial dysfunction that affects multiple neuronal populations.
Title: Loss-of-function mutations in the ATP13A2/PARK9 gene cause complicated hereditary spastic paraplegia (SPG78).

This study showed that LRRK2, PARK2 and ATP13A2 are under copy number variations influence in patient with Parkinson disease.
Title: High-resolution arrays reveal burden of copy number variations on Parkinson disease genes associated with increased disease risk in random cohorts.

we describe, for the first time, the deleterious effect arising from the interaction between the ATP13A2 familial mutant Dup22 with a-Syn. We show that this ATP13A2 mutant can enhance a-Syn oligomerization and aggregation in cell culture
Title: A familial ATP13A2 mutation enhances alpha-synuclein aggregation and promotes cell death.

tre results of this study suggests that the expression of ATP13A2 regulated by the PHD2-HIF1alpha signaling pathway,and this is instrumental in maintaining cellular iron homeostasis and cell viability in mitochondrially compromised DAergic neurons.
Title: Regulation of ATP13A2 via PHD2-HIF1α Signaling Is Critical for Cellular Iron Homeostasis: Implications for Parkinson's Disease.

The following ATP13A2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP13A2 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.

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***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OHu87133 XM_017000844.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X7, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu87134 XM_017000845.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X8, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu87135 XM_017000846.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X9, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu87136 XM_017000847.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X10, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu87137 XM_017000848.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X12, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu87138 XM_017000849.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X13, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu87139 XM_017000850.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X15, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu25689 NM_001141973.2
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $832.30
$1189.00
OHu25690 NM_001141974.2
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant 3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $384.30
$549.00
OHu25691 NM_022089.3
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $832.30
$1189.00
OHu33261 XM_005245810.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu33262 XM_005245811.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu33263 XM_006710512.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X4, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu33264 XM_005245812.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X5, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu33265 XM_006710513.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X6, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu33267 XM_005245815.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X11, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $559.30
$799.00
OHu66148 XM_011541128.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu66149 XM_011541129.1
Latest version!
Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X14, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $559.30
$799.00

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** 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.


CloneID OHu87133
Clone ID Related Accession (Same CDS sequence) XM_017000844.1
Accession Version XM_017000844.1 Latest version! Documents for ORF clone product in dufault 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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X7
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGAT
CCTGACCAGG CTGCAAGCTA CACCGTGGAG CCAGACCCCC GATCCAGGCA CCTGGCCCTC
AGCGGGCCCA CCTTTGGTAT CATTGTGAAG CACTTCCCCA AGCTGCTGCC CAAGGTCCTG
GTCCAGGGCA CTGTCTTTGC CCGCATGGCC CCTGAGCAGA AGACAGAGCT GGTGTGCGAG
CTACAGAAGC TTCAGTACTG CGTGGGCATG TGCGGAGACG GCGCCAATGA CTGTGGGGCC
CTGAAGGCGG CTGATGTCGG CATCTCGCTG TCCCAGGCAG AAGCCTCAGT GGTCTCACCC
TTCACCTCGA GCATGGCCAG TATTGAGTGC GTGCCCATGG TCATCAGGGA GGGGCGCTGT
TCCCTTGACA CTTCGTTCAG CGTCTTCAAG TACATGGCTC TGTACAGCCT GACCCAGTTC
ATCTCCGTCC TGATCCTCTA CACGATCAAC ACCAACCTGG GTGACCTGCA GTTCCTGGCC
ATCGACCTGG TCATCACCAC CACAGTGGCA GTGCTCATGA GCCGCACGGG GCCAGCGCTG
GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG
CTGCTGCAGA TGGTCCTGGT GACCGGCGTG CAGCTAGGGG GCTACTTCCT GACCCTGGCC
CAGCCATGGT TCGTGCCTCT GAACAGGACA GTGGCCGCAC CAGACAACCT GCCCAACTAC
GAGAACACCG TGGTCTTCTC TCTGTCCAGC TTCCAGTACC TCATCCTGGC TGCAGCCGTG
TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC TACACCAATG TGCCCTTCCT GGTGGCCCTG
GCGCTCCTGA GCTCCGTCCT GGTGGGCCTT GTCCTGGTCC CCGGCCTCCT GCAGGGGCCG
CTGGCGCTGA GGAACATCAC TGACACCGGC TTCAAGCTGC TGCTGCTGGG TCTGGTCACC
CTCAACTTCG TGGGGGCCTT CATGCTGGAG AGCGTGCTAG ACCAGTGCCT CCCCGCCTGC
CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC AAGAAGCGCT TCAAGCAGCT GGAACGAGAG
CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC GCCGGCCCCC TGAGGTAG

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

RefSeq XP_016856333.1
CDS235..3762
Translation

Target ORF information:

RefSeq Version XM_017000844.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X7, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017000844.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGAT
CCTGACCAGG CTGCAAGCTA CACCGTGGAG CCAGACCCCC GATCCAGGCA CCTGGCCCTC
AGCGGGCCCA CCTTTGGTAT CATTGTGAAG CACTTCCCCA AGCTGCTGCC CAAGGTCCTG
GTCCAGGGCA CTGTCTTTGC CCGCATGGCC CCTGAGCAGA AGACAGAGCT GGTGTGCGAG
CTACAGAAGC TTCAGTACTG CGTGGGCATG TGCGGAGACG GCGCCAATGA CTGTGGGGCC
CTGAAGGCGG CTGATGTCGG CATCTCGCTG TCCCAGGCAG AAGCCTCAGT GGTCTCACCC
TTCACCTCGA GCATGGCCAG TATTGAGTGC GTGCCCATGG TCATCAGGGA GGGGCGCTGT
TCCCTTGACA CTTCGTTCAG CGTCTTCAAG TACATGGCTC TGTACAGCCT GACCCAGTTC
ATCTCCGTCC TGATCCTCTA CACGATCAAC ACCAACCTGG GTGACCTGCA GTTCCTGGCC
ATCGACCTGG TCATCACCAC CACAGTGGCA GTGCTCATGA GCCGCACGGG GCCAGCGCTG
GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG
CTGCTGCAGA TGGTCCTGGT GACCGGCGTG CAGCTAGGGG GCTACTTCCT GACCCTGGCC
CAGCCATGGT TCGTGCCTCT GAACAGGACA GTGGCCGCAC CAGACAACCT GCCCAACTAC
GAGAACACCG TGGTCTTCTC TCTGTCCAGC TTCCAGTACC TCATCCTGGC TGCAGCCGTG
TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC TACACCAATG TGCCCTTCCT GGTGGCCCTG
GCGCTCCTGA GCTCCGTCCT GGTGGGCCTT GTCCTGGTCC CCGGCCTCCT GCAGGGGCCG
CTGGCGCTGA GGAACATCAC TGACACCGGC TTCAAGCTGC TGCTGCTGGG TCTGGTCACC
CTCAACTTCG TGGGGGCCTT CATGCTGGAG AGCGTGCTAG ACCAGTGCCT CCCCGCCTGC
CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC AAGAAGCGCT TCAAGCAGCT GGAACGAGAG
CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC GCCGGCCCCC TGAGGTAG

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

CloneID OHu87134
Clone ID Related Accession (Same CDS sequence) XM_017000845.1
Accession Version XM_017000845.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3525bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X8
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGCGGGTGCT GCGGTATTAC
CTCTTCCAGG GCCAGCGCTA TATCTGGATC GAGACCCAGC AAGCCTTCTA CCAGGTCAGC
CTCCTGGACC ATGGCCGCTC TTGTGACGAC GTCCACCGCT CCCGCCATGG CCTCAGCCTC
CAGGACCAAA TGGTGAGGAA GGCCATTTAC GGCCCCAACG TGATCAGCAT ACCGGTCAAG
TCCTACCCCC AGCTGCTGGT GGACGAGGCA CTGAACCCCT ACTATGGGTT CCAGGCCTTC
AGCATCGCGC TGTGGCTGGC TGACCACTAC TACTGGTACG CCCTGTGCAT CTTCCTCATT
TCCTCCATCT CCATCTGCCT GTCGCTGTAC AAGACCAGAA AGCAAAGCCA GACTCTAAGG
GACATGGTCA AGTTGTCCAT GCGGGTGTGC GTGTGCCGGC CAGGGGGAGA GGAAGAGTGG
GTGGACTCCA GTGAGCTAGT GCCCGGAGAC TGCCTGGTGC TGCCCCAGGA GGGTGGGCTG
ATGCCCTGTG ATGCCGCCCT GGTGGCCGGC GAGTGCATGG TGAATGAGAG CTCTCTGACA
GGAGAGAGCA TTCCAGTGCT GAAGACGGCA CTGCCGGAGG GGCTGGGGCC CTACTGTGCA
GAGACACACC GGCGGCACAC ACTCTTCTGC GGGACCCTCA TCTTGCAGGC CCGGGCCTAT
GTGGGACCGC ACGTCCTGGC AGTGGTGACC CGCACAGGGT TCTGCACGGC AAAAGGGGGC
CTGGTGAGCT CCATCTTGCA CCCCCGGCCC ATCAACTTCA AGTTCTATAA ACACAGCATG
AAGTTTGTGG CTGCCCTCTC TGTCCTGGCT CTCCTCGGCA CCATCTACAG CATCTTCATC
CTCTACCGAA ACCGGGTGCC TCTGAATGAG ATTGTAATCC GGGCTCTCGA CCTGGTGACC
GTGGTGGTGC CACCTGCCCT GCCTGCTGCC ATGACTGTGT GCACGCTCTA CGCCCAGAGC
CGACTGCGGA GACAGGGCAT TTTCTGCATC CACCCACTGC GCATCAACCT GGGGGGCAAG
CTGCAGCTGG TGTGTTTCGA CAAGACGGGC ACCCTCACTG AGGACGGCTT AGACGTGATG
GGGGTGGTGC CCCTGAAGGG GCAGGCATTC CTGCCCCTGG TCCCAGAGCC TCGCCGCCTG
CCTGTGGGGC CCCTGCTCCG AGCACTGGCC ACCTGCCATG CCCTCAGCCG GCTCCAGGAC
ACCCCCGTGG GCGACCCCAT GGACTTGAAG ATGGTGGAGT CTACTGGCTG GGTCCTGGAG
GAAGAGCCGG CTGCAGACTC AGCATTTGGG ACCCAGGTCT TGGCAGTGAT GAGACCCCCA
CTTTGGGAGC CCCAGCTGCA GGCAATGGAG GAGCCCCCGG TGCCAGTCAG CGTCCTCCAC
CGCTTCCCCT TCTCTTCGGC TCTGCAGCGC ATGAGTGTGG TGGTGGCGTG GCCAGGGGCC
ACTCAGCCCG AGGCCTACGT CAAAGGCTCC CCGGAGCTGG TGGCAGGGCT CTGCAACCCC
GAGACAGTGC CCACCGACTT CGCCCAGATG CTGCAGAGCT ATACAGCTGC TGGCTACCGT
GTCGTGGCCC TGGCCAGCAA GCCACTGCCC ACTGTGCCCA GCCTGGAGGC AGCCCAGCAA
CTGACGAGGG ACACTGTGGA AGGAGACCTG AGCCTCCTGG GGCTGCTGGT CATGAGGAAC
CTACTGAAGC CGCAGACAAC GCCAGTTATC CAGGCTCTGC GAAGGACCCG CATCCGCGCC
GTCATGGTGA CAGGGGACAA CCTGCAGACA GCGGTGACTG TGGCCCGGGG CTGTGGCATG
GTGGCCCCCC AGGAGCATCT GATCATCGTC CACGCCACCC ACCCTGAGCG GGGTCAGCCT
GCCTCTCTCG AGTTCCTGCC GATGGAGTCC CCCACAGCCG TGAATGGCGT TAAGGATCCT
GACCAGGCTG CAAGCTACAC CGTGGAGCCA GACCCCCGAT CCAGGCACCT GGCCCTCAGC
GGGCCCACCT TTGGTATCAT TGTGAAGCAC TTCCCCAAGC TGCTGCCCAA GGTCCTGGTC
CAGGGCACTG TCTTTGCCCG CATGGCCCCT GAGCAGAAGA CAGAGCTGGT GTGCGAGCTA
CAGAAGCTTC AGTACTGCGT GGGCATGTGC GGAGACGGCG CCAATGACTG TGGGGCCCTG
AAGGCGGCTG ATGTCGGCAT CTCGCTGTCC CAGGCAGAAG CCTCAGTGGT CTCACCCTTC
ACCTCGAGCA TGGCCAGTAT TGAGTGCGTG CCCATGGTCA TCAGGGAGGG GCGCTGTTCC
CTTGACACTT CGTTCAGCGT CTTCAAGTAC ATGGCTCTGT ACAGCCTGAC CCAGTTCATC
TCCGTCCTGA TCCTCTACAC GATCAACACC AACCTGGGTG ACCTGCAGTT CCTGGCCATC
GACCTGGTCA TCACCACCAC AGTGGCAGTG CTCATGAGCC GCACGGGGCC AGCGCTGGTC
CTGGGACGGG TGCGGCCACC GGGGGCGCTG CTCAGCGTGC CCGTGCTCAG CAGCCTGCTG
CTGCAGATGG TCCTGGTGAC CGGCGTGCAG CTAGGGGGCT ACTTCCTGAC CCTGGCCCAG
CCATGGTTCG TGCCTCTGAA CAGGACAGTG GCCGCACCAG ACAACCTGCC CAACTACGAG
AACACCGTGG TCTTCTCTCT GTCCAGCTTC CAGTACCTCA TCCTGGCTGC AGCCGTGTCC
AAGGGGGCGC CCTTCCGCCG GCCGCTCTAC ACCAATGTGC CCTTCCTGGT GGCCCTGGCG
CTCCTGAGCT CCGTCCTGGT GGGCCTTGTC CTGGTCCCCG GCCTCCTGCA GGGGCCGCTG
GCGCTGAGGA ACATCACTGA CACCGGCTTC AAGCTGCTGC TGCTGGGTCT GGTCACCCTC
AACTTCGTGG GGGCCTTCAT GCTGGAGAGC GTGCTAGACC AGTGCCTCCC CGCCTGCCTG
CGCCGCCTCC GGCCCAAGCG GGCCTCCAAG AAGCGCTTCA AGCAGCTGGA ACGAGAGCTG
GCCGAGCAGC CCTGGCCGCC GCTGCCCGCC GGCCCCCTGA GGTAG

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

RefSeq XP_016856334.1
CDS235..3759
Translation

Target ORF information:

RefSeq Version XM_017000845.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X8, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017000845.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGCGGGTGCT GCGGTATTAC
CTCTTCCAGG GCCAGCGCTA TATCTGGATC GAGACCCAGC AAGCCTTCTA CCAGGTCAGC
CTCCTGGACC ATGGCCGCTC TTGTGACGAC GTCCACCGCT CCCGCCATGG CCTCAGCCTC
CAGGACCAAA TGGTGAGGAA GGCCATTTAC GGCCCCAACG TGATCAGCAT ACCGGTCAAG
TCCTACCCCC AGCTGCTGGT GGACGAGGCA CTGAACCCCT ACTATGGGTT CCAGGCCTTC
AGCATCGCGC TGTGGCTGGC TGACCACTAC TACTGGTACG CCCTGTGCAT CTTCCTCATT
TCCTCCATCT CCATCTGCCT GTCGCTGTAC AAGACCAGAA AGCAAAGCCA GACTCTAAGG
GACATGGTCA AGTTGTCCAT GCGGGTGTGC GTGTGCCGGC CAGGGGGAGA GGAAGAGTGG
GTGGACTCCA GTGAGCTAGT GCCCGGAGAC TGCCTGGTGC TGCCCCAGGA GGGTGGGCTG
ATGCCCTGTG ATGCCGCCCT GGTGGCCGGC GAGTGCATGG TGAATGAGAG CTCTCTGACA
GGAGAGAGCA TTCCAGTGCT GAAGACGGCA CTGCCGGAGG GGCTGGGGCC CTACTGTGCA
GAGACACACC GGCGGCACAC ACTCTTCTGC GGGACCCTCA TCTTGCAGGC CCGGGCCTAT
GTGGGACCGC ACGTCCTGGC AGTGGTGACC CGCACAGGGT TCTGCACGGC AAAAGGGGGC
CTGGTGAGCT CCATCTTGCA CCCCCGGCCC ATCAACTTCA AGTTCTATAA ACACAGCATG
AAGTTTGTGG CTGCCCTCTC TGTCCTGGCT CTCCTCGGCA CCATCTACAG CATCTTCATC
CTCTACCGAA ACCGGGTGCC TCTGAATGAG ATTGTAATCC GGGCTCTCGA CCTGGTGACC
GTGGTGGTGC CACCTGCCCT GCCTGCTGCC ATGACTGTGT GCACGCTCTA CGCCCAGAGC
CGACTGCGGA GACAGGGCAT TTTCTGCATC CACCCACTGC GCATCAACCT GGGGGGCAAG
CTGCAGCTGG TGTGTTTCGA CAAGACGGGC ACCCTCACTG AGGACGGCTT AGACGTGATG
GGGGTGGTGC CCCTGAAGGG GCAGGCATTC CTGCCCCTGG TCCCAGAGCC TCGCCGCCTG
CCTGTGGGGC CCCTGCTCCG AGCACTGGCC ACCTGCCATG CCCTCAGCCG GCTCCAGGAC
ACCCCCGTGG GCGACCCCAT GGACTTGAAG ATGGTGGAGT CTACTGGCTG GGTCCTGGAG
GAAGAGCCGG CTGCAGACTC AGCATTTGGG ACCCAGGTCT TGGCAGTGAT GAGACCCCCA
CTTTGGGAGC CCCAGCTGCA GGCAATGGAG GAGCCCCCGG TGCCAGTCAG CGTCCTCCAC
CGCTTCCCCT TCTCTTCGGC TCTGCAGCGC ATGAGTGTGG TGGTGGCGTG GCCAGGGGCC
ACTCAGCCCG AGGCCTACGT CAAAGGCTCC CCGGAGCTGG TGGCAGGGCT CTGCAACCCC
GAGACAGTGC CCACCGACTT CGCCCAGATG CTGCAGAGCT ATACAGCTGC TGGCTACCGT
GTCGTGGCCC TGGCCAGCAA GCCACTGCCC ACTGTGCCCA GCCTGGAGGC AGCCCAGCAA
CTGACGAGGG ACACTGTGGA AGGAGACCTG AGCCTCCTGG GGCTGCTGGT CATGAGGAAC
CTACTGAAGC CGCAGACAAC GCCAGTTATC CAGGCTCTGC GAAGGACCCG CATCCGCGCC
GTCATGGTGA CAGGGGACAA CCTGCAGACA GCGGTGACTG TGGCCCGGGG CTGTGGCATG
GTGGCCCCCC AGGAGCATCT GATCATCGTC CACGCCACCC ACCCTGAGCG GGGTCAGCCT
GCCTCTCTCG AGTTCCTGCC GATGGAGTCC CCCACAGCCG TGAATGGCGT TAAGGATCCT
GACCAGGCTG CAAGCTACAC CGTGGAGCCA GACCCCCGAT CCAGGCACCT GGCCCTCAGC
GGGCCCACCT TTGGTATCAT TGTGAAGCAC TTCCCCAAGC TGCTGCCCAA GGTCCTGGTC
CAGGGCACTG TCTTTGCCCG CATGGCCCCT GAGCAGAAGA CAGAGCTGGT GTGCGAGCTA
CAGAAGCTTC AGTACTGCGT GGGCATGTGC GGAGACGGCG CCAATGACTG TGGGGCCCTG
AAGGCGGCTG ATGTCGGCAT CTCGCTGTCC CAGGCAGAAG CCTCAGTGGT CTCACCCTTC
ACCTCGAGCA TGGCCAGTAT TGAGTGCGTG CCCATGGTCA TCAGGGAGGG GCGCTGTTCC
CTTGACACTT CGTTCAGCGT CTTCAAGTAC ATGGCTCTGT ACAGCCTGAC CCAGTTCATC
TCCGTCCTGA TCCTCTACAC GATCAACACC AACCTGGGTG ACCTGCAGTT CCTGGCCATC
GACCTGGTCA TCACCACCAC AGTGGCAGTG CTCATGAGCC GCACGGGGCC AGCGCTGGTC
CTGGGACGGG TGCGGCCACC GGGGGCGCTG CTCAGCGTGC CCGTGCTCAG CAGCCTGCTG
CTGCAGATGG TCCTGGTGAC CGGCGTGCAG CTAGGGGGCT ACTTCCTGAC CCTGGCCCAG
CCATGGTTCG TGCCTCTGAA CAGGACAGTG GCCGCACCAG ACAACCTGCC CAACTACGAG
AACACCGTGG TCTTCTCTCT GTCCAGCTTC CAGTACCTCA TCCTGGCTGC AGCCGTGTCC
AAGGGGGCGC CCTTCCGCCG GCCGCTCTAC ACCAATGTGC CCTTCCTGGT GGCCCTGGCG
CTCCTGAGCT CCGTCCTGGT GGGCCTTGTC CTGGTCCCCG GCCTCCTGCA GGGGCCGCTG
GCGCTGAGGA ACATCACTGA CACCGGCTTC AAGCTGCTGC TGCTGGGTCT GGTCACCCTC
AACTTCGTGG GGGCCTTCAT GCTGGAGAGC GTGCTAGACC AGTGCCTCCC CGCCTGCCTG
CGCCGCCTCC GGCCCAAGCG GGCCTCCAAG AAGCGCTTCA AGCAGCTGGA ACGAGAGCTG
GCCGAGCAGC CCTGGCCGCC GCTGCCCGCC GGCCCCCTGA GGTAG

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

CloneID OHu87135
Clone ID Related Accession (Same CDS sequence) XM_017000846.1
Accession Version XM_017000846.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3501bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X9
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCCTTCAGCA TCGCGCTGTG GCTGGCTGAC
CACTACTACT GGTACGCCCT GTGCATCTTC CTCATTTCCT CCATCTCCAT CTGCCTGTCG
CTGTACAAGA CCAGAAAGCA AAGCCAGACT CTAAGGGACA TGGTCAAGTT GTCCATGCGG
GTGTGCGTGT GCCGGCCAGG GGGAGAGGAA GAGTGGGTGG ACTCCAGTGA GCTAGTGCCC
GGAGACTGCC TGGTGCTGCC CCAGGAGGGT GGGCTGATGC CCTGTGATGC CGCCCTGGTG
GCCGGCGAGT GCATGGTGAA TGAGAGCTCT CTGACAGGAG AGAGCATTCC AGTGCTGAAG
ACGGCACTGC CGGAGGGGCT GGGGCCCTAC TGTGCAGAGA CACACCGGCG GCACACACTC
TTCTGCGGGA CCCTCATCTT GCAGGCCCGG GCCTATGTGG GACCGCACGT CCTGGCAGTG
GTGACCCGCA CAGGGTTCTG CACGGCAAAA GGGGGCCTGG TGAGCTCCAT CTTGCACCCC
CGGCCCATCA ACTTCAAGTT CTATAAACAC AGCATGAAGT TTGTGGCTGC CCTCTCTGTC
CTGGCTCTCC TCGGCACCAT CTACAGCATC TTCATCCTCT ACCGAAACCG GGTGCCTCTG
AATGAGATTG TAATCCGGGC TCTCGACCTG GTGACCGTGG TGGTGCCACC TGCCCTGCCT
GCTGCCATGA CTGTGTGCAC GCTCTACGCC CAGAGCCGAC TGCGGAGACA GGGCATTTTC
TGCATCCACC CACTGCGCAT CAACCTGGGG GGCAAGCTGC AGCTGGTGTG TTTCGACAAG
ACGGGCACCC TCACTGAGGA CGGCTTAGAC GTGATGGGGG TGGTGCCCCT GAAGGGGCAG
GCATTCCTGC CCCTGGTCCC AGAGCCTCGC CGCCTGCCTG TGGGGCCCCT GCTCCGAGCA
CTGGCCACCT GCCATGCCCT CAGCCGGCTC CAGGACACCC CCGTGGGCGA CCCCATGGAC
TTGAAGATGG TGGAGTCTAC TGGCTGGGTC CTGGAGGAAG AGCCGGCTGC AGACTCAGCA
TTTGGGACCC AGGTCTTGGC AGTGATGAGA CCCCCACTTT GGGAGCCCCA GCTGCAGGCA
ATGGAGGAGC CCCCGGTGCC AGTCAGCGTC CTCCACCGCT TCCCCTTCTC TTCGGCTCTG
CAGCGCATGA GTGTGGTGGT GGCGTGGCCA GGGGCCACTC AGCCCGAGGC CTACGTCAAA
GGCTCCCCGG AGCTGGTGGC AGGGCTCTGC AACCCCGAGA CAGTGCCCAC CGACTTCGCC
CAGATGCTGC AGAGCTATAC AGCTGCTGGC TACCGTGTCG TGGCCCTGGC CAGCAAGCCA
CTGCCCACTG TGCCCAGCCT GGAGGCAGCC CAGCAACTGA CGAGGGACAC TGTGGAAGGA
GACCTGAGCC TCCTGGGGCT GCTGGTCATG AGGAACCTAC TGAAGCCGCA GACAACGCCA
GTTATCCAGG CTCTGCGAAG GACCCGCATC CGCGCCGTCA TGGTGACAGG GGACAACCTG
CAGACAGCGG TGACTGTGGC CCGGGGCTGT GGCATGGTGG CCCCCCAGGA GCATCTGATC
ATCGTCCACG CCACCCACCC TGAGCGGGGT CAGCCTGCCT CTCTCGAGTT CCTGCCGATG
GAGTCCCCCA CAGCCGTGAA TGGCGTTAAG GATCCTGACC AGGCTGCAAG CTACACCGTG
GAGCCAGACC CCCGATCCAG GCACCTGGCC CTCAGCGGGC CCACCTTTGG TATCATTGTG
AAGCACTTCC CCAAGCTGCT GCCCAAGGTC CTGGTCCAGG GCACTGTCTT TGCCCGCATG
GCCCCTGAGC AGAAGACAGA GCTGGTGTGC GAGCTACAGA AGCTTCAGTA CTGCGTGGGC
ATGTGCGGAG ACGGCGCCAA TGACTGTGGG GCCCTGAAGG CGGCTGATGT CGGCATCTCG
CTGTCCCAGG CAGAAGCCTC AGTGGTCTCA CCCTTCACCT CGAGCATGGC CAGTATTGAG
TGCGTGCCCA TGGTCATCAG GGAGGGGCGC TGTTCCCTTG ACACTTCGTT CAGCGTCTTC
AAGTACATGG CTCTGTACAG CCTGACCCAG TTCATCTCCG TCCTGATCCT CTACACGATC
AACACCAACC TGGGTGACCT GCAGTTCCTG GCCATCGACC TGGTCATCAC CACCACAGTG
GCAGTGCTCA TGAGCCGCAC GGGGCCAGCG CTGGTCCTGG GACGGGTGCG GCCACCGGGG
GCGCTGCTCA GCGTGCCCGT GCTCAGCAGC CTGCTGCTGC AGATGGTCCT GGTGACCGGC
GTGCAGCTAG GGGGCTACTT CCTGACCCTG GCCCAGCCAT GGTTCGTGCC TCTGAACAGG
ACAGTGGCCG CACCAGACAA CCTGCCCAAC TACGAGAACA CCGTGGTCTT CTCTCTGTCC
AGCTTCCAGT ACCTCATCCT GGCTGCAGCC GTGTCCAAGG GGGCGCCCTT CCGCCGGCCG
CTCTACACCA ATGTGCCCTT CCTGGTGGCC CTGGCGCTCC TGAGCTCCGT CCTGGTGGGC
CTTGTCCTGG TCCCCGGCCT CCTGCAGGGG CCGCTGGCGC TGAGGAACAT CACTGACACC
GGCTTCAAGC TGCTGCTGCT GGGTCTGGTC ACCCTCAACT TCGTGGGGGC CTTCATGCTG
GAGAGCGTGC TAGACCAGTG CCTCCCCGCC TGCCTGCGCC GCCTCCGGCC CAAGCGGGCC
TCCAAGAAGC GCTTCAAGCA GCTGGAACGA GAGCTGGCCG AGCAGCCCTG GCCGCCGCTG
CCCGCCGGCC CCCTGAGGTA G

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

RefSeq XP_016856335.1
CDS235..3735
Translation

Target ORF information:

RefSeq Version XM_017000846.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X9, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017000846.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCCTTCAGCA TCGCGCTGTG GCTGGCTGAC
CACTACTACT GGTACGCCCT GTGCATCTTC CTCATTTCCT CCATCTCCAT CTGCCTGTCG
CTGTACAAGA CCAGAAAGCA AAGCCAGACT CTAAGGGACA TGGTCAAGTT GTCCATGCGG
GTGTGCGTGT GCCGGCCAGG GGGAGAGGAA GAGTGGGTGG ACTCCAGTGA GCTAGTGCCC
GGAGACTGCC TGGTGCTGCC CCAGGAGGGT GGGCTGATGC CCTGTGATGC CGCCCTGGTG
GCCGGCGAGT GCATGGTGAA TGAGAGCTCT CTGACAGGAG AGAGCATTCC AGTGCTGAAG
ACGGCACTGC CGGAGGGGCT GGGGCCCTAC TGTGCAGAGA CACACCGGCG GCACACACTC
TTCTGCGGGA CCCTCATCTT GCAGGCCCGG GCCTATGTGG GACCGCACGT CCTGGCAGTG
GTGACCCGCA CAGGGTTCTG CACGGCAAAA GGGGGCCTGG TGAGCTCCAT CTTGCACCCC
CGGCCCATCA ACTTCAAGTT CTATAAACAC AGCATGAAGT TTGTGGCTGC CCTCTCTGTC
CTGGCTCTCC TCGGCACCAT CTACAGCATC TTCATCCTCT ACCGAAACCG GGTGCCTCTG
AATGAGATTG TAATCCGGGC TCTCGACCTG GTGACCGTGG TGGTGCCACC TGCCCTGCCT
GCTGCCATGA CTGTGTGCAC GCTCTACGCC CAGAGCCGAC TGCGGAGACA GGGCATTTTC
TGCATCCACC CACTGCGCAT CAACCTGGGG GGCAAGCTGC AGCTGGTGTG TTTCGACAAG
ACGGGCACCC TCACTGAGGA CGGCTTAGAC GTGATGGGGG TGGTGCCCCT GAAGGGGCAG
GCATTCCTGC CCCTGGTCCC AGAGCCTCGC CGCCTGCCTG TGGGGCCCCT GCTCCGAGCA
CTGGCCACCT GCCATGCCCT CAGCCGGCTC CAGGACACCC CCGTGGGCGA CCCCATGGAC
TTGAAGATGG TGGAGTCTAC TGGCTGGGTC CTGGAGGAAG AGCCGGCTGC AGACTCAGCA
TTTGGGACCC AGGTCTTGGC AGTGATGAGA CCCCCACTTT GGGAGCCCCA GCTGCAGGCA
ATGGAGGAGC CCCCGGTGCC AGTCAGCGTC CTCCACCGCT TCCCCTTCTC TTCGGCTCTG
CAGCGCATGA GTGTGGTGGT GGCGTGGCCA GGGGCCACTC AGCCCGAGGC CTACGTCAAA
GGCTCCCCGG AGCTGGTGGC AGGGCTCTGC AACCCCGAGA CAGTGCCCAC CGACTTCGCC
CAGATGCTGC AGAGCTATAC AGCTGCTGGC TACCGTGTCG TGGCCCTGGC CAGCAAGCCA
CTGCCCACTG TGCCCAGCCT GGAGGCAGCC CAGCAACTGA CGAGGGACAC TGTGGAAGGA
GACCTGAGCC TCCTGGGGCT GCTGGTCATG AGGAACCTAC TGAAGCCGCA GACAACGCCA
GTTATCCAGG CTCTGCGAAG GACCCGCATC CGCGCCGTCA TGGTGACAGG GGACAACCTG
CAGACAGCGG TGACTGTGGC CCGGGGCTGT GGCATGGTGG CCCCCCAGGA GCATCTGATC
ATCGTCCACG CCACCCACCC TGAGCGGGGT CAGCCTGCCT CTCTCGAGTT CCTGCCGATG
GAGTCCCCCA CAGCCGTGAA TGGCGTTAAG GATCCTGACC AGGCTGCAAG CTACACCGTG
GAGCCAGACC CCCGATCCAG GCACCTGGCC CTCAGCGGGC CCACCTTTGG TATCATTGTG
AAGCACTTCC CCAAGCTGCT GCCCAAGGTC CTGGTCCAGG GCACTGTCTT TGCCCGCATG
GCCCCTGAGC AGAAGACAGA GCTGGTGTGC GAGCTACAGA AGCTTCAGTA CTGCGTGGGC
ATGTGCGGAG ACGGCGCCAA TGACTGTGGG GCCCTGAAGG CGGCTGATGT CGGCATCTCG
CTGTCCCAGG CAGAAGCCTC AGTGGTCTCA CCCTTCACCT CGAGCATGGC CAGTATTGAG
TGCGTGCCCA TGGTCATCAG GGAGGGGCGC TGTTCCCTTG ACACTTCGTT CAGCGTCTTC
AAGTACATGG CTCTGTACAG CCTGACCCAG TTCATCTCCG TCCTGATCCT CTACACGATC
AACACCAACC TGGGTGACCT GCAGTTCCTG GCCATCGACC TGGTCATCAC CACCACAGTG
GCAGTGCTCA TGAGCCGCAC GGGGCCAGCG CTGGTCCTGG GACGGGTGCG GCCACCGGGG
GCGCTGCTCA GCGTGCCCGT GCTCAGCAGC CTGCTGCTGC AGATGGTCCT GGTGACCGGC
GTGCAGCTAG GGGGCTACTT CCTGACCCTG GCCCAGCCAT GGTTCGTGCC TCTGAACAGG
ACAGTGGCCG CACCAGACAA CCTGCCCAAC TACGAGAACA CCGTGGTCTT CTCTCTGTCC
AGCTTCCAGT ACCTCATCCT GGCTGCAGCC GTGTCCAAGG GGGCGCCCTT CCGCCGGCCG
CTCTACACCA ATGTGCCCTT CCTGGTGGCC CTGGCGCTCC TGAGCTCCGT CCTGGTGGGC
CTTGTCCTGG TCCCCGGCCT CCTGCAGGGG CCGCTGGCGC TGAGGAACAT CACTGACACC
GGCTTCAAGC TGCTGCTGCT GGGTCTGGTC ACCCTCAACT TCGTGGGGGC CTTCATGCTG
GAGAGCGTGC TAGACCAGTG CCTCCCCGCC TGCCTGCGCC GCCTCCGGCC CAAGCGGGCC
TCCAAGAAGC GCTTCAAGCA GCTGGAACGA GAGCTGGCCG AGCAGCCCTG GCCGCCGCTG
CCCGCCGGCC CCCTGAGGTA G

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

CloneID OHu87136
Clone ID Related Accession (Same CDS sequence) XM_017000847.1
Accession Version XM_017000847.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3498bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X10
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGCGG
GTGCTGCGGT ATTACCTCTT CCAGGGCCAG CGCTATATCT GGATCGAGAC CCAGCAAGCC
TTCTACCAGG TCAGCCTCCT GGACCATGGC CGCTCTTGTG ACGACGTCCA CCGCTCCCGC
CATGGCCTCA GCCTCCAGGA CCAAATGGTG AGGAAGGCCA TTTACGGCCC CAACGTGATC
AGCATACCGG TCAAGTCCTA CCCCCAGCTG CTGGTGGACG AGGCCTTCAG CATCGCGCTG
TGGCTGGCTG ACCACTACTA CTGGTACGCC CTGTGCATCT TCCTCATTTC CTCCATCTCC
ATCTGCCTGT CGCTGTACAA GACCAGAAAG CAAAGCCAGA CTCTAAGGGA CATGGTCAAG
TTGTCCATGC GGGTGTGCGT GTGCCGGCCA GGGGGAGAGG AAGAGTGGGT GGACTCCAGT
GAGCTAGTGC CCGGAGACTG CCTGGTGCTG CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT
GCCGCCCTGG TGGCCGGCGA GTGCATGGTG AATGAGAGCT CTCTGACAGG AGAGAGCATT
CCAGTGCTGA AGACGGCACT GCCGGAGGGG CTGGGGCCCT ACTGTGCAGA GACACACCGG
CGGCACACAC TCTTCTGCGG GACCCTCATC TTGCAGGCCC GGGCCTATGT GGGACCGCAC
GTCCTGGCAG TGGTGACCCG CACAGGGTTC TGCACGGCAA AAGGGGGCCT GGTGAGCTCC
ATCTTGCACC CCCGGCCCAT CAACTTCAAG TTCTATAAAC ACAGCATGAA GTTTGTGGCT
GCCCTCTCTG TCCTGGCTCT CCTCGGCACC ATCTACAGCA TCTTCATCCT CTACCGAAAC
CGGGTGCCTC TGAATGAGAT TGTAATCCGG GCTCTCGACC TGGTGACCGT GGTGGTGCCA
CCTGCCCTGC CTGCTGCCAT GACTGTGTGC ACGCTCTACG CCCAGAGCCG ACTGCGGAGA
CAGGGCATTT TCTGCATCCA CCCACTGCGC ATCAACCTGG GGGGCAAGCT GCAGCTGACG
GGCACCCTCA CTGAGGACGG CTTAGACGTG ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA
TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC CTGCCTGTGG GGCCCCTGCT CCGAGCACTG
GCCACCTGCC ATGCCCTCAG CCGGCTCCAG GACACCCCCG TGGGCGACCC CATGGACTTG
AAGATGGTGG AGTCTACTGG CTGGGTCCTG GAGGAAGAGC CGGCTGCAGA CTCAGCATTT
GGGACCCAGG TCTTGGCAGT GATGAGACCC CCACTTTGGG AGCCCCAGCT GCAGGCAATG
GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC CACCGCTTCC CCTTCTCTTC GGCTCTGCAG
CGCATGAGTG TGGTGGTGGC GTGGCCAGGG GCCACTCAGC CCGAGGCCTA CGTCAAAGGC
TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC CCCGAGACAG TGCCCACCGA CTTCGCCCAG
ATGCTGCAGA GCTATACAGC TGCTGGCTAC CGTGTCGTGG CCCTGGCCAG CAAGCCACTG
CCCACTGTGC CCAGCCTGGA GGCAGCCCAG CAACTGACGA GGGACACTGT GGAAGGAGAC
CTGAGCCTCC TGGGGCTGCT GGTCATGAGG AACCTACTGA AGCCGCAGAC AACGCCAGTT
ATCCAGGCTC TGCGAAGGAC CCGCATCCGC GCCGTCATGG TGACAGGGGA CAACCTGCAG
ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC ATGGTGGCCC CCCAGGAGCA TCTGATCATC
GTCCACGCCA CCCACCCTGA GCGGGGTCAG CCTGCCTCTC TCGAGTTCCT GCCGATGGAG
TCCCCCACAG CCGTGAATGG CGTTAAGGAT CCTGACCAGG CTGCAAGCTA CACCGTGGAG
CCAGACCCCC GATCCAGGCA CCTGGCCCTC AGCGGGCCCA CCTTTGGTAT CATTGTGAAG
CACTTCCCCA AGCTGCTGCC CAAGGTCCTG GTCCAGGGCA CTGTCTTTGC CCGCATGGCC
CCTGAGCAGA AGACAGAGCT GGTGTGCGAG CTACAGAAGC TTCAGTACTG CGTGGGCATG
TGCGGAGACG GCGCCAATGA CTGTGGGGCC CTGAAGGCGG CTGATGTCGG CATCTCGCTG
TCCCAGGCAG AAGCCTCAGT GGTCTCACCC TTCACCTCGA GCATGGCCAG TATTGAGTGC
GTGCCCATGG TCATCAGGGA GGGGCGCTGT TCCCTTGACA CTTCGTTCAG CGTCTTCAAG
TACATGGCTC TGTACAGCCT GACCCAGTTC ATCTCCGTCC TGATCCTCTA CACGATCAAC
ACCAACCTGG GTGACCTGCA GTTCCTGGCC ATCGACCTGG TCATCACCAC CACAGTGGCA
GTGCTCATGA GCCGCACGGG GCCAGCGCTG GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG
CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG CTGCTGCAGA TGGTCCTGGT GACCGGCGTG
CAGCTAGGGG GCTACTTCCT GACCCTGGCC CAGCCATGGT TCGTGCCTCT GAACAGGACA
GTGGCCGCAC CAGACAACCT GCCCAACTAC GAGAACACCG TGGTCTTCTC TCTGTCCAGC
TTCCAGTACC TCATCCTGGC TGCAGCCGTG TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC
TACACCAATG TGCCCTTCCT GGTGGCCCTG GCGCTCCTGA GCTCCGTCCT GGTGGGCCTT
GTCCTGGTCC CCGGCCTCCT GCAGGGGCCG CTGGCGCTGA GGAACATCAC TGACACCGGC
TTCAAGCTGC TGCTGCTGGG TCTGGTCACC CTCAACTTCG TGGGGGCCTT CATGCTGGAG
AGCGTGCTAG ACCAGTGCCT CCCCGCCTGC CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC
AAGAAGCGCT TCAAGCAGCT GGAACGAGAG CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC
GCCGGCCCCC TGAGGTAG

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

RefSeq XP_016856336.1
CDS235..3732
Translation

Target ORF information:

RefSeq Version XM_017000847.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X10, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017000847.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGCGG
GTGCTGCGGT ATTACCTCTT CCAGGGCCAG CGCTATATCT GGATCGAGAC CCAGCAAGCC
TTCTACCAGG TCAGCCTCCT GGACCATGGC CGCTCTTGTG ACGACGTCCA CCGCTCCCGC
CATGGCCTCA GCCTCCAGGA CCAAATGGTG AGGAAGGCCA TTTACGGCCC CAACGTGATC
AGCATACCGG TCAAGTCCTA CCCCCAGCTG CTGGTGGACG AGGCCTTCAG CATCGCGCTG
TGGCTGGCTG ACCACTACTA CTGGTACGCC CTGTGCATCT TCCTCATTTC CTCCATCTCC
ATCTGCCTGT CGCTGTACAA GACCAGAAAG CAAAGCCAGA CTCTAAGGGA CATGGTCAAG
TTGTCCATGC GGGTGTGCGT GTGCCGGCCA GGGGGAGAGG AAGAGTGGGT GGACTCCAGT
GAGCTAGTGC CCGGAGACTG CCTGGTGCTG CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT
GCCGCCCTGG TGGCCGGCGA GTGCATGGTG AATGAGAGCT CTCTGACAGG AGAGAGCATT
CCAGTGCTGA AGACGGCACT GCCGGAGGGG CTGGGGCCCT ACTGTGCAGA GACACACCGG
CGGCACACAC TCTTCTGCGG GACCCTCATC TTGCAGGCCC GGGCCTATGT GGGACCGCAC
GTCCTGGCAG TGGTGACCCG CACAGGGTTC TGCACGGCAA AAGGGGGCCT GGTGAGCTCC
ATCTTGCACC CCCGGCCCAT CAACTTCAAG TTCTATAAAC ACAGCATGAA GTTTGTGGCT
GCCCTCTCTG TCCTGGCTCT CCTCGGCACC ATCTACAGCA TCTTCATCCT CTACCGAAAC
CGGGTGCCTC TGAATGAGAT TGTAATCCGG GCTCTCGACC TGGTGACCGT GGTGGTGCCA
CCTGCCCTGC CTGCTGCCAT GACTGTGTGC ACGCTCTACG CCCAGAGCCG ACTGCGGAGA
CAGGGCATTT TCTGCATCCA CCCACTGCGC ATCAACCTGG GGGGCAAGCT GCAGCTGACG
GGCACCCTCA CTGAGGACGG CTTAGACGTG ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA
TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC CTGCCTGTGG GGCCCCTGCT CCGAGCACTG
GCCACCTGCC ATGCCCTCAG CCGGCTCCAG GACACCCCCG TGGGCGACCC CATGGACTTG
AAGATGGTGG AGTCTACTGG CTGGGTCCTG GAGGAAGAGC CGGCTGCAGA CTCAGCATTT
GGGACCCAGG TCTTGGCAGT GATGAGACCC CCACTTTGGG AGCCCCAGCT GCAGGCAATG
GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC CACCGCTTCC CCTTCTCTTC GGCTCTGCAG
CGCATGAGTG TGGTGGTGGC GTGGCCAGGG GCCACTCAGC CCGAGGCCTA CGTCAAAGGC
TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC CCCGAGACAG TGCCCACCGA CTTCGCCCAG
ATGCTGCAGA GCTATACAGC TGCTGGCTAC CGTGTCGTGG CCCTGGCCAG CAAGCCACTG
CCCACTGTGC CCAGCCTGGA GGCAGCCCAG CAACTGACGA GGGACACTGT GGAAGGAGAC
CTGAGCCTCC TGGGGCTGCT GGTCATGAGG AACCTACTGA AGCCGCAGAC AACGCCAGTT
ATCCAGGCTC TGCGAAGGAC CCGCATCCGC GCCGTCATGG TGACAGGGGA CAACCTGCAG
ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC ATGGTGGCCC CCCAGGAGCA TCTGATCATC
GTCCACGCCA CCCACCCTGA GCGGGGTCAG CCTGCCTCTC TCGAGTTCCT GCCGATGGAG
TCCCCCACAG CCGTGAATGG CGTTAAGGAT CCTGACCAGG CTGCAAGCTA CACCGTGGAG
CCAGACCCCC GATCCAGGCA CCTGGCCCTC AGCGGGCCCA CCTTTGGTAT CATTGTGAAG
CACTTCCCCA AGCTGCTGCC CAAGGTCCTG GTCCAGGGCA CTGTCTTTGC CCGCATGGCC
CCTGAGCAGA AGACAGAGCT GGTGTGCGAG CTACAGAAGC TTCAGTACTG CGTGGGCATG
TGCGGAGACG GCGCCAATGA CTGTGGGGCC CTGAAGGCGG CTGATGTCGG CATCTCGCTG
TCCCAGGCAG AAGCCTCAGT GGTCTCACCC TTCACCTCGA GCATGGCCAG TATTGAGTGC
GTGCCCATGG TCATCAGGGA GGGGCGCTGT TCCCTTGACA CTTCGTTCAG CGTCTTCAAG
TACATGGCTC TGTACAGCCT GACCCAGTTC ATCTCCGTCC TGATCCTCTA CACGATCAAC
ACCAACCTGG GTGACCTGCA GTTCCTGGCC ATCGACCTGG TCATCACCAC CACAGTGGCA
GTGCTCATGA GCCGCACGGG GCCAGCGCTG GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG
CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG CTGCTGCAGA TGGTCCTGGT GACCGGCGTG
CAGCTAGGGG GCTACTTCCT GACCCTGGCC CAGCCATGGT TCGTGCCTCT GAACAGGACA
GTGGCCGCAC CAGACAACCT GCCCAACTAC GAGAACACCG TGGTCTTCTC TCTGTCCAGC
TTCCAGTACC TCATCCTGGC TGCAGCCGTG TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC
TACACCAATG TGCCCTTCCT GGTGGCCCTG GCGCTCCTGA GCTCCGTCCT GGTGGGCCTT
GTCCTGGTCC CCGGCCTCCT GCAGGGGCCG CTGGCGCTGA GGAACATCAC TGACACCGGC
TTCAAGCTGC TGCTGCTGGG TCTGGTCACC CTCAACTTCG TGGGGGCCTT CATGCTGGAG
AGCGTGCTAG ACCAGTGCCT CCCCGCCTGC CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC
AAGAAGCGCT TCAAGCAGCT GGAACGAGAG CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC
GCCGGCCCCC TGAGGTAG

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

CloneID OHu87137
Clone ID Related Accession (Same CDS sequence) XM_017000848.1
Accession Version XM_017000848.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3426bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X12
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGACGGGCAC CCTCACTGAG
GACGGCTTAG ACGTGATGGG GGTGGTGCCC CTGAAGGGGC AGGCATTCCT GCCCCTGGTC
CCAGAGCCTC GCCGCCTGCC TGTGGGGCCC CTGCTCCGAG CACTGGCCAC CTGCCATGCC
CTCAGCCGGC TCCAGGACAC CCCCGTGGGC GACCCCATGG ACTTGAAGAT GGTGGAGTCT
ACTGGCTGGG TCCTGGAGGA AGAGCCGGCT GCAGACTCAG CATTTGGGAC CCAGGTCTTG
GCAGTGATGA GACCCCCACT TTGGGAGCCC CAGCTGCAGG CAATGGAGGA GCCCCCGGTG
CCAGTCAGCG TCCTCCACCG CTTCCCCTTC TCTTCGGCTC TGCAGCGCAT GAGTGTGGTG
GTGGCGTGGC CAGGGGCCAC TCAGCCCGAG GCCTACGTCA AAGGCTCCCC GGAGCTGGTG
GCAGGGCTCT GCAACCCCGA GACAGTGCCC ACCGACTTCG CCCAGATGCT GCAGAGCTAT
ACAGCTGCTG GCTACCGTGT CGTGGCCCTG GCCAGCAAGC CACTGCCCAC TGTGCCCAGC
CTGGAGGCAG CCCAGCAACT GACGAGGGAC ACTGTGGAAG GAGACCTGAG CCTCCTGGGG
CTGCTGGTCA TGAGGAACCT ACTGAAGCCG CAGACAACGC CAGTTATCCA GGCTCTGCGA
AGGACCCGCA TCCGCGCCGT CATGGTGACA GGGGACAACC TGCAGACAGC GGTGACTGTG
GCCCGGGGCT GTGGCATGGT GGCCCCCCAG GAGCATCTGA TCATCGTCCA CGCCACCCAC
CCTGAGCGGG GTCAGCCTGC CTCTCTCGAG TTCCTGCCGA TGGAGTCCCC CACAGCCGTG
AATGGCGTTA AGGTCCTGGT CCAGGGCACT GTCTTTGCCC GCATGGCCCC TGAGCAGAAG
ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT CAGTACTGCG TGGGCATGTG CGGAGACGGC
GCCAATGACT GTGGGGCCCT GAAGGCGGCT GATGTCGGCA TCTCGCTGTC CCAGGCAGAA
GCCTCAGTGG TCTCACCCTT CACCTCGAGC ATGGCCAGTA TTGAGTGCGT GCCCATGGTC
ATCAGGGAGG GGCGCTGTTC CCTTGACACT TCGTTCAGCG TCTTCAAGTA CATGGCTCTG
TACAGCCTGA CCCAGTTCAT CTCCGTCCTG ATCCTCTACA CGATCAACAC CAACCTGGGT
GACCTGCAGT TCCTGGCCAT CGACCTGGTC ATCACCACCA CAGTGGCAGT GCTCATGAGC
CGCACGGGGC CAGCGCTGGT CCTGGGACGG GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG
CCCGTGCTCA GCAGCCTGCT GCTGCAGATG GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC
TACTTCCTGA CCCTGGCCCA GCCATGGTTC GTGCCTCTGA ACAGGACAGT GGCCGCACCA
GACAACCTGC CCAACTACGA GAACACCGTG GTCTTCTCTC TGTCCAGCTT CCAGTACCTC
ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG CCCTTCCGCC GGCCGCTCTA CACCAATGTG
CCCTTCCTGG TGGCCCTGGC GCTCCTGAGC TCCGTCCTGG TGGGCCTTGT CCTGGTCCCC
GGCCTCCTGC AGGGGCCGCT GGCGCTGAGG AACATCACTG ACACCGGCTT CAAGCTGCTG
CTGCTGGGTC TGGTCACCCT CAACTTCGTG GGGGCCTTCA TGCTGGAGAG CGTGCTAGAC
CAGTGCCTCC CCGCCTGCCT GCGCCGCCTC CGGCCCAAGC GGGCCTCCAA GAAGCGCTTC
AAGCAGCTGG AACGAGAGCT GGCCGAGCAG CCCTGGCCGC CGCTGCCCGC CGGCCCCCTG
AGGTAG

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

RefSeq XP_016856337.1
CDS235..3660
Translation

Target ORF information:

RefSeq Version XM_017000848.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X12, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017000848.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGACGGGCAC CCTCACTGAG
GACGGCTTAG ACGTGATGGG GGTGGTGCCC CTGAAGGGGC AGGCATTCCT GCCCCTGGTC
CCAGAGCCTC GCCGCCTGCC TGTGGGGCCC CTGCTCCGAG CACTGGCCAC CTGCCATGCC
CTCAGCCGGC TCCAGGACAC CCCCGTGGGC GACCCCATGG ACTTGAAGAT GGTGGAGTCT
ACTGGCTGGG TCCTGGAGGA AGAGCCGGCT GCAGACTCAG CATTTGGGAC CCAGGTCTTG
GCAGTGATGA GACCCCCACT TTGGGAGCCC CAGCTGCAGG CAATGGAGGA GCCCCCGGTG
CCAGTCAGCG TCCTCCACCG CTTCCCCTTC TCTTCGGCTC TGCAGCGCAT GAGTGTGGTG
GTGGCGTGGC CAGGGGCCAC TCAGCCCGAG GCCTACGTCA AAGGCTCCCC GGAGCTGGTG
GCAGGGCTCT GCAACCCCGA GACAGTGCCC ACCGACTTCG CCCAGATGCT GCAGAGCTAT
ACAGCTGCTG GCTACCGTGT CGTGGCCCTG GCCAGCAAGC CACTGCCCAC TGTGCCCAGC
CTGGAGGCAG CCCAGCAACT GACGAGGGAC ACTGTGGAAG GAGACCTGAG CCTCCTGGGG
CTGCTGGTCA TGAGGAACCT ACTGAAGCCG CAGACAACGC CAGTTATCCA GGCTCTGCGA
AGGACCCGCA TCCGCGCCGT CATGGTGACA GGGGACAACC TGCAGACAGC GGTGACTGTG
GCCCGGGGCT GTGGCATGGT GGCCCCCCAG GAGCATCTGA TCATCGTCCA CGCCACCCAC
CCTGAGCGGG GTCAGCCTGC CTCTCTCGAG TTCCTGCCGA TGGAGTCCCC CACAGCCGTG
AATGGCGTTA AGGTCCTGGT CCAGGGCACT GTCTTTGCCC GCATGGCCCC TGAGCAGAAG
ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT CAGTACTGCG TGGGCATGTG CGGAGACGGC
GCCAATGACT GTGGGGCCCT GAAGGCGGCT GATGTCGGCA TCTCGCTGTC CCAGGCAGAA
GCCTCAGTGG TCTCACCCTT CACCTCGAGC ATGGCCAGTA TTGAGTGCGT GCCCATGGTC
ATCAGGGAGG GGCGCTGTTC CCTTGACACT TCGTTCAGCG TCTTCAAGTA CATGGCTCTG
TACAGCCTGA CCCAGTTCAT CTCCGTCCTG ATCCTCTACA CGATCAACAC CAACCTGGGT
GACCTGCAGT TCCTGGCCAT CGACCTGGTC ATCACCACCA CAGTGGCAGT GCTCATGAGC
CGCACGGGGC CAGCGCTGGT CCTGGGACGG GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG
CCCGTGCTCA GCAGCCTGCT GCTGCAGATG GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC
TACTTCCTGA CCCTGGCCCA GCCATGGTTC GTGCCTCTGA ACAGGACAGT GGCCGCACCA
GACAACCTGC CCAACTACGA GAACACCGTG GTCTTCTCTC TGTCCAGCTT CCAGTACCTC
ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG CCCTTCCGCC GGCCGCTCTA CACCAATGTG
CCCTTCCTGG TGGCCCTGGC GCTCCTGAGC TCCGTCCTGG TGGGCCTTGT CCTGGTCCCC
GGCCTCCTGC AGGGGCCGCT GGCGCTGAGG AACATCACTG ACACCGGCTT CAAGCTGCTG
CTGCTGGGTC TGGTCACCCT CAACTTCGTG GGGGCCTTCA TGCTGGAGAG CGTGCTAGAC
CAGTGCCTCC CCGCCTGCCT GCGCCGCCTC CGGCCCAAGC GGGCCTCCAA GAAGCGCTTC
AAGCAGCTGG AACGAGAGCT GGCCGAGCAG CCCTGGCCGC CGCTGCCCGC CGGCCCCCTG
AGGTAG

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

CloneID OHu87138
Clone ID Related Accession (Same CDS sequence) XM_017000849.1
Accession Version XM_017000849.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3411bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X13
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCACTGAACC CCTACTATGG GTTCCAGGCC
TTCAGCATCG CGCTGTGGCT GGCTGACCAC TACTACTGGT ACGCCCTGTG CATCTTCCTC
ATTTCCTCCA TCTCCATCTG CCTGTCGCTG TACAAGACCA GAAAGCAAAG CCAGACTCTA
AGGGACATGG TCAAGTTGTC CATGCGGGTG TGCGTGTGCC GGCCAGGGGG AGAGGAAGAG
TGGGTGGACT CCAGTGAGCT AGTGCCCGGA GACTGCCTGG TGCTGCCCCA GGAGGGTGGG
CTGATGCCCT GTGATGCCGC CCTGGTGGCC GGCGAGTGCA TGGTGAATGA GAGCTCTCTG
ACAGGAGAGA GCATTCCAGT GCTGAAGACG GCACTGCCGG AGGGGCTGGG GCCCTACTGT
GCAGAGACAC ACCGGCGGCA CACACTCTTC TGCGGGACCC TCATCTTGCA GGCCCGGGCC
TATGTGGGAC CGCACGTCCT GGCAGTGGTG ACCCGCACAG GGTTCTGCAC GGCAAAAGGG
GGCCTGGTGA GCTCCATCTT GCACCCCCGG CCCATCAACT TCAAGTTCTA TAAACACAGC
ATGAAGTTTG TGGCTGCCCT CTCTGTCCTG GCTCTCCTCG GCACCATCTA CAGCATCTTC
ATCCTCTACC GAAACCGGGT GCCTCTGAAT GAGATTGTAA TCCGGGCTCT CGACCTGGTG
ACCGTGGTGG TGCCACCTGC CCTGCCTGCT GCCATGACTG TGTGCACGCT CTACGCCCAG
AGCCGACTGC GGAGACAGGG CATTTTCTGC ATCCACCCAC TGCGCATCAA CCTGGGGGGC
AAGCTGCAGC TGGTGTGTTT CGACAAGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGTC
CTGGTCCAGG GCACTGTCTT TGCCCGCATG GCCCCTGAGC AGAAGACAGA GCTGGTGTGC
GAGCTACAGA AGCTTCAGTA CTGCGTGGGC ATGTGCGGAG ACGGCGCCAA TGACTGTGGG
GCCCTGAAGG CGGCTGATGT CGGCATCTCG CTGTCCCAGG CAGAAGCCTC AGTGGTCTCA
CCCTTCACCT CGAGCATGGC CAGTATTGAG TGCGTGCCCA TGGTCATCAG GGAGGGGCGC
TGTTCCCTTG ACACTTCGTT CAGCGTCTTC AAGTACATGG CTCTGTACAG CCTGACCCAG
TTCATCTCCG TCCTGATCCT CTACACGATC AACACCAACC TGGGTGACCT GCAGTTCCTG
GCCATCGACC TGGTCATCAC CACCACAGTG GCAGTGCTCA TGAGCCGCAC GGGGCCAGCG
CTGGTCCTGG GACGGGTGCG GCCACCGGGG GCGCTGCTCA GCGTGCCCGT GCTCAGCAGC
CTGCTGCTGC AGATGGTCCT GGTGACCGGC GTGCAGCTAG GGGGCTACTT CCTGACCCTG
GCCCAGCCAT GGTTCGTGCC TCTGAACAGG ACAGTGGCCG CACCAGACAA CCTGCCCAAC
TACGAGAACA CCGTGGTCTT CTCTCTGTCC AGCTTCCAGT ACCTCATCCT GGCTGCAGCC
GTGTCCAAGG GGGCGCCCTT CCGCCGGCCG CTCTACACCA ATGTGCCCTT CCTGGTGGCC
CTGGCGCTCC TGAGCTCCGT CCTGGTGGGC CTTGTCCTGG TCCCCGGCCT CCTGCAGGGG
CCGCTGGCGC TGAGGAACAT CACTGACACC GGCTTCAAGC TGCTGCTGCT GGGTCTGGTC
ACCCTCAACT TCGTGGGGGC CTTCATGCTG GAGAGCGTGC TAGACCAGTG CCTCCCCGCC
TGCCTGCGCC GCCTCCGGCC CAAGCGGGCC TCCAAGAAGC GCTTCAAGCA GCTGGAACGA
GAGCTGGCCG AGCAGCCCTG GCCGCCGCTG CCCGCCGGCC CCCTGAGGTA G

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

RefSeq XP_016856338.1
CDS235..3645
Translation

Target ORF information:

RefSeq Version XM_017000849.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X13, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017000849.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCACTGAACC CCTACTATGG GTTCCAGGCC
TTCAGCATCG CGCTGTGGCT GGCTGACCAC TACTACTGGT ACGCCCTGTG CATCTTCCTC
ATTTCCTCCA TCTCCATCTG CCTGTCGCTG TACAAGACCA GAAAGCAAAG CCAGACTCTA
AGGGACATGG TCAAGTTGTC CATGCGGGTG TGCGTGTGCC GGCCAGGGGG AGAGGAAGAG
TGGGTGGACT CCAGTGAGCT AGTGCCCGGA GACTGCCTGG TGCTGCCCCA GGAGGGTGGG
CTGATGCCCT GTGATGCCGC CCTGGTGGCC GGCGAGTGCA TGGTGAATGA GAGCTCTCTG
ACAGGAGAGA GCATTCCAGT GCTGAAGACG GCACTGCCGG AGGGGCTGGG GCCCTACTGT
GCAGAGACAC ACCGGCGGCA CACACTCTTC TGCGGGACCC TCATCTTGCA GGCCCGGGCC
TATGTGGGAC CGCACGTCCT GGCAGTGGTG ACCCGCACAG GGTTCTGCAC GGCAAAAGGG
GGCCTGGTGA GCTCCATCTT GCACCCCCGG CCCATCAACT TCAAGTTCTA TAAACACAGC
ATGAAGTTTG TGGCTGCCCT CTCTGTCCTG GCTCTCCTCG GCACCATCTA CAGCATCTTC
ATCCTCTACC GAAACCGGGT GCCTCTGAAT GAGATTGTAA TCCGGGCTCT CGACCTGGTG
ACCGTGGTGG TGCCACCTGC CCTGCCTGCT GCCATGACTG TGTGCACGCT CTACGCCCAG
AGCCGACTGC GGAGACAGGG CATTTTCTGC ATCCACCCAC TGCGCATCAA CCTGGGGGGC
AAGCTGCAGC TGGTGTGTTT CGACAAGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGTC
CTGGTCCAGG GCACTGTCTT TGCCCGCATG GCCCCTGAGC AGAAGACAGA GCTGGTGTGC
GAGCTACAGA AGCTTCAGTA CTGCGTGGGC ATGTGCGGAG ACGGCGCCAA TGACTGTGGG
GCCCTGAAGG CGGCTGATGT CGGCATCTCG CTGTCCCAGG CAGAAGCCTC AGTGGTCTCA
CCCTTCACCT CGAGCATGGC CAGTATTGAG TGCGTGCCCA TGGTCATCAG GGAGGGGCGC
TGTTCCCTTG ACACTTCGTT CAGCGTCTTC AAGTACATGG CTCTGTACAG CCTGACCCAG
TTCATCTCCG TCCTGATCCT CTACACGATC AACACCAACC TGGGTGACCT GCAGTTCCTG
GCCATCGACC TGGTCATCAC CACCACAGTG GCAGTGCTCA TGAGCCGCAC GGGGCCAGCG
CTGGTCCTGG GACGGGTGCG GCCACCGGGG GCGCTGCTCA GCGTGCCCGT GCTCAGCAGC
CTGCTGCTGC AGATGGTCCT GGTGACCGGC GTGCAGCTAG GGGGCTACTT CCTGACCCTG
GCCCAGCCAT GGTTCGTGCC TCTGAACAGG ACAGTGGCCG CACCAGACAA CCTGCCCAAC
TACGAGAACA CCGTGGTCTT CTCTCTGTCC AGCTTCCAGT ACCTCATCCT GGCTGCAGCC
GTGTCCAAGG GGGCGCCCTT CCGCCGGCCG CTCTACACCA ATGTGCCCTT CCTGGTGGCC
CTGGCGCTCC TGAGCTCCGT CCTGGTGGGC CTTGTCCTGG TCCCCGGCCT CCTGCAGGGG
CCGCTGGCGC TGAGGAACAT CACTGACACC GGCTTCAAGC TGCTGCTGCT GGGTCTGGTC
ACCCTCAACT TCGTGGGGGC CTTCATGCTG GAGAGCGTGC TAGACCAGTG CCTCCCCGCC
TGCCTGCGCC GCCTCCGGCC CAAGCGGGCC TCCAAGAAGC GCTTCAAGCA GCTGGAACGA
GAGCTGGCCG AGCAGCCCTG GCCGCCGCTG CCCGCCGGCC CCCTGAGGTA G

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

CloneID OHu87139
Clone ID Related Accession (Same CDS sequence) XM_017000850.1
Accession Version XM_017000850.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3336bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X15
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGGTCCTGGA GGAAGAGCCG
GCTGCAGACT CAGCATTTGG GACCCAGGTC TTGGCAGTGA TGAGACCCCC ACTTTGGGAG
CCCCAGCTGC AGGCAATGGA GGAGCCCCCG GTGCCAGTCA GCGTCCTCCA CCGCTTCCCC
TTCTCTTCGG CTCTGCAGCG CATGAGTGTG GTGGTGGCGT GGCCAGGGGC CACTCAGCCC
GAGGCCTACG TCAAAGGCTC CCCGGAGCTG GTGGCAGGGC TCTGCAACCC CGAGACAGTG
CCCACCGACT TCGCCCAGAT GCTGCAGAGC TATACAGCTG CTGGCTACCG TGTCGTGGCC
CTGGCCAGCA AGCCACTGCC CACTGTGCCC AGCCTGGAGG CAGCCCAGCA ACTGACGAGG
GACACTGTGG AAGGAGACCT GAGCCTCCTG GGGCTGCTGG TCATGAGGAA CCTACTGAAG
CCGCAGACAA CGCCAGTTAT CCAGGCTCTG CGAAGGACCC GCATCCGCGC CGTCATGGTG
ACAGGGGACA ACCTGCAGAC AGCGGTGACT GTGGCCCGGG GCTGTGGCAT GGTGGCCCCC
CAGGAGCATC TGATCATCGT CCACGCCACC CACCCTGAGC GGGGTCAGCC TGCCTCTCTC
GAGTTCCTGC CGATGGAGTC CCCCACAGCC GTGAATGGCG TTAAGGATCC TGACCAGGCT
GCAAGCTACA CCGTGGAGCC AGACCCCCGA TCCAGGCACC TGGCCCTCAG CGGGCCCACC
TTTGGTATCA TTGTGAAGCA CTTCCCCAAG CTGCTGCCCA AGGTCCTGGT CCAGGGCACT
GTCTTTGCCC GCATGGCCCC TGAGCAGAAG ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT
CAGTACTGCG TGGGCATGTG CGGAGACGGC GCCAATGACT GTGGGGCCCT GAAGGCGGCT
GATGTCGGCA TCTCGCTGTC CCAGGCAGAA GCCTCAGTGG TCTCACCCTT CACCTCGAGC
ATGGCCAGTA TTGAGTGCGT GCCCATGGTC ATCAGGGAGG GGCGCTGTTC CCTTGACACT
TCGTTCAGCG TCTTCAAGTA CATGGCTCTG TACAGCCTGA CCCAGTTCAT CTCCGTCCTG
ATCCTCTACA CGATCAACAC CAACCTGGGT GACCTGCAGT TCCTGGCCAT CGACCTGGTC
ATCACCACCA CAGTGGCAGT GCTCATGAGC CGCACGGGGC CAGCGCTGGT CCTGGGACGG
GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG CCCGTGCTCA GCAGCCTGCT GCTGCAGATG
GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC TACTTCCTGA CCCTGGCCCA GCCATGGTTC
GTGCCTCTGA ACAGGACAGT GGCCGCACCA GACAACCTGC CCAACTACGA GAACACCGTG
GTCTTCTCTC TGTCCAGCTT CCAGTACCTC ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG
CCCTTCCGCC GGCCGCTCTA CACCAATGTG CCCTTCCTGG TGGCCCTGGC GCTCCTGAGC
TCCGTCCTGG TGGGCCTTGT CCTGGTCCCC GGCCTCCTGC AGGGGCCGCT GGCGCTGAGG
AACATCACTG ACACCGGCTT CAAGCTGCTG CTGCTGGGTC TGGTCACCCT CAACTTCGTG
GGGGCCTTCA TGCTGGAGAG CGTGCTAGAC CAGTGCCTCC CCGCCTGCCT GCGCCGCCTC
CGGCCCAAGC GGGCCTCCAA GAAGCGCTTC AAGCAGCTGG AACGAGAGCT GGCCGAGCAG
CCCTGGCCGC CGCTGCCCGC CGGCCCCCTG AGGTAG

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

RefSeq XP_016856339.1
CDS235..3570
Translation

Target ORF information:

RefSeq Version XM_017000850.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X15, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017000850.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGGTCCTGGA GGAAGAGCCG
GCTGCAGACT CAGCATTTGG GACCCAGGTC TTGGCAGTGA TGAGACCCCC ACTTTGGGAG
CCCCAGCTGC AGGCAATGGA GGAGCCCCCG GTGCCAGTCA GCGTCCTCCA CCGCTTCCCC
TTCTCTTCGG CTCTGCAGCG CATGAGTGTG GTGGTGGCGT GGCCAGGGGC CACTCAGCCC
GAGGCCTACG TCAAAGGCTC CCCGGAGCTG GTGGCAGGGC TCTGCAACCC CGAGACAGTG
CCCACCGACT TCGCCCAGAT GCTGCAGAGC TATACAGCTG CTGGCTACCG TGTCGTGGCC
CTGGCCAGCA AGCCACTGCC CACTGTGCCC AGCCTGGAGG CAGCCCAGCA ACTGACGAGG
GACACTGTGG AAGGAGACCT GAGCCTCCTG GGGCTGCTGG TCATGAGGAA CCTACTGAAG
CCGCAGACAA CGCCAGTTAT CCAGGCTCTG CGAAGGACCC GCATCCGCGC CGTCATGGTG
ACAGGGGACA ACCTGCAGAC AGCGGTGACT GTGGCCCGGG GCTGTGGCAT GGTGGCCCCC
CAGGAGCATC TGATCATCGT CCACGCCACC CACCCTGAGC GGGGTCAGCC TGCCTCTCTC
GAGTTCCTGC CGATGGAGTC CCCCACAGCC GTGAATGGCG TTAAGGATCC TGACCAGGCT
GCAAGCTACA CCGTGGAGCC AGACCCCCGA TCCAGGCACC TGGCCCTCAG CGGGCCCACC
TTTGGTATCA TTGTGAAGCA CTTCCCCAAG CTGCTGCCCA AGGTCCTGGT CCAGGGCACT
GTCTTTGCCC GCATGGCCCC TGAGCAGAAG ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT
CAGTACTGCG TGGGCATGTG CGGAGACGGC GCCAATGACT GTGGGGCCCT GAAGGCGGCT
GATGTCGGCA TCTCGCTGTC CCAGGCAGAA GCCTCAGTGG TCTCACCCTT CACCTCGAGC
ATGGCCAGTA TTGAGTGCGT GCCCATGGTC ATCAGGGAGG GGCGCTGTTC CCTTGACACT
TCGTTCAGCG TCTTCAAGTA CATGGCTCTG TACAGCCTGA CCCAGTTCAT CTCCGTCCTG
ATCCTCTACA CGATCAACAC CAACCTGGGT GACCTGCAGT TCCTGGCCAT CGACCTGGTC
ATCACCACCA CAGTGGCAGT GCTCATGAGC CGCACGGGGC CAGCGCTGGT CCTGGGACGG
GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG CCCGTGCTCA GCAGCCTGCT GCTGCAGATG
GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC TACTTCCTGA CCCTGGCCCA GCCATGGTTC
GTGCCTCTGA ACAGGACAGT GGCCGCACCA GACAACCTGC CCAACTACGA GAACACCGTG
GTCTTCTCTC TGTCCAGCTT CCAGTACCTC ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG
CCCTTCCGCC GGCCGCTCTA CACCAATGTG CCCTTCCTGG TGGCCCTGGC GCTCCTGAGC
TCCGTCCTGG TGGGCCTTGT CCTGGTCCCC GGCCTCCTGC AGGGGCCGCT GGCGCTGAGG
AACATCACTG ACACCGGCTT CAAGCTGCTG CTGCTGGGTC TGGTCACCCT CAACTTCGTG
GGGGCCTTCA TGCTGGAGAG CGTGCTAGAC CAGTGCCTCC CCGCCTGCCT GCGCCGCCTC
CGGCCCAAGC GGGCCTCCAA GAAGCGCTTC AAGCAGCTGG AACGAGAGCT GGCCGAGCAG
CCCTGGCCGC CGCTGCCCGC CGGCCCCCTG AGGTAG

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

CloneID OHu25689
Clone ID Related Accession (Same CDS sequence) NM_001141973.2
Accession Version NM_001141973.2 Latest version! Documents for ORF clone product in dufault 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 2017-04-23
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform 2
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY024349.1, AK290210.1, BC034575.1, AL354615.1 and BC030267.1. On May 22, 2014 this sequence version replaced NM_001141973.1. Transcript Variant: This variant (2) uses an alternate in-frame splice site in the 5' coding region, compared to variant 1, resulting in a shorter protein (isoform 2). The transcript contains an upstream ORF that could encode a 103aa protein and may modulate translation from the downstream ORF encoding isoform 2. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AY461712.1, AK290210.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCACTGAACC CCTACTATGG GTTCCAGGCC
TTCAGCATCG CGCTGTGGCT GGCTGACCAC TACTACTGGT ACGCCCTGTG CATCTTCCTC
ATTTCCTCCA TCTCCATCTG CCTGTCGCTG TACAAGACCA GAAAGCAAAG CCAGACTCTA
AGGGACATGG TCAAGTTGTC CATGCGGGTG TGCGTGTGCC GGCCAGGGGG AGAGGAAGAG
TGGGTGGACT CCAGTGAGCT AGTGCCCGGA GACTGCCTGG TGCTGCCCCA GGAGGGTGGG
CTGATGCCCT GTGATGCCGC CCTGGTGGCC GGCGAGTGCA TGGTGAATGA GAGCTCTCTG
ACAGGAGAGA GCATTCCAGT GCTGAAGACG GCACTGCCGG AGGGGCTGGG GCCCTACTGT
GCAGAGACAC ACCGGCGGCA CACACTCTTC TGCGGGACCC TCATCTTGCA GGCCCGGGCC
TATGTGGGAC CGCACGTCCT GGCAGTGGTG ACCCGCACAG GGTTCTGCAC GGCAAAAGGG
GGCCTGGTGA GCTCCATCTT GCACCCCCGG CCCATCAACT TCAAGTTCTA TAAACACAGC
ATGAAGTTTG TGGCTGCCCT CTCTGTCCTG GCTCTCCTCG GCACCATCTA CAGCATCTTC
ATCCTCTACC GAAACCGGGT GCCTCTGAAT GAGATTGTAA TCCGGGCTCT CGACCTGGTG
ACCGTGGTGG TGCCACCTGC CCTGCCTGCT GCCATGACTG TGTGCACGCT CTACGCCCAG
AGCCGACTGC GGAGACAGGG CATTTTCTGC ATCCACCCAC TGCGCATCAA CCTGGGGGGC
AAGCTGCAGC TGGTGTGTTT CGACAAGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGAT
CCTGACCAGG CTGCAAGCTA CACCGTGGAG CCAGACCCCC GATCCAGGCA CCTGGCCCTC
AGCGGGCCCA CCTTTGGTAT CATTGTGAAG CACTTCCCCA AGCTGCTGCC CAAGGTCCTG
GTCCAGGGCA CTGTCTTTGC CCGCATGGCC CCTGAGCAGA AGACAGAGCT GGTGTGCGAG
CTACAGAAGC TTCAGTACTG CGTGGGCATG TGCGGAGACG GCGCCAATGA CTGTGGGGCC
CTGAAGGCGG CTGATGTCGG CATCTCGCTG TCCCAGGCAG AAGCCTCAGT GGTCTCACCC
TTCACCTCGA GCATGGCCAG TATTGAGTGC GTGCCCATGG TCATCAGGGA GGGGCGCTGT
TCCCTTGACA CTTCGTTCAG CGTCTTCAAG TACATGGCTC TGTACAGCCT GACCCAGTTC
ATCTCCGTCC TGATCCTCTA CACGATCAAC ACCAACCTGG GTGACCTGCA GTTCCTGGCC
ATCGACCTGG TCATCACCAC CACAGTGGCA GTGCTCATGA GCCGCACGGG GCCAGCGCTG
GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG
CTGCTGCAGA TGGTCCTGGT GACCGGCGTG CAGCTAGGGG GCTACTTCCT GACCCTGGCC
CAGCCATGGT TCGTGCCTCT GAACAGGACA GTGGCCGCAC CAGACAACCT GCCCAACTAC
GAGAACACCG TGGTCTTCTC TCTGTCCAGC TTCCAGTACC TCATCCTGGC TGCAGCCGTG
TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC TACACCAATG TGCCCTTCCT GGTGGCCCTG
GCGCTCCTGA GCTCCGTCCT GGTGGGCCTT GTCCTGGTCC CCGGCCTCCT GCAGGGGCCG
CTGGCGCTGA GGAACATCAC TGACACCGGC TTCAAGCTGC TGCTGCTGGG TCTGGTCACC
CTCAACTTCG TGGGGGCCTT CATGCTGGAG AGCGTGCTAG ACCAGTGCCT CCCCGCCTGC
CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC AAGAAGCGCT TCAAGCAGCT GGAACGAGAG
CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC GCCGGCCCCC TGAGGTAG

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

RefSeq NP_001135445.1
CDS235..3762
Misc Feature(1)217..219
Misc Feature(2)271..336
Misc Feature(3)349..3570
Misc Feature(4)349..741
Misc Feature(5)370..432
Misc Feature(6)685..687
Misc Feature(7)910..978
Misc Feature(8)988..1047
Misc Feature(9)1006..1713
Misc Feature(10)1495..1554
Misc Feature(11)1597..1659
Misc Feature(12)<2101..2211
Misc Feature(13)<2767..>2916
Misc Feature(14)3016..3075
Misc Feature(15)3109..3162
Misc Feature(16)3211..3273
Misc Feature(17)3358..3417
Misc Feature(18)3457..3510
Misc Feature(19)3559..3621
Exon (1)1..244
Exon (2)245..339
Exon (3)340..522
Exon (4)523..581
Exon (5)582..696
Exon (6)697..776
Exon (7)777..854
Exon (8)855..924
Exon (9)925..1059
Exon (10)1060..1126
Exon (11)1127..1258
Exon (12)1259..1414
Exon (13)1415..1525
Exon (14)1526..1572
Exon (15)1573..1761
Exon (16)1762..1968
Exon (17)1969..2064
Exon (18)2065..2224
Exon (19)2225..2345
Exon (20)2346..2470
Exon (21)2471..2631
Exon (22)2632..2748
Exon (23)2749..2828
Exon (24)2829..2981
Exon (25)2982..3078
Exon (26)3079..3302
Exon (27)3303..3454
Exon (28)3455..3624
Exon (29)3625..4025
Translation

Target ORF information:

RefSeq Version NM_001141973.2
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001141973.2

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCACTGAACC CCTACTATGG GTTCCAGGCC
TTCAGCATCG CGCTGTGGCT GGCTGACCAC TACTACTGGT ACGCCCTGTG CATCTTCCTC
ATTTCCTCCA TCTCCATCTG CCTGTCGCTG TACAAGACCA GAAAGCAAAG CCAGACTCTA
AGGGACATGG TCAAGTTGTC CATGCGGGTG TGCGTGTGCC GGCCAGGGGG AGAGGAAGAG
TGGGTGGACT CCAGTGAGCT AGTGCCCGGA GACTGCCTGG TGCTGCCCCA GGAGGGTGGG
CTGATGCCCT GTGATGCCGC CCTGGTGGCC GGCGAGTGCA TGGTGAATGA GAGCTCTCTG
ACAGGAGAGA GCATTCCAGT GCTGAAGACG GCACTGCCGG AGGGGCTGGG GCCCTACTGT
GCAGAGACAC ACCGGCGGCA CACACTCTTC TGCGGGACCC TCATCTTGCA GGCCCGGGCC
TATGTGGGAC CGCACGTCCT GGCAGTGGTG ACCCGCACAG GGTTCTGCAC GGCAAAAGGG
GGCCTGGTGA GCTCCATCTT GCACCCCCGG CCCATCAACT TCAAGTTCTA TAAACACAGC
ATGAAGTTTG TGGCTGCCCT CTCTGTCCTG GCTCTCCTCG GCACCATCTA CAGCATCTTC
ATCCTCTACC GAAACCGGGT GCCTCTGAAT GAGATTGTAA TCCGGGCTCT CGACCTGGTG
ACCGTGGTGG TGCCACCTGC CCTGCCTGCT GCCATGACTG TGTGCACGCT CTACGCCCAG
AGCCGACTGC GGAGACAGGG CATTTTCTGC ATCCACCCAC TGCGCATCAA CCTGGGGGGC
AAGCTGCAGC TGGTGTGTTT CGACAAGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGAT
CCTGACCAGG CTGCAAGCTA CACCGTGGAG CCAGACCCCC GATCCAGGCA CCTGGCCCTC
AGCGGGCCCA CCTTTGGTAT CATTGTGAAG CACTTCCCCA AGCTGCTGCC CAAGGTCCTG
GTCCAGGGCA CTGTCTTTGC CCGCATGGCC CCTGAGCAGA AGACAGAGCT GGTGTGCGAG
CTACAGAAGC TTCAGTACTG CGTGGGCATG TGCGGAGACG GCGCCAATGA CTGTGGGGCC
CTGAAGGCGG CTGATGTCGG CATCTCGCTG TCCCAGGCAG AAGCCTCAGT GGTCTCACCC
TTCACCTCGA GCATGGCCAG TATTGAGTGC GTGCCCATGG TCATCAGGGA GGGGCGCTGT
TCCCTTGACA CTTCGTTCAG CGTCTTCAAG TACATGGCTC TGTACAGCCT GACCCAGTTC
ATCTCCGTCC TGATCCTCTA CACGATCAAC ACCAACCTGG GTGACCTGCA GTTCCTGGCC
ATCGACCTGG TCATCACCAC CACAGTGGCA GTGCTCATGA GCCGCACGGG GCCAGCGCTG
GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG
CTGCTGCAGA TGGTCCTGGT GACCGGCGTG CAGCTAGGGG GCTACTTCCT GACCCTGGCC
CAGCCATGGT TCGTGCCTCT GAACAGGACA GTGGCCGCAC CAGACAACCT GCCCAACTAC
GAGAACACCG TGGTCTTCTC TCTGTCCAGC TTCCAGTACC TCATCCTGGC TGCAGCCGTG
TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC TACACCAATG TGCCCTTCCT GGTGGCCCTG
GCGCTCCTGA GCTCCGTCCT GGTGGGCCTT GTCCTGGTCC CCGGCCTCCT GCAGGGGCCG
CTGGCGCTGA GGAACATCAC TGACACCGGC TTCAAGCTGC TGCTGCTGGG TCTGGTCACC
CTCAACTTCG TGGGGGCCTT CATGCTGGAG AGCGTGCTAG ACCAGTGCCT CCCCGCCTGC
CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC AAGAAGCGCT TCAAGCAGCT GGAACGAGAG
CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC GCCGGCCCCC TGAGGTAG

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

CloneID OHu25690
Clone ID Related Accession (Same CDS sequence) NM_001141974.2
Accession Version NM_001141974.2 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3477bp)
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 2017-04-23
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform 3
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY024349.1, BC030267.1, BC034575.1 and AK075310.1. On May 22, 2014 this sequence version replaced NM_001141974.1. Transcript Variant: This variant (3) uses an alternate in-frame splice site in the 5' coding region, and lacks two alternate exons in the 3' coding region which results in a frameshift, compared to variant 1. The resulting protein (isoform 3) is shorter and has a distinct C-terminus, compared to isoform 1. The transcript contains an upstream ORF that could encode a 103aa protein and may modulate translation from the downstream ORF encoding isoform 3. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC030267.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCACTGAACC CCTACTATGG GTTCCAGGCC
TTCAGCATCG CGCTGTGGCT GGCTGACCAC TACTACTGGT ACGCCCTGTG CATCTTCCTC
ATTTCCTCCA TCTCCATCTG CCTGTCGCTG TACAAGACCA GAAAGCAAAG CCAGACTCTA
AGGGACATGG TCAAGTTGTC CATGCGGGTG TGCGTGTGCC GGCCAGGGGG AGAGGAAGAG
TGGGTGGACT CCAGTGAGCT AGTGCCCGGA GACTGCCTGG TGCTGCCCCA GGAGGGTGGG
CTGATGCCCT GTGATGCCGC CCTGGTGGCC GGCGAGTGCA TGGTGAATGA GAGCTCTCTG
ACAGGAGAGA GCATTCCAGT GCTGAAGACG GCACTGCCGG AGGGGCTGGG GCCCTACTGT
GCAGAGACAC ACCGGCGGCA CACACTCTTC TGCGGGACCC TCATCTTGCA GGCCCGGGCC
TATGTGGGAC CGCACGTCCT GGCAGTGGTG ACCCGCACAG GGTTCTGCAC GGCAAAAGGG
GGCCTGGTGA GCTCCATCTT GCACCCCCGG CCCATCAACT TCAAGTTCTA TAAACACAGC
ATGAAGTTTG TGGCTGCCCT CTCTGTCCTG GCTCTCCTCG GCACCATCTA CAGCATCTTC
ATCCTCTACC GAAACCGGGT GCCTCTGAAT GAGATTGTAA TCCGGGCTCT CGACCTGGTG
ACCGTGGTGG TGCCACCTGC CCTGCCTGCT GCCATGACTG TGTGCACGCT CTACGCCCAG
AGCCGACTGC GGAGACAGGG CATTTTCTGC ATCCACCCAC TGCGCATCAA CCTGGGGGGC
AAGCTGCAGC TGGTGTGTTT CGACAAGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGTC
CTGGTCCAGG GCACTGTCTT TGCCCGCATG GCCCCTGAGC AGAAGACAGA GCTGGTGTGC
GAGCTACAGA AGCTTCAGTA CTGCGTGGGC ATGTGCGGAG ACGGCGCCAA TGACTGTGGG
GCCCTGAAGG CGGCTGATGT CGGCATCTCG CTGTCCCAGG CAGAAGCCTC AGTGGTCTCA
CCCTTCACCT CGAGCATGGC CAGTATTGAG TGCGTGCCCA TGGTCATCAG GGAGGGGCGC
TGTTCCCTTG ACACTTCGTT CAGCGTCTTC AAGTACATGG CTCTGTACAG CCTGACCCAG
TTCATCTCCG TCCTGATCCT CTACACGATC AACACCAACC TGGGTGACCT GCAGTTCCTG
GCCATCGACC TGGTCATCAC CACCACAGTG GCAGTGCTCA TGAGCCGCAC GGGGCCAGCG
CTGGTCCTGG GACGGGTGCG GCCACCGGGG GCGCTGCTCA GCGTGCCCGT GCTCAGCAGC
CTGCTGCTGC AGATGGTCCT GGTGACCGGC GTGCAGCTAG GGGGCTACTT CCTGACCCTG
GCCCAGCCAT GGTTCGTGCC TCTGAACAGG ACAGTGGCCG CACCAGACAA CCTGCCCAAC
TACGAGAACA CCGTGGTCTT CTCTCTGTCC AGCTTCCAGT ACCTCATCCT GGCTGCAGCC
GTGTCCAAGG GGGCGCCCTT CCGCCGGCCG CTCTACACCA ATGAGCGTGC TAGACCAGTG
CCTCCCCGCC TGCCTGCGCC GCCTCCGGCC CAAGCGGGCC TCCAAGAAGC GCTTCAAGCA
GCTGGAACGA GAGCTGGCCG AGCAGCCCTG GCCGCCGCTG CCCGCCGGCC CCCTGAGGTA
GTGCAGGCCC ACGGGCACCC CAGACACTGG AACTCCCTGC CTCTGAGCCA CCAACTGGAC
CCCTCTCCAG CAACACCACC GCCACCACCT CCCACATCCC TGAGGTTGGC GACTGTCTAC
ACTCCTCCCC CGAGACCACC CCCACCCTGG GGAAGCGTTG ACTACTGTCC CCTACCTTGG
ACCATCCCGC GTAGGGGTGG CAGCCCCCAG CTCCCCTCAG TGCTGCTGTC AGTGTAG

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

RefSeq NP_001135446.1
CDS235..3711
Misc Feature(1)217..219
Exon (1)1..244
Translation

Target ORF information:

RefSeq Version NM_001141974.2
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant 3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001141974.2

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCACTGAACC CCTACTATGG GTTCCAGGCC
TTCAGCATCG CGCTGTGGCT GGCTGACCAC TACTACTGGT ACGCCCTGTG CATCTTCCTC
ATTTCCTCCA TCTCCATCTG CCTGTCGCTG TACAAGACCA GAAAGCAAAG CCAGACTCTA
AGGGACATGG TCAAGTTGTC CATGCGGGTG TGCGTGTGCC GGCCAGGGGG AGAGGAAGAG
TGGGTGGACT CCAGTGAGCT AGTGCCCGGA GACTGCCTGG TGCTGCCCCA GGAGGGTGGG
CTGATGCCCT GTGATGCCGC CCTGGTGGCC GGCGAGTGCA TGGTGAATGA GAGCTCTCTG
ACAGGAGAGA GCATTCCAGT GCTGAAGACG GCACTGCCGG AGGGGCTGGG GCCCTACTGT
GCAGAGACAC ACCGGCGGCA CACACTCTTC TGCGGGACCC TCATCTTGCA GGCCCGGGCC
TATGTGGGAC CGCACGTCCT GGCAGTGGTG ACCCGCACAG GGTTCTGCAC GGCAAAAGGG
GGCCTGGTGA GCTCCATCTT GCACCCCCGG CCCATCAACT TCAAGTTCTA TAAACACAGC
ATGAAGTTTG TGGCTGCCCT CTCTGTCCTG GCTCTCCTCG GCACCATCTA CAGCATCTTC
ATCCTCTACC GAAACCGGGT GCCTCTGAAT GAGATTGTAA TCCGGGCTCT CGACCTGGTG
ACCGTGGTGG TGCCACCTGC CCTGCCTGCT GCCATGACTG TGTGCACGCT CTACGCCCAG
AGCCGACTGC GGAGACAGGG CATTTTCTGC ATCCACCCAC TGCGCATCAA CCTGGGGGGC
AAGCTGCAGC TGGTGTGTTT CGACAAGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGTC
CTGGTCCAGG GCACTGTCTT TGCCCGCATG GCCCCTGAGC AGAAGACAGA GCTGGTGTGC
GAGCTACAGA AGCTTCAGTA CTGCGTGGGC ATGTGCGGAG ACGGCGCCAA TGACTGTGGG
GCCCTGAAGG CGGCTGATGT CGGCATCTCG CTGTCCCAGG CAGAAGCCTC AGTGGTCTCA
CCCTTCACCT CGAGCATGGC CAGTATTGAG TGCGTGCCCA TGGTCATCAG GGAGGGGCGC
TGTTCCCTTG ACACTTCGTT CAGCGTCTTC AAGTACATGG CTCTGTACAG CCTGACCCAG
TTCATCTCCG TCCTGATCCT CTACACGATC AACACCAACC TGGGTGACCT GCAGTTCCTG
GCCATCGACC TGGTCATCAC CACCACAGTG GCAGTGCTCA TGAGCCGCAC GGGGCCAGCG
CTGGTCCTGG GACGGGTGCG GCCACCGGGG GCGCTGCTCA GCGTGCCCGT GCTCAGCAGC
CTGCTGCTGC AGATGGTCCT GGTGACCGGC GTGCAGCTAG GGGGCTACTT CCTGACCCTG
GCCCAGCCAT GGTTCGTGCC TCTGAACAGG ACAGTGGCCG CACCAGACAA CCTGCCCAAC
TACGAGAACA CCGTGGTCTT CTCTCTGTCC AGCTTCCAGT ACCTCATCCT GGCTGCAGCC
GTGTCCAAGG GGGCGCCCTT CCGCCGGCCG CTCTACACCA ATGAGCGTGC TAGACCAGTG
CCTCCCCGCC TGCCTGCGCC GCCTCCGGCC CAAGCGGGCC TCCAAGAAGC GCTTCAAGCA
GCTGGAACGA GAGCTGGCCG AGCAGCCCTG GCCGCCGCTG CCCGCCGGCC CCCTGAGGTA
GTGCAGGCCC ACGGGCACCC CAGACACTGG AACTCCCTGC CTCTGAGCCA CCAACTGGAC
CCCTCTCCAG CAACACCACC GCCACCACCT CCCACATCCC TGAGGTTGGC GACTGTCTAC
ACTCCTCCCC CGAGACCACC CCCACCCTGG GGAAGCGTTG ACTACTGTCC CCTACCTTGG
ACCATCCCGC GTAGGGGTGG CAGCCCCCAG CTCCCCTCAG TGCTGCTGTC AGTGTAG

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

CloneID OHu25691
Clone ID Related Accession (Same CDS sequence) NM_022089.3
Accession Version NM_022089.3 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3543bp)
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 2017-04-23
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform 1
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from HY024349.1, AL354615.1 and BC030267.1. On May 22, 2014 this sequence version replaced NM_022089.2. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). The transcript contains an upstream ORF that could encode a 103aa protein and may modulate translation from the downstream ORF encoding isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AL354615.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGACGGGCAC CCTCACTGAG
GACGGCTTAG ACGTGATGGG GGTGGTGCCC CTGAAGGGGC AGGCATTCCT GCCCCTGGTC
CCAGAGCCTC GCCGCCTGCC TGTGGGGCCC CTGCTCCGAG CACTGGCCAC CTGCCATGCC
CTCAGCCGGC TCCAGGACAC CCCCGTGGGC GACCCCATGG ACTTGAAGAT GGTGGAGTCT
ACTGGCTGGG TCCTGGAGGA AGAGCCGGCT GCAGACTCAG CATTTGGGAC CCAGGTCTTG
GCAGTGATGA GACCCCCACT TTGGGAGCCC CAGCTGCAGG CAATGGAGGA GCCCCCGGTG
CCAGTCAGCG TCCTCCACCG CTTCCCCTTC TCTTCGGCTC TGCAGCGCAT GAGTGTGGTG
GTGGCGTGGC CAGGGGCCAC TCAGCCCGAG GCCTACGTCA AAGGCTCCCC GGAGCTGGTG
GCAGGGCTCT GCAACCCCGA GACAGTGCCC ACCGACTTCG CCCAGATGCT GCAGAGCTAT
ACAGCTGCTG GCTACCGTGT CGTGGCCCTG GCCAGCAAGC CACTGCCCAC TGTGCCCAGC
CTGGAGGCAG CCCAGCAACT GACGAGGGAC ACTGTGGAAG GAGACCTGAG CCTCCTGGGG
CTGCTGGTCA TGAGGAACCT ACTGAAGCCG CAGACAACGC CAGTTATCCA GGCTCTGCGA
AGGACCCGCA TCCGCGCCGT CATGGTGACA GGGGACAACC TGCAGACAGC GGTGACTGTG
GCCCGGGGCT GTGGCATGGT GGCCCCCCAG GAGCATCTGA TCATCGTCCA CGCCACCCAC
CCTGAGCGGG GTCAGCCTGC CTCTCTCGAG TTCCTGCCGA TGGAGTCCCC CACAGCCGTG
AATGGCGTTA AGGATCCTGA CCAGGCTGCA AGCTACACCG TGGAGCCAGA CCCCCGATCC
AGGCACCTGG CCCTCAGCGG GCCCACCTTT GGTATCATTG TGAAGCACTT CCCCAAGCTG
CTGCCCAAGG TCCTGGTCCA GGGCACTGTC TTTGCCCGCA TGGCCCCTGA GCAGAAGACA
GAGCTGGTGT GCGAGCTACA GAAGCTTCAG TACTGCGTGG GCATGTGCGG AGACGGCGCC
AATGACTGTG GGGCCCTGAA GGCGGCTGAT GTCGGCATCT CGCTGTCCCA GGCAGAAGCC
TCAGTGGTCT CACCCTTCAC CTCGAGCATG GCCAGTATTG AGTGCGTGCC CATGGTCATC
AGGGAGGGGC GCTGTTCCCT TGACACTTCG TTCAGCGTCT TCAAGTACAT GGCTCTGTAC
AGCCTGACCC AGTTCATCTC CGTCCTGATC CTCTACACGA TCAACACCAA CCTGGGTGAC
CTGCAGTTCC TGGCCATCGA CCTGGTCATC ACCACCACAG TGGCAGTGCT CATGAGCCGC
ACGGGGCCAG CGCTGGTCCT GGGACGGGTG CGGCCACCGG GGGCGCTGCT CAGCGTGCCC
GTGCTCAGCA GCCTGCTGCT GCAGATGGTC CTGGTGACCG GCGTGCAGCT AGGGGGCTAC
TTCCTGACCC TGGCCCAGCC ATGGTTCGTG CCTCTGAACA GGACAGTGGC CGCACCAGAC
AACCTGCCCA ACTACGAGAA CACCGTGGTC TTCTCTCTGT CCAGCTTCCA GTACCTCATC
CTGGCTGCAG CCGTGTCCAA GGGGGCGCCC TTCCGCCGGC CGCTCTACAC CAATGTGCCC
TTCCTGGTGG CCCTGGCGCT CCTGAGCTCC GTCCTGGTGG GCCTTGTCCT GGTCCCCGGC
CTCCTGCAGG GGCCGCTGGC GCTGAGGAAC ATCACTGACA CCGGCTTCAA GCTGCTGCTG
CTGGGTCTGG TCACCCTCAA CTTCGTGGGG GCCTTCATGC TGGAGAGCGT GCTAGACCAG
TGCCTCCCCG CCTGCCTGCG CCGCCTCCGG CCCAAGCGGG CCTCCAAGAA GCGCTTCAAG
CAGCTGGAAC GAGAGCTGGC CGAGCAGCCC TGGCCGCCGC TGCCCGCCGG CCCCCTGAGG
TAG

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

RefSeq NP_071372.1
CDS235..3777
Misc Feature(1)217..219
Misc Feature(2)271..336
Misc Feature(3)349..3585
Misc Feature(4)349..756
Misc Feature(5)370..432
Misc Feature(6)685..687
Misc Feature(7)925..993
Misc Feature(8)1003..1062
Misc Feature(9)1021..1728
Misc Feature(10)1510..1569
Misc Feature(11)1612..1674
Misc Feature(12)<2116..2226
Misc Feature(13)<2782..>2931
Misc Feature(14)3031..3090
Misc Feature(15)3124..3177
Misc Feature(16)3226..3288
Misc Feature(17)3373..3432
Misc Feature(18)3472..3525
Misc Feature(19)3574..3636
Exon (1)1..244
Exon (2)245..339
Exon (3)340..522
Exon (4)523..581
Exon (5)582..711
Exon (6)712..791
Exon (7)792..869
Exon (8)870..939
Exon (9)940..1074
Exon (10)1075..1141
Exon (11)1142..1273
Exon (12)1274..1429
Exon (13)1430..1540
Exon (14)1541..1587
Exon (15)1588..1776
Exon (16)1777..1983
Exon (17)1984..2079
Exon (18)2080..2239
Exon (19)2240..2360
Exon (20)2361..2485
Exon (21)2486..2646
Exon (22)2647..2763
Exon (23)2764..2843
Exon (24)2844..2996
Exon (25)2997..3093
Exon (26)3094..3317
Exon (27)3318..3469
Exon (28)3470..3639
Exon (29)3640..4040
Translation

Target ORF information:

RefSeq Version NM_022089.3
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_022089.3

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGACGGGCAC CCTCACTGAG
GACGGCTTAG ACGTGATGGG GGTGGTGCCC CTGAAGGGGC AGGCATTCCT GCCCCTGGTC
CCAGAGCCTC GCCGCCTGCC TGTGGGGCCC CTGCTCCGAG CACTGGCCAC CTGCCATGCC
CTCAGCCGGC TCCAGGACAC CCCCGTGGGC GACCCCATGG ACTTGAAGAT GGTGGAGTCT
ACTGGCTGGG TCCTGGAGGA AGAGCCGGCT GCAGACTCAG CATTTGGGAC CCAGGTCTTG
GCAGTGATGA GACCCCCACT TTGGGAGCCC CAGCTGCAGG CAATGGAGGA GCCCCCGGTG
CCAGTCAGCG TCCTCCACCG CTTCCCCTTC TCTTCGGCTC TGCAGCGCAT GAGTGTGGTG
GTGGCGTGGC CAGGGGCCAC TCAGCCCGAG GCCTACGTCA AAGGCTCCCC GGAGCTGGTG
GCAGGGCTCT GCAACCCCGA GACAGTGCCC ACCGACTTCG CCCAGATGCT GCAGAGCTAT
ACAGCTGCTG GCTACCGTGT CGTGGCCCTG GCCAGCAAGC CACTGCCCAC TGTGCCCAGC
CTGGAGGCAG CCCAGCAACT GACGAGGGAC ACTGTGGAAG GAGACCTGAG CCTCCTGGGG
CTGCTGGTCA TGAGGAACCT ACTGAAGCCG CAGACAACGC CAGTTATCCA GGCTCTGCGA
AGGACCCGCA TCCGCGCCGT CATGGTGACA GGGGACAACC TGCAGACAGC GGTGACTGTG
GCCCGGGGCT GTGGCATGGT GGCCCCCCAG GAGCATCTGA TCATCGTCCA CGCCACCCAC
CCTGAGCGGG GTCAGCCTGC CTCTCTCGAG TTCCTGCCGA TGGAGTCCCC CACAGCCGTG
AATGGCGTTA AGGATCCTGA CCAGGCTGCA AGCTACACCG TGGAGCCAGA CCCCCGATCC
AGGCACCTGG CCCTCAGCGG GCCCACCTTT GGTATCATTG TGAAGCACTT CCCCAAGCTG
CTGCCCAAGG TCCTGGTCCA GGGCACTGTC TTTGCCCGCA TGGCCCCTGA GCAGAAGACA
GAGCTGGTGT GCGAGCTACA GAAGCTTCAG TACTGCGTGG GCATGTGCGG AGACGGCGCC
AATGACTGTG GGGCCCTGAA GGCGGCTGAT GTCGGCATCT CGCTGTCCCA GGCAGAAGCC
TCAGTGGTCT CACCCTTCAC CTCGAGCATG GCCAGTATTG AGTGCGTGCC CATGGTCATC
AGGGAGGGGC GCTGTTCCCT TGACACTTCG TTCAGCGTCT TCAAGTACAT GGCTCTGTAC
AGCCTGACCC AGTTCATCTC CGTCCTGATC CTCTACACGA TCAACACCAA CCTGGGTGAC
CTGCAGTTCC TGGCCATCGA CCTGGTCATC ACCACCACAG TGGCAGTGCT CATGAGCCGC
ACGGGGCCAG CGCTGGTCCT GGGACGGGTG CGGCCACCGG GGGCGCTGCT CAGCGTGCCC
GTGCTCAGCA GCCTGCTGCT GCAGATGGTC CTGGTGACCG GCGTGCAGCT AGGGGGCTAC
TTCCTGACCC TGGCCCAGCC ATGGTTCGTG CCTCTGAACA GGACAGTGGC CGCACCAGAC
AACCTGCCCA ACTACGAGAA CACCGTGGTC TTCTCTCTGT CCAGCTTCCA GTACCTCATC
CTGGCTGCAG CCGTGTCCAA GGGGGCGCCC TTCCGCCGGC CGCTCTACAC CAATGTGCCC
TTCCTGGTGG CCCTGGCGCT CCTGAGCTCC GTCCTGGTGG GCCTTGTCCT GGTCCCCGGC
CTCCTGCAGG GGCCGCTGGC GCTGAGGAAC ATCACTGACA CCGGCTTCAA GCTGCTGCTG
CTGGGTCTGG TCACCCTCAA CTTCGTGGGG GCCTTCATGC TGGAGAGCGT GCTAGACCAG
TGCCTCCCCG CCTGCCTGCG CCGCCTCCGG CCCAAGCGGG CCTCCAAGAA GCGCTTCAAG
CAGCTGGAAC GAGAGCTGGC CGAGCAGCCC TGGCCGCCGC TGCCCGCCGG CCCCCTGAGG
TAG

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

CloneID OHu33261
Clone ID Related Accession (Same CDS sequence) XM_005245810.1
Accession Version XM_005245810.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3606bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGCGG
GTGCTGCGGT ATTACCTCTT CCAGGGCCAG CGCTATATCT GGATCGAGAC CCAGCAAGCC
TTCTACCAGG TCAGCCTCCT GGACCATGGC CGCTCTTGTG ACGACGTCCA CCGCTCCCGC
CATGGCCTCA GCCTCCAGGA CCAAATGGTG AGGAAGGCCA TTTACGGCCC CAACGTGATC
AGCATACCGG TCAAGTCCTA CCCCCAGCTG CTGGTGGACG AGGCACTGAA CCCCTACTAT
GGGTTCCAGG CCTTCAGCAT CGCGCTGTGG CTGGCTGACC ACTACTACTG GTACGCCCTG
TGCATCTTCC TCATTTCCTC CATCTCCATC TGCCTGTCGC TGTACAAGAC CAGAAAGCAA
AGCCAGACTC TAAGGGACAT GGTCAAGTTG TCCATGCGGG TGTGCGTGTG CCGGCCAGGG
GGAGAGGAAG AGTGGGTGGA CTCCAGTGAG CTAGTGCCCG GAGACTGCCT GGTGCTGCCC
CAGGAGGGTG GGCTGATGCC CTGTGATGCC GCCCTGGTGG CCGGCGAGTG CATGGTGAAT
GAGAGCTCTC TGACAGGAGA GAGCATTCCA GTGCTGAAGA CGGCACTGCC GGAGGGGCTG
GGGCCCTACT GTGCAGAGAC ACACCGGCGG CACACACTCT TCTGCGGGAC CCTCATCTTG
CAGGCCCGGG CCTATGTGGG ACCGCACGTC CTGGCAGTGG TGACCCGCAC AGGGTTCTGC
ACGGCAAAAG GGGGCCTGGT GAGCTCCATC TTGCACCCCC GGCCCATCAA CTTCAAGTTC
TATAAACACA GCATGAAGTT TGTGGCTGCC CTCTCTGTCC TGGCTCTCCT CGGCACCATC
TACAGCATCT TCATCCTCTA CCGAAACCGG GTGCCTCTGA ATGAGATTGT AATCCGGGCT
CTCGACCTGG TGACCGTGGT GGTGCCACCT GCCCTGCCTG CTGCCATGAC TGTGTGCACG
CTCTACGCCC AGAGCCGACT GCGGAGACAG GGCATTTTCT GCATCCACCC ACTGCGCATC
AACCTGGGGG GCAAGCTGCA GCTGGTGTGT TTCGACAAGA CGGGCACCCT CACTGAGGAC
GGCTTAGACG TGATGGGGGT GGTGCCCCTG AAGGGGCAGG CATTCCTGCC CCTGGTCCCA
GAGCCTCGCC GCCTGCCTGT GGGGCCCCTG CTCCGAGCAC TGGCCACCTG CCATGCCCTC
AGCCGGCTCC AGGACACCCC CGTGGGCGAC CCCATGGACT TGAAGATGGT GGAGTCTACT
GGCTGGGTCC TGGAGGAAGA GCCGGCTGCA GACTCAGCAT TTGGGACCCA GGTCTTGGCA
GTGATGAGAC CCCCACTTTG GGAGCCCCAG CTGCAGGCAA TGGAGGAGCC CCCGGTGCCA
GTCAGCGTCC TCCACCGCTT CCCCTTCTCT TCGGCTCTGC AGCGCATGAG TGTGGTGGTG
GCGTGGCCAG GGGCCACTCA GCCCGAGGCC TACGTCAAAG GCTCCCCGGA GCTGGTGGCA
GGGCTCTGCA ACCCCGAGAC AGTGCCCACC GACTTCGCCC AGATGCTGCA GAGCTATACA
GCTGCTGGCT ACCGTGTCGT GGCCCTGGCC AGCAAGCCAC TGCCCACTGT GCCCAGCCTG
GAGGCAGCCC AGCAACTGAC GAGGGACACT GTGGAAGGAG ACCTGAGCCT CCTGGGGCTG
CTGGTCATGA GGAACCTACT GAAGCCGCAG ACAACGCCAG TTATCCAGGC TCTGCGAAGG
ACCCGCATCC GCGCCGTCAT GGTGACAGGG GACAACCTGC AGACAGCGGT GACTGTGGCC
CGGGGCTGTG GCATGGTGGC CCCCCAGGAG CATCTGATCA TCGTCCACGC CACCCACCCT
GAGCGGGGTC AGCCTGCCTC TCTCGAGTTC CTGCCGATGG AGTCCCCCAC AGCCGTGAAT
GGCGTTAAGG ATCCTGACCA GGCTGCAAGC TACACCGTGG AGCCAGACCC CCGATCCAGG
CACCTGGCCC TCAGCGGGCC CACCTTTGGT ATCATTGTGA AGCACTTCCC CAAGCTGCTG
CCCAAGGTCC TGGTCCAGGG CACTGTCTTT GCCCGCATGG CCCCTGAGCA GAAGACAGAG
CTGGTGTGCG AGCTACAGAA GCTTCAGTAC TGCGTGGGCA TGTGCGGAGA CGGCGCCAAT
GACTGTGGGG CCCTGAAGGC GGCTGATGTC GGCATCTCGC TGTCCCAGGC AGAAGCCTCA
GTGGTCTCAC CCTTCACCTC GAGCATGGCC AGTATTGAGT GCGTGCCCAT GGTCATCAGG
GAGGGGCGCT GTTCCCTTGA CACTTCGTTC AGCGTCTTCA AGTACATGGC TCTGTACAGC
CTGACCCAGT TCATCTCCGT CCTGATCCTC TACACGATCA ACACCAACCT GGGTGACCTG
CAGTTCCTGG CCATCGACCT GGTCATCACC ACCACAGTGG CAGTGCTCAT GAGCCGCACG
GGGCCAGCGC TGGTCCTGGG ACGGGTGCGG CCACCGGGGG CGCTGCTCAG CGTGCCCGTG
CTCAGCAGCC TGCTGCTGCA GATGGTCCTG GTGACCGGCG TGCAGCTAGG GGGCTACTTC
CTGACCCTGG CCCAGCCATG GTTCGTGCCT CTGAACAGGA CAGTGGCCGC ACCAGACAAC
CTGCCCAACT ACGAGAACAC CGTGGTCTTC TCTCTGTCCA GCTTCCAGTA CCTCATCCTG
GCTGCAGCCG TGTCCAAGGG GGCGCCCTTC CGCCGGCCGC TCTACACCAA TGAGCGTGCT
AGACCAGTGC CTCCCCGCCT GCCTGCGCCG CCTCCGGCCC AAGCGGGCCT CCAAGAAGCG
CTTCAAGCAG CTGGAACGAG AGCTGGCCGA GCAGCCCTGG CCGCCGCTGC CCGCCGGCCC
CCTGAGGTAG TGCAGGCCCA CGGGCACCCC AGACACTGGA ACTCCCTGCC TCTGAGCCAC
CAACTGGACC CCTCTCCAGC AACACCACCG CCACCACCTC CCACATCCCT GAGGTTGGCG
ACTGTCTACA CTCCTCCCCC GAGACCACCC CCACCCTGGG GAAGCGTTGA CTACTGTCCC
CTACCTTGGA CCATCCCGCG TAGGGGTGGC AGCCCCCAGC TCCCCTCAGT GCTGCTGTCA
GTGTAG

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

RefSeq XP_005245867.1
CDS235..3840
Translation

Target ORF information:

RefSeq Version XM_005245810.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005245810.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGCGG
GTGCTGCGGT ATTACCTCTT CCAGGGCCAG CGCTATATCT GGATCGAGAC CCAGCAAGCC
TTCTACCAGG TCAGCCTCCT GGACCATGGC CGCTCTTGTG ACGACGTCCA CCGCTCCCGC
CATGGCCTCA GCCTCCAGGA CCAAATGGTG AGGAAGGCCA TTTACGGCCC CAACGTGATC
AGCATACCGG TCAAGTCCTA CCCCCAGCTG CTGGTGGACG AGGCACTGAA CCCCTACTAT
GGGTTCCAGG CCTTCAGCAT CGCGCTGTGG CTGGCTGACC ACTACTACTG GTACGCCCTG
TGCATCTTCC TCATTTCCTC CATCTCCATC TGCCTGTCGC TGTACAAGAC CAGAAAGCAA
AGCCAGACTC TAAGGGACAT GGTCAAGTTG TCCATGCGGG TGTGCGTGTG CCGGCCAGGG
GGAGAGGAAG AGTGGGTGGA CTCCAGTGAG CTAGTGCCCG GAGACTGCCT GGTGCTGCCC
CAGGAGGGTG GGCTGATGCC CTGTGATGCC GCCCTGGTGG CCGGCGAGTG CATGGTGAAT
GAGAGCTCTC TGACAGGAGA GAGCATTCCA GTGCTGAAGA CGGCACTGCC GGAGGGGCTG
GGGCCCTACT GTGCAGAGAC ACACCGGCGG CACACACTCT TCTGCGGGAC CCTCATCTTG
CAGGCCCGGG CCTATGTGGG ACCGCACGTC CTGGCAGTGG TGACCCGCAC AGGGTTCTGC
ACGGCAAAAG GGGGCCTGGT GAGCTCCATC TTGCACCCCC GGCCCATCAA CTTCAAGTTC
TATAAACACA GCATGAAGTT TGTGGCTGCC CTCTCTGTCC TGGCTCTCCT CGGCACCATC
TACAGCATCT TCATCCTCTA CCGAAACCGG GTGCCTCTGA ATGAGATTGT AATCCGGGCT
CTCGACCTGG TGACCGTGGT GGTGCCACCT GCCCTGCCTG CTGCCATGAC TGTGTGCACG
CTCTACGCCC AGAGCCGACT GCGGAGACAG GGCATTTTCT GCATCCACCC ACTGCGCATC
AACCTGGGGG GCAAGCTGCA GCTGGTGTGT TTCGACAAGA CGGGCACCCT CACTGAGGAC
GGCTTAGACG TGATGGGGGT GGTGCCCCTG AAGGGGCAGG CATTCCTGCC CCTGGTCCCA
GAGCCTCGCC GCCTGCCTGT GGGGCCCCTG CTCCGAGCAC TGGCCACCTG CCATGCCCTC
AGCCGGCTCC AGGACACCCC CGTGGGCGAC CCCATGGACT TGAAGATGGT GGAGTCTACT
GGCTGGGTCC TGGAGGAAGA GCCGGCTGCA GACTCAGCAT TTGGGACCCA GGTCTTGGCA
GTGATGAGAC CCCCACTTTG GGAGCCCCAG CTGCAGGCAA TGGAGGAGCC CCCGGTGCCA
GTCAGCGTCC TCCACCGCTT CCCCTTCTCT TCGGCTCTGC AGCGCATGAG TGTGGTGGTG
GCGTGGCCAG GGGCCACTCA GCCCGAGGCC TACGTCAAAG GCTCCCCGGA GCTGGTGGCA
GGGCTCTGCA ACCCCGAGAC AGTGCCCACC GACTTCGCCC AGATGCTGCA GAGCTATACA
GCTGCTGGCT ACCGTGTCGT GGCCCTGGCC AGCAAGCCAC TGCCCACTGT GCCCAGCCTG
GAGGCAGCCC AGCAACTGAC GAGGGACACT GTGGAAGGAG ACCTGAGCCT CCTGGGGCTG
CTGGTCATGA GGAACCTACT GAAGCCGCAG ACAACGCCAG TTATCCAGGC TCTGCGAAGG
ACCCGCATCC GCGCCGTCAT GGTGACAGGG GACAACCTGC AGACAGCGGT GACTGTGGCC
CGGGGCTGTG GCATGGTGGC CCCCCAGGAG CATCTGATCA TCGTCCACGC CACCCACCCT
GAGCGGGGTC AGCCTGCCTC TCTCGAGTTC CTGCCGATGG AGTCCCCCAC AGCCGTGAAT
GGCGTTAAGG ATCCTGACCA GGCTGCAAGC TACACCGTGG AGCCAGACCC CCGATCCAGG
CACCTGGCCC TCAGCGGGCC CACCTTTGGT ATCATTGTGA AGCACTTCCC CAAGCTGCTG
CCCAAGGTCC TGGTCCAGGG CACTGTCTTT GCCCGCATGG CCCCTGAGCA GAAGACAGAG
CTGGTGTGCG AGCTACAGAA GCTTCAGTAC TGCGTGGGCA TGTGCGGAGA CGGCGCCAAT
GACTGTGGGG CCCTGAAGGC GGCTGATGTC GGCATCTCGC TGTCCCAGGC AGAAGCCTCA
GTGGTCTCAC CCTTCACCTC GAGCATGGCC AGTATTGAGT GCGTGCCCAT GGTCATCAGG
GAGGGGCGCT GTTCCCTTGA CACTTCGTTC AGCGTCTTCA AGTACATGGC TCTGTACAGC
CTGACCCAGT TCATCTCCGT CCTGATCCTC TACACGATCA ACACCAACCT GGGTGACCTG
CAGTTCCTGG CCATCGACCT GGTCATCACC ACCACAGTGG CAGTGCTCAT GAGCCGCACG
GGGCCAGCGC TGGTCCTGGG ACGGGTGCGG CCACCGGGGG CGCTGCTCAG CGTGCCCGTG
CTCAGCAGCC TGCTGCTGCA GATGGTCCTG GTGACCGGCG TGCAGCTAGG GGGCTACTTC
CTGACCCTGG CCCAGCCATG GTTCGTGCCT CTGAACAGGA CAGTGGCCGC ACCAGACAAC
CTGCCCAACT ACGAGAACAC CGTGGTCTTC TCTCTGTCCA GCTTCCAGTA CCTCATCCTG
GCTGCAGCCG TGTCCAAGGG GGCGCCCTTC CGCCGGCCGC TCTACACCAA TGAGCGTGCT
AGACCAGTGC CTCCCCGCCT GCCTGCGCCG CCTCCGGCCC AAGCGGGCCT CCAAGAAGCG
CTTCAAGCAG CTGGAACGAG AGCTGGCCGA GCAGCCCTGG CCGCCGCTGC CCGCCGGCCC
CCTGAGGTAG TGCAGGCCCA CGGGCACCCC AGACACTGGA ACTCCCTGCC TCTGAGCCAC
CAACTGGACC CCTCTCCAGC AACACCACCG CCACCACCTC CCACATCCCT GAGGTTGGCG
ACTGTCTACA CTCCTCCCCC GAGACCACCC CCACCCTGGG GAAGCGTTGA CTACTGTCCC
CTACCTTGGA CCATCCCGCG TAGGGGTGGC AGCCCCCAGC TCCCCTCAGT GCTGCTGTCA
GTGTAG

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

CloneID OHu33262
Clone ID Related Accession (Same CDS sequence) XM_005245811.1
Accession Version XM_005245811.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3594bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCACTGAACC CCTACTATGG GTTCCAGGCC
TTCAGCATCG CGCTGTGGCT GGCTGACCAC TACTACTGGT ACGCCCTGTG CATCTTCCTC
ATTTCCTCCA TCTCCATCTG CCTGTCGCTG TACAAGACCA GAAAGCAAAG CCAGACTCTA
AGGGACATGG TCAAGTTGTC CATGCGGGTG TGCGTGTGCC GGCCAGGGGG AGAGGAAGAG
TGGGTGGACT CCAGTGAGCT AGTGCCCGGA GACTGCCTGG TGCTGCCCCA GGAGGGTGGG
CTGATGCCCT GTGATGCCGC CCTGGTGGCC GGCGAGTGCA TGGTGAATGA GAGCTCTCTG
ACAGGAGAGA GCATTCCAGT GCTGAAGACG GCACTGCCGG AGGGGCTGGG GCCCTACTGT
GCAGAGACAC ACCGGCGGCA CACACTCTTC TGCGGGACCC TCATCTTGCA GGCCCGGGCC
TATGTGGGAC CGCACGTCCT GGCAGTGGTG ACCCGCACAG GGTTCTGCAC GGCAAAAGGG
GGCCTGGTGA GCTCCATCTT GCACCCCCGG CCCATCAACT TCAAGTTCTA TAAACACAGC
ATGAAGTTTG TGGCTGCCCT CTCTGTCCTG GCTCTCCTCG GCACCATCTA CAGCATCTTC
ATCCTCTACC GAAACCGGGT GCCTCTGAAT GAGATTGTAA TCCGGGCTCT CGACCTGGTG
ACCGTGGTGG TGCCACCTGC CCTGCCTGCT GCCATGACTG TGTGCACGCT CTACGCCCAG
AGCCGACTGC GGAGACAGGG CATTTTCTGC ATCCACCCAC TGCGCATCAA CCTGGGGGGC
AAGCTGCAGC TGGTGTGTTT CGACAAGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGAT
CCTGACCAGG CTGCAAGCTA CACCGTGGAG CCAGACCCCC GATCCAGGCA CCTGGCCCTC
AGCGGGCCCA CCTTTGGTAT CATTGTGAAG CACTTCCCCA AGCTGCTGCC CAAGGTCCTG
GTCCAGGGCA CTGTCTTTGC CCGCATGGCC CCTGAGCAGA AGACAGAGCT GGTGTGCGAG
CTACAGAAGC TTCAGTACTG CGTGGGCATG TGCGGAGACG GCGCCAATGA CTGTGGGGCC
CTGAAGGCGG CTGATGTCGG CATCTCGCTG TCCCAGGCAG AAGCCTCAGT GGTCTCACCC
TTCACCTCGA GCATGGCCAG TATTGAGTGC GTGCCCATGG TCATCAGGGA GGGGCGCTGT
TCCCTTGACA CTTCGTTCAG CGTCTTCAAG TACATGGCTC TGTACAGCCT GACCCAGTTC
ATCTCCGTCC TGATCCTCTA CACGATCAAC ACCAACCTGG GTGACCTGCA GTTCCTGGCC
ATCGACCTGG TCATCACCAC CACAGTGGCA GTGCTCATGA GCCGCACGGG GCCAGCGCTG
GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG
CTGCTGCAGA TGGTCCTGGT GACCGGCGTG CAGCTAGGGG GCTACTTCCT GACCCTGGCC
CAGCCATGGT TCGTGCCTCT GAACAGGACA GTGGCCGCAC CAGACAACCT GCCCAACTAC
GAGAACACCG TGGTCTTCTC TCTGTCCAGC TTCCAGTACC TCATCCTGGC TGCAGCCGTG
TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC TACACCAATG AGCGTGCTAG ACCAGTGCCT
CCCCGCCTGC CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC AAGAAGCGCT TCAAGCAGCT
GGAACGAGAG CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC GCCGGCCCCC TGAGGTAGTG
CAGGCCCACG GGCACCCCAG ACACTGGAAC TCCCTGCCTC TGAGCCACCA ACTGGACCCC
TCTCCAGCAA CACCACCGCC ACCACCTCCC ACATCCCTGA GGTTGGCGAC TGTCTACACT
CCTCCCCCGA GACCACCCCC ACCCTGGGGA AGCGTTGACT ACTGTCCCCT ACCTTGGACC
ATCCCGCGTA GGGGTGGCAG CCCCCAGCTC CCCTCAGTGC TGCTGTCAGT GTAG

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

RefSeq XP_005245868.1
CDS235..3828
Translation

Target ORF information:

RefSeq Version XM_005245811.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005245811.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCACTGAACC CCTACTATGG GTTCCAGGCC
TTCAGCATCG CGCTGTGGCT GGCTGACCAC TACTACTGGT ACGCCCTGTG CATCTTCCTC
ATTTCCTCCA TCTCCATCTG CCTGTCGCTG TACAAGACCA GAAAGCAAAG CCAGACTCTA
AGGGACATGG TCAAGTTGTC CATGCGGGTG TGCGTGTGCC GGCCAGGGGG AGAGGAAGAG
TGGGTGGACT CCAGTGAGCT AGTGCCCGGA GACTGCCTGG TGCTGCCCCA GGAGGGTGGG
CTGATGCCCT GTGATGCCGC CCTGGTGGCC GGCGAGTGCA TGGTGAATGA GAGCTCTCTG
ACAGGAGAGA GCATTCCAGT GCTGAAGACG GCACTGCCGG AGGGGCTGGG GCCCTACTGT
GCAGAGACAC ACCGGCGGCA CACACTCTTC TGCGGGACCC TCATCTTGCA GGCCCGGGCC
TATGTGGGAC CGCACGTCCT GGCAGTGGTG ACCCGCACAG GGTTCTGCAC GGCAAAAGGG
GGCCTGGTGA GCTCCATCTT GCACCCCCGG CCCATCAACT TCAAGTTCTA TAAACACAGC
ATGAAGTTTG TGGCTGCCCT CTCTGTCCTG GCTCTCCTCG GCACCATCTA CAGCATCTTC
ATCCTCTACC GAAACCGGGT GCCTCTGAAT GAGATTGTAA TCCGGGCTCT CGACCTGGTG
ACCGTGGTGG TGCCACCTGC CCTGCCTGCT GCCATGACTG TGTGCACGCT CTACGCCCAG
AGCCGACTGC GGAGACAGGG CATTTTCTGC ATCCACCCAC TGCGCATCAA CCTGGGGGGC
AAGCTGCAGC TGGTGTGTTT CGACAAGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGAT
CCTGACCAGG CTGCAAGCTA CACCGTGGAG CCAGACCCCC GATCCAGGCA CCTGGCCCTC
AGCGGGCCCA CCTTTGGTAT CATTGTGAAG CACTTCCCCA AGCTGCTGCC CAAGGTCCTG
GTCCAGGGCA CTGTCTTTGC CCGCATGGCC CCTGAGCAGA AGACAGAGCT GGTGTGCGAG
CTACAGAAGC TTCAGTACTG CGTGGGCATG TGCGGAGACG GCGCCAATGA CTGTGGGGCC
CTGAAGGCGG CTGATGTCGG CATCTCGCTG TCCCAGGCAG AAGCCTCAGT GGTCTCACCC
TTCACCTCGA GCATGGCCAG TATTGAGTGC GTGCCCATGG TCATCAGGGA GGGGCGCTGT
TCCCTTGACA CTTCGTTCAG CGTCTTCAAG TACATGGCTC TGTACAGCCT GACCCAGTTC
ATCTCCGTCC TGATCCTCTA CACGATCAAC ACCAACCTGG GTGACCTGCA GTTCCTGGCC
ATCGACCTGG TCATCACCAC CACAGTGGCA GTGCTCATGA GCCGCACGGG GCCAGCGCTG
GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG
CTGCTGCAGA TGGTCCTGGT GACCGGCGTG CAGCTAGGGG GCTACTTCCT GACCCTGGCC
CAGCCATGGT TCGTGCCTCT GAACAGGACA GTGGCCGCAC CAGACAACCT GCCCAACTAC
GAGAACACCG TGGTCTTCTC TCTGTCCAGC TTCCAGTACC TCATCCTGGC TGCAGCCGTG
TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC TACACCAATG AGCGTGCTAG ACCAGTGCCT
CCCCGCCTGC CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC AAGAAGCGCT TCAAGCAGCT
GGAACGAGAG CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC GCCGGCCCCC TGAGGTAGTG
CAGGCCCACG GGCACCCCAG ACACTGGAAC TCCCTGCCTC TGAGCCACCA ACTGGACCCC
TCTCCAGCAA CACCACCGCC ACCACCTCCC ACATCCCTGA GGTTGGCGAC TGTCTACACT
CCTCCCCCGA GACCACCCCC ACCCTGGGGA AGCGTTGACT ACTGTCCCCT ACCTTGGACC
ATCCCGCGTA GGGGTGGCAG CCCCCAGCTC CCCTCAGTGC TGCTGTCAGT GTAG

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

CloneID OHu33263
Clone ID Related Accession (Same CDS sequence) XM_006710512.1
Accession Version XM_006710512.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3591bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X4
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGCGGGTGCT GCGGTATTAC
CTCTTCCAGG GCCAGCGCTA TATCTGGATC GAGACCCAGC AAGCCTTCTA CCAGGTCAGC
CTCCTGGACC ATGGCCGCTC TTGTGACGAC GTCCACCGCT CCCGCCATGG CCTCAGCCTC
CAGGACCAAA TGGTGAGGAA GGCCATTTAC GGCCCCAACG TGATCAGCAT ACCGGTCAAG
TCCTACCCCC AGCTGCTGGT GGACGAGGCA CTGAACCCCT ACTATGGGTT CCAGGCCTTC
AGCATCGCGC TGTGGCTGGC TGACCACTAC TACTGGTACG CCCTGTGCAT CTTCCTCATT
TCCTCCATCT CCATCTGCCT GTCGCTGTAC AAGACCAGAA AGCAAAGCCA GACTCTAAGG
GACATGGTCA AGTTGTCCAT GCGGGTGTGC GTGTGCCGGC CAGGGGGAGA GGAAGAGTGG
GTGGACTCCA GTGAGCTAGT GCCCGGAGAC TGCCTGGTGC TGCCCCAGGA GGGTGGGCTG
ATGCCCTGTG ATGCCGCCCT GGTGGCCGGC GAGTGCATGG TGAATGAGAG CTCTCTGACA
GGAGAGAGCA TTCCAGTGCT GAAGACGGCA CTGCCGGAGG GGCTGGGGCC CTACTGTGCA
GAGACACACC GGCGGCACAC ACTCTTCTGC GGGACCCTCA TCTTGCAGGC CCGGGCCTAT
GTGGGACCGC ACGTCCTGGC AGTGGTGACC CGCACAGGGT TCTGCACGGC AAAAGGGGGC
CTGGTGAGCT CCATCTTGCA CCCCCGGCCC ATCAACTTCA AGTTCTATAA ACACAGCATG
AAGTTTGTGG CTGCCCTCTC TGTCCTGGCT CTCCTCGGCA CCATCTACAG CATCTTCATC
CTCTACCGAA ACCGGGTGCC TCTGAATGAG ATTGTAATCC GGGCTCTCGA CCTGGTGACC
GTGGTGGTGC CACCTGCCCT GCCTGCTGCC ATGACTGTGT GCACGCTCTA CGCCCAGAGC
CGACTGCGGA GACAGGGCAT TTTCTGCATC CACCCACTGC GCATCAACCT GGGGGGCAAG
CTGCAGCTGG TGTGTTTCGA CAAGACGGGC ACCCTCACTG AGGACGGCTT AGACGTGATG
GGGGTGGTGC CCCTGAAGGG GCAGGCATTC CTGCCCCTGG TCCCAGAGCC TCGCCGCCTG
CCTGTGGGGC CCCTGCTCCG AGCACTGGCC ACCTGCCATG CCCTCAGCCG GCTCCAGGAC
ACCCCCGTGG GCGACCCCAT GGACTTGAAG ATGGTGGAGT CTACTGGCTG GGTCCTGGAG
GAAGAGCCGG CTGCAGACTC AGCATTTGGG ACCCAGGTCT TGGCAGTGAT GAGACCCCCA
CTTTGGGAGC CCCAGCTGCA GGCAATGGAG GAGCCCCCGG TGCCAGTCAG CGTCCTCCAC
CGCTTCCCCT TCTCTTCGGC TCTGCAGCGC ATGAGTGTGG TGGTGGCGTG GCCAGGGGCC
ACTCAGCCCG AGGCCTACGT CAAAGGCTCC CCGGAGCTGG TGGCAGGGCT CTGCAACCCC
GAGACAGTGC CCACCGACTT CGCCCAGATG CTGCAGAGCT ATACAGCTGC TGGCTACCGT
GTCGTGGCCC TGGCCAGCAA GCCACTGCCC ACTGTGCCCA GCCTGGAGGC AGCCCAGCAA
CTGACGAGGG ACACTGTGGA AGGAGACCTG AGCCTCCTGG GGCTGCTGGT CATGAGGAAC
CTACTGAAGC CGCAGACAAC GCCAGTTATC CAGGCTCTGC GAAGGACCCG CATCCGCGCC
GTCATGGTGA CAGGGGACAA CCTGCAGACA GCGGTGACTG TGGCCCGGGG CTGTGGCATG
GTGGCCCCCC AGGAGCATCT GATCATCGTC CACGCCACCC ACCCTGAGCG GGGTCAGCCT
GCCTCTCTCG AGTTCCTGCC GATGGAGTCC CCCACAGCCG TGAATGGCGT TAAGGATCCT
GACCAGGCTG CAAGCTACAC CGTGGAGCCA GACCCCCGAT CCAGGCACCT GGCCCTCAGC
GGGCCCACCT TTGGTATCAT TGTGAAGCAC TTCCCCAAGC TGCTGCCCAA GGTCCTGGTC
CAGGGCACTG TCTTTGCCCG CATGGCCCCT GAGCAGAAGA CAGAGCTGGT GTGCGAGCTA
CAGAAGCTTC AGTACTGCGT GGGCATGTGC GGAGACGGCG CCAATGACTG TGGGGCCCTG
AAGGCGGCTG ATGTCGGCAT CTCGCTGTCC CAGGCAGAAG CCTCAGTGGT CTCACCCTTC
ACCTCGAGCA TGGCCAGTAT TGAGTGCGTG CCCATGGTCA TCAGGGAGGG GCGCTGTTCC
CTTGACACTT CGTTCAGCGT CTTCAAGTAC ATGGCTCTGT ACAGCCTGAC CCAGTTCATC
TCCGTCCTGA TCCTCTACAC GATCAACACC AACCTGGGTG ACCTGCAGTT CCTGGCCATC
GACCTGGTCA TCACCACCAC AGTGGCAGTG CTCATGAGCC GCACGGGGCC AGCGCTGGTC
CTGGGACGGG TGCGGCCACC GGGGGCGCTG CTCAGCGTGC CCGTGCTCAG CAGCCTGCTG
CTGCAGATGG TCCTGGTGAC CGGCGTGCAG CTAGGGGGCT ACTTCCTGAC CCTGGCCCAG
CCATGGTTCG TGCCTCTGAA CAGGACAGTG GCCGCACCAG ACAACCTGCC CAACTACGAG
AACACCGTGG TCTTCTCTCT GTCCAGCTTC CAGTACCTCA TCCTGGCTGC AGCCGTGTCC
AAGGGGGCGC CCTTCCGCCG GCCGCTCTAC ACCAATGAGC GTGCTAGACC AGTGCCTCCC
CGCCTGCCTG CGCCGCCTCC GGCCCAAGCG GGCCTCCAAG AAGCGCTTCA AGCAGCTGGA
ACGAGAGCTG GCCGAGCAGC CCTGGCCGCC GCTGCCCGCC GGCCCCCTGA GGTAGTGCAG
GCCCACGGGC ACCCCAGACA CTGGAACTCC CTGCCTCTGA GCCACCAACT GGACCCCTCT
CCAGCAACAC CACCGCCACC ACCTCCCACA TCCCTGAGGT TGGCGACTGT CTACACTCCT
CCCCCGAGAC CACCCCCACC CTGGGGAAGC GTTGACTACT GTCCCCTACC TTGGACCATC
CCGCGTAGGG GTGGCAGCCC CCAGCTCCCC TCAGTGCTGC TGTCAGTGTA G

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

RefSeq XP_006710575.1
CDS235..3825
Translation

Target ORF information:

RefSeq Version XM_006710512.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X4, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_006710512.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGCGGGTGCT GCGGTATTAC
CTCTTCCAGG GCCAGCGCTA TATCTGGATC GAGACCCAGC AAGCCTTCTA CCAGGTCAGC
CTCCTGGACC ATGGCCGCTC TTGTGACGAC GTCCACCGCT CCCGCCATGG CCTCAGCCTC
CAGGACCAAA TGGTGAGGAA GGCCATTTAC GGCCCCAACG TGATCAGCAT ACCGGTCAAG
TCCTACCCCC AGCTGCTGGT GGACGAGGCA CTGAACCCCT ACTATGGGTT CCAGGCCTTC
AGCATCGCGC TGTGGCTGGC TGACCACTAC TACTGGTACG CCCTGTGCAT CTTCCTCATT
TCCTCCATCT CCATCTGCCT GTCGCTGTAC AAGACCAGAA AGCAAAGCCA GACTCTAAGG
GACATGGTCA AGTTGTCCAT GCGGGTGTGC GTGTGCCGGC CAGGGGGAGA GGAAGAGTGG
GTGGACTCCA GTGAGCTAGT GCCCGGAGAC TGCCTGGTGC TGCCCCAGGA GGGTGGGCTG
ATGCCCTGTG ATGCCGCCCT GGTGGCCGGC GAGTGCATGG TGAATGAGAG CTCTCTGACA
GGAGAGAGCA TTCCAGTGCT GAAGACGGCA CTGCCGGAGG GGCTGGGGCC CTACTGTGCA
GAGACACACC GGCGGCACAC ACTCTTCTGC GGGACCCTCA TCTTGCAGGC CCGGGCCTAT
GTGGGACCGC ACGTCCTGGC AGTGGTGACC CGCACAGGGT TCTGCACGGC AAAAGGGGGC
CTGGTGAGCT CCATCTTGCA CCCCCGGCCC ATCAACTTCA AGTTCTATAA ACACAGCATG
AAGTTTGTGG CTGCCCTCTC TGTCCTGGCT CTCCTCGGCA CCATCTACAG CATCTTCATC
CTCTACCGAA ACCGGGTGCC TCTGAATGAG ATTGTAATCC GGGCTCTCGA CCTGGTGACC
GTGGTGGTGC CACCTGCCCT GCCTGCTGCC ATGACTGTGT GCACGCTCTA CGCCCAGAGC
CGACTGCGGA GACAGGGCAT TTTCTGCATC CACCCACTGC GCATCAACCT GGGGGGCAAG
CTGCAGCTGG TGTGTTTCGA CAAGACGGGC ACCCTCACTG AGGACGGCTT AGACGTGATG
GGGGTGGTGC CCCTGAAGGG GCAGGCATTC CTGCCCCTGG TCCCAGAGCC TCGCCGCCTG
CCTGTGGGGC CCCTGCTCCG AGCACTGGCC ACCTGCCATG CCCTCAGCCG GCTCCAGGAC
ACCCCCGTGG GCGACCCCAT GGACTTGAAG ATGGTGGAGT CTACTGGCTG GGTCCTGGAG
GAAGAGCCGG CTGCAGACTC AGCATTTGGG ACCCAGGTCT TGGCAGTGAT GAGACCCCCA
CTTTGGGAGC CCCAGCTGCA GGCAATGGAG GAGCCCCCGG TGCCAGTCAG CGTCCTCCAC
CGCTTCCCCT TCTCTTCGGC TCTGCAGCGC ATGAGTGTGG TGGTGGCGTG GCCAGGGGCC
ACTCAGCCCG AGGCCTACGT CAAAGGCTCC CCGGAGCTGG TGGCAGGGCT CTGCAACCCC
GAGACAGTGC CCACCGACTT CGCCCAGATG CTGCAGAGCT ATACAGCTGC TGGCTACCGT
GTCGTGGCCC TGGCCAGCAA GCCACTGCCC ACTGTGCCCA GCCTGGAGGC AGCCCAGCAA
CTGACGAGGG ACACTGTGGA AGGAGACCTG AGCCTCCTGG GGCTGCTGGT CATGAGGAAC
CTACTGAAGC CGCAGACAAC GCCAGTTATC CAGGCTCTGC GAAGGACCCG CATCCGCGCC
GTCATGGTGA CAGGGGACAA CCTGCAGACA GCGGTGACTG TGGCCCGGGG CTGTGGCATG
GTGGCCCCCC AGGAGCATCT GATCATCGTC CACGCCACCC ACCCTGAGCG GGGTCAGCCT
GCCTCTCTCG AGTTCCTGCC GATGGAGTCC CCCACAGCCG TGAATGGCGT TAAGGATCCT
GACCAGGCTG CAAGCTACAC CGTGGAGCCA GACCCCCGAT CCAGGCACCT GGCCCTCAGC
GGGCCCACCT TTGGTATCAT TGTGAAGCAC TTCCCCAAGC TGCTGCCCAA GGTCCTGGTC
CAGGGCACTG TCTTTGCCCG CATGGCCCCT GAGCAGAAGA CAGAGCTGGT GTGCGAGCTA
CAGAAGCTTC AGTACTGCGT GGGCATGTGC GGAGACGGCG CCAATGACTG TGGGGCCCTG
AAGGCGGCTG ATGTCGGCAT CTCGCTGTCC CAGGCAGAAG CCTCAGTGGT CTCACCCTTC
ACCTCGAGCA TGGCCAGTAT TGAGTGCGTG CCCATGGTCA TCAGGGAGGG GCGCTGTTCC
CTTGACACTT CGTTCAGCGT CTTCAAGTAC ATGGCTCTGT ACAGCCTGAC CCAGTTCATC
TCCGTCCTGA TCCTCTACAC GATCAACACC AACCTGGGTG ACCTGCAGTT CCTGGCCATC
GACCTGGTCA TCACCACCAC AGTGGCAGTG CTCATGAGCC GCACGGGGCC AGCGCTGGTC
CTGGGACGGG TGCGGCCACC GGGGGCGCTG CTCAGCGTGC CCGTGCTCAG CAGCCTGCTG
CTGCAGATGG TCCTGGTGAC CGGCGTGCAG CTAGGGGGCT ACTTCCTGAC CCTGGCCCAG
CCATGGTTCG TGCCTCTGAA CAGGACAGTG GCCGCACCAG ACAACCTGCC CAACTACGAG
AACACCGTGG TCTTCTCTCT GTCCAGCTTC CAGTACCTCA TCCTGGCTGC AGCCGTGTCC
AAGGGGGCGC CCTTCCGCCG GCCGCTCTAC ACCAATGAGC GTGCTAGACC AGTGCCTCCC
CGCCTGCCTG CGCCGCCTCC GGCCCAAGCG GGCCTCCAAG AAGCGCTTCA AGCAGCTGGA
ACGAGAGCTG GCCGAGCAGC CCTGGCCGCC GCTGCCCGCC GGCCCCCTGA GGTAGTGCAG
GCCCACGGGC ACCCCAGACA CTGGAACTCC CTGCCTCTGA GCCACCAACT GGACCCCTCT
CCAGCAACAC CACCGCCACC ACCTCCCACA TCCCTGAGGT TGGCGACTGT CTACACTCCT
CCCCCGAGAC CACCCCCACC CTGGGGAAGC GTTGACTACT GTCCCCTACC TTGGACCATC
CCGCGTAGGG GTGGCAGCCC CCAGCTCCCC TCAGTGCTGC TGTCAGTGTA G

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

CloneID OHu33264
Clone ID Related Accession (Same CDS sequence) XM_005245812.1
Accession Version XM_005245812.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3582bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X5
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCCTT CAGCATCGCG
CTGTGGCTGG CTGACCACTA CTACTGGTAC GCCCTGTGCA TCTTCCTCAT TTCCTCCATC
TCCATCTGCC TGTCGCTGTA CAAGACCAGA AAGCAAAGCC AGACTCTAAG GGACATGGTC
AAGTTGTCCA TGCGGGTGTG CGTGTGCCGG CCAGGGGGAG AGGAAGAGTG GGTGGACTCC
AGTGAGCTAG TGCCCGGAGA CTGCCTGGTG CTGCCCCAGG AGGGTGGGCT GATGCCCTGT
GATGCCGCCC TGGTGGCCGG CGAGTGCATG GTGAATGAGA GCTCTCTGAC AGGAGAGAGC
ATTCCAGTGC TGAAGACGGC ACTGCCGGAG GGGCTGGGGC CCTACTGTGC AGAGACACAC
CGGCGGCACA CACTCTTCTG CGGGACCCTC ATCTTGCAGG CCCGGGCCTA TGTGGGACCG
CACGTCCTGG CAGTGGTGAC CCGCACAGGG TTCTGCACGG CAAAAGGGGG CCTGGTGAGC
TCCATCTTGC ACCCCCGGCC CATCAACTTC AAGTTCTATA AACACAGCAT GAAGTTTGTG
GCTGCCCTCT CTGTCCTGGC TCTCCTCGGC ACCATCTACA GCATCTTCAT CCTCTACCGA
AACCGGGTGC CTCTGAATGA GATTGTAATC CGGGCTCTCG ACCTGGTGAC CGTGGTGGTG
CCACCTGCCC TGCCTGCTGC CATGACTGTG TGCACGCTCT ACGCCCAGAG CCGACTGCGG
AGACAGGGCA TTTTCTGCAT CCACCCACTG CGCATCAACC TGGGGGGCAA GCTGCAGCTG
GTGTGTTTCG ACAAGACGGG CACCCTCACT GAGGACGGCT TAGACGTGAT GGGGGTGGTG
CCCCTGAAGG GGCAGGCATT CCTGCCCCTG GTCCCAGAGC CTCGCCGCCT GCCTGTGGGG
CCCCTGCTCC GAGCACTGGC CACCTGCCAT GCCCTCAGCC GGCTCCAGGA CACCCCCGTG
GGCGACCCCA TGGACTTGAA GATGGTGGAG TCTACTGGCT GGGTCCTGGA GGAAGAGCCG
GCTGCAGACT CAGCATTTGG GACCCAGGTC TTGGCAGTGA TGAGACCCCC ACTTTGGGAG
CCCCAGCTGC AGGCAATGGA GGAGCCCCCG GTGCCAGTCA GCGTCCTCCA CCGCTTCCCC
TTCTCTTCGG CTCTGCAGCG CATGAGTGTG GTGGTGGCGT GGCCAGGGGC CACTCAGCCC
GAGGCCTACG TCAAAGGCTC CCCGGAGCTG GTGGCAGGGC TCTGCAACCC CGAGACAGTG
CCCACCGACT TCGCCCAGAT GCTGCAGAGC TATACAGCTG CTGGCTACCG TGTCGTGGCC
CTGGCCAGCA AGCCACTGCC CACTGTGCCC AGCCTGGAGG CAGCCCAGCA ACTGACGAGG
GACACTGTGG AAGGAGACCT GAGCCTCCTG GGGCTGCTGG TCATGAGGAA CCTACTGAAG
CCGCAGACAA CGCCAGTTAT CCAGGCTCTG CGAAGGACCC GCATCCGCGC CGTCATGGTG
ACAGGGGACA ACCTGCAGAC AGCGGTGACT GTGGCCCGGG GCTGTGGCAT GGTGGCCCCC
CAGGAGCATC TGATCATCGT CCACGCCACC CACCCTGAGC GGGGTCAGCC TGCCTCTCTC
GAGTTCCTGC CGATGGAGTC CCCCACAGCC GTGAATGGCG TTAAGGATCC TGACCAGGCT
GCAAGCTACA CCGTGGAGCC AGACCCCCGA TCCAGGCACC TGGCCCTCAG CGGGCCCACC
TTTGGTATCA TTGTGAAGCA CTTCCCCAAG CTGCTGCCCA AGGTCCTGGT CCAGGGCACT
GTCTTTGCCC GCATGGCCCC TGAGCAGAAG ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT
CAGTACTGCG TGGGCATGTG CGGAGACGGC GCCAATGACT GTGGGGCCCT GAAGGCGGCT
GATGTCGGCA TCTCGCTGTC CCAGGCAGAA GCCTCAGTGG TCTCACCCTT CACCTCGAGC
ATGGCCAGTA TTGAGTGCGT GCCCATGGTC ATCAGGGAGG GGCGCTGTTC CCTTGACACT
TCGTTCAGCG TCTTCAAGTA CATGGCTCTG TACAGCCTGA CCCAGTTCAT CTCCGTCCTG
ATCCTCTACA CGATCAACAC CAACCTGGGT GACCTGCAGT TCCTGGCCAT CGACCTGGTC
ATCACCACCA CAGTGGCAGT GCTCATGAGC CGCACGGGGC CAGCGCTGGT CCTGGGACGG
GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG CCCGTGCTCA GCAGCCTGCT GCTGCAGATG
GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC TACTTCCTGA CCCTGGCCCA GCCATGGTTC
GTGCCTCTGA ACAGGACAGT GGCCGCACCA GACAACCTGC CCAACTACGA GAACACCGTG
GTCTTCTCTC TGTCCAGCTT CCAGTACCTC ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG
CCCTTCCGCC GGCCGCTCTA CACCAATGAG CGTGCTAGAC CAGTGCCTCC CCGCCTGCCT
GCGCCGCCTC CGGCCCAAGC GGGCCTCCAA GAAGCGCTTC AAGCAGCTGG AACGAGAGCT
GGCCGAGCAG CCCTGGCCGC CGCTGCCCGC CGGCCCCCTG AGGTAGTGCA GGCCCACGGG
CACCCCAGAC ACTGGAACTC CCTGCCTCTG AGCCACCAAC TGGACCCCTC TCCAGCAACA
CCACCGCCAC CACCTCCCAC ATCCCTGAGG TTGGCGACTG TCTACACTCC TCCCCCGAGA
CCACCCCCAC CCTGGGGAAG CGTTGACTAC TGTCCCCTAC CTTGGACCAT CCCGCGTAGG
GGTGGCAGCC CCCAGCTCCC CTCAGTGCTG CTGTCAGTGT AG

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

RefSeq XP_005245869.1
CDS235..3816
Translation

Target ORF information:

RefSeq Version XM_005245812.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X5, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005245812.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCCTT CAGCATCGCG
CTGTGGCTGG CTGACCACTA CTACTGGTAC GCCCTGTGCA TCTTCCTCAT TTCCTCCATC
TCCATCTGCC TGTCGCTGTA CAAGACCAGA AAGCAAAGCC AGACTCTAAG GGACATGGTC
AAGTTGTCCA TGCGGGTGTG CGTGTGCCGG CCAGGGGGAG AGGAAGAGTG GGTGGACTCC
AGTGAGCTAG TGCCCGGAGA CTGCCTGGTG CTGCCCCAGG AGGGTGGGCT GATGCCCTGT
GATGCCGCCC TGGTGGCCGG CGAGTGCATG GTGAATGAGA GCTCTCTGAC AGGAGAGAGC
ATTCCAGTGC TGAAGACGGC ACTGCCGGAG GGGCTGGGGC CCTACTGTGC AGAGACACAC
CGGCGGCACA CACTCTTCTG CGGGACCCTC ATCTTGCAGG CCCGGGCCTA TGTGGGACCG
CACGTCCTGG CAGTGGTGAC CCGCACAGGG TTCTGCACGG CAAAAGGGGG CCTGGTGAGC
TCCATCTTGC ACCCCCGGCC CATCAACTTC AAGTTCTATA AACACAGCAT GAAGTTTGTG
GCTGCCCTCT CTGTCCTGGC TCTCCTCGGC ACCATCTACA GCATCTTCAT CCTCTACCGA
AACCGGGTGC CTCTGAATGA GATTGTAATC CGGGCTCTCG ACCTGGTGAC CGTGGTGGTG
CCACCTGCCC TGCCTGCTGC CATGACTGTG TGCACGCTCT ACGCCCAGAG CCGACTGCGG
AGACAGGGCA TTTTCTGCAT CCACCCACTG CGCATCAACC TGGGGGGCAA GCTGCAGCTG
GTGTGTTTCG ACAAGACGGG CACCCTCACT GAGGACGGCT TAGACGTGAT GGGGGTGGTG
CCCCTGAAGG GGCAGGCATT CCTGCCCCTG GTCCCAGAGC CTCGCCGCCT GCCTGTGGGG
CCCCTGCTCC GAGCACTGGC CACCTGCCAT GCCCTCAGCC GGCTCCAGGA CACCCCCGTG
GGCGACCCCA TGGACTTGAA GATGGTGGAG TCTACTGGCT GGGTCCTGGA GGAAGAGCCG
GCTGCAGACT CAGCATTTGG GACCCAGGTC TTGGCAGTGA TGAGACCCCC ACTTTGGGAG
CCCCAGCTGC AGGCAATGGA GGAGCCCCCG GTGCCAGTCA GCGTCCTCCA CCGCTTCCCC
TTCTCTTCGG CTCTGCAGCG CATGAGTGTG GTGGTGGCGT GGCCAGGGGC CACTCAGCCC
GAGGCCTACG TCAAAGGCTC CCCGGAGCTG GTGGCAGGGC TCTGCAACCC CGAGACAGTG
CCCACCGACT TCGCCCAGAT GCTGCAGAGC TATACAGCTG CTGGCTACCG TGTCGTGGCC
CTGGCCAGCA AGCCACTGCC CACTGTGCCC AGCCTGGAGG CAGCCCAGCA ACTGACGAGG
GACACTGTGG AAGGAGACCT GAGCCTCCTG GGGCTGCTGG TCATGAGGAA CCTACTGAAG
CCGCAGACAA CGCCAGTTAT CCAGGCTCTG CGAAGGACCC GCATCCGCGC CGTCATGGTG
ACAGGGGACA ACCTGCAGAC AGCGGTGACT GTGGCCCGGG GCTGTGGCAT GGTGGCCCCC
CAGGAGCATC TGATCATCGT CCACGCCACC CACCCTGAGC GGGGTCAGCC TGCCTCTCTC
GAGTTCCTGC CGATGGAGTC CCCCACAGCC GTGAATGGCG TTAAGGATCC TGACCAGGCT
GCAAGCTACA CCGTGGAGCC AGACCCCCGA TCCAGGCACC TGGCCCTCAG CGGGCCCACC
TTTGGTATCA TTGTGAAGCA CTTCCCCAAG CTGCTGCCCA AGGTCCTGGT CCAGGGCACT
GTCTTTGCCC GCATGGCCCC TGAGCAGAAG ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT
CAGTACTGCG TGGGCATGTG CGGAGACGGC GCCAATGACT GTGGGGCCCT GAAGGCGGCT
GATGTCGGCA TCTCGCTGTC CCAGGCAGAA GCCTCAGTGG TCTCACCCTT CACCTCGAGC
ATGGCCAGTA TTGAGTGCGT GCCCATGGTC ATCAGGGAGG GGCGCTGTTC CCTTGACACT
TCGTTCAGCG TCTTCAAGTA CATGGCTCTG TACAGCCTGA CCCAGTTCAT CTCCGTCCTG
ATCCTCTACA CGATCAACAC CAACCTGGGT GACCTGCAGT TCCTGGCCAT CGACCTGGTC
ATCACCACCA CAGTGGCAGT GCTCATGAGC CGCACGGGGC CAGCGCTGGT CCTGGGACGG
GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG CCCGTGCTCA GCAGCCTGCT GCTGCAGATG
GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC TACTTCCTGA CCCTGGCCCA GCCATGGTTC
GTGCCTCTGA ACAGGACAGT GGCCGCACCA GACAACCTGC CCAACTACGA GAACACCGTG
GTCTTCTCTC TGTCCAGCTT CCAGTACCTC ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG
CCCTTCCGCC GGCCGCTCTA CACCAATGAG CGTGCTAGAC CAGTGCCTCC CCGCCTGCCT
GCGCCGCCTC CGGCCCAAGC GGGCCTCCAA GAAGCGCTTC AAGCAGCTGG AACGAGAGCT
GGCCGAGCAG CCCTGGCCGC CGCTGCCCGC CGGCCCCCTG AGGTAGTGCA GGCCCACGGG
CACCCCAGAC ACTGGAACTC CCTGCCTCTG AGCCACCAAC TGGACCCCTC TCCAGCAACA
CCACCGCCAC CACCTCCCAC ATCCCTGAGG TTGGCGACTG TCTACACTCC TCCCCCGAGA
CCACCCCCAC CCTGGGGAAG CGTTGACTAC TGTCCCCTAC CTTGGACCAT CCCGCGTAGG
GGTGGCAGCC CCCAGCTCCC CTCAGTGCTG CTGTCAGTGT AG

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

CloneID OHu33265
Clone ID Related Accession (Same CDS sequence) XM_006710513.1
Accession Version XM_006710513.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3567bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X6
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCCTTCAGCA TCGCGCTGTG GCTGGCTGAC
CACTACTACT GGTACGCCCT GTGCATCTTC CTCATTTCCT CCATCTCCAT CTGCCTGTCG
CTGTACAAGA CCAGAAAGCA AAGCCAGACT CTAAGGGACA TGGTCAAGTT GTCCATGCGG
GTGTGCGTGT GCCGGCCAGG GGGAGAGGAA GAGTGGGTGG ACTCCAGTGA GCTAGTGCCC
GGAGACTGCC TGGTGCTGCC CCAGGAGGGT GGGCTGATGC CCTGTGATGC CGCCCTGGTG
GCCGGCGAGT GCATGGTGAA TGAGAGCTCT CTGACAGGAG AGAGCATTCC AGTGCTGAAG
ACGGCACTGC CGGAGGGGCT GGGGCCCTAC TGTGCAGAGA CACACCGGCG GCACACACTC
TTCTGCGGGA CCCTCATCTT GCAGGCCCGG GCCTATGTGG GACCGCACGT CCTGGCAGTG
GTGACCCGCA CAGGGTTCTG CACGGCAAAA GGGGGCCTGG TGAGCTCCAT CTTGCACCCC
CGGCCCATCA ACTTCAAGTT CTATAAACAC AGCATGAAGT TTGTGGCTGC CCTCTCTGTC
CTGGCTCTCC TCGGCACCAT CTACAGCATC TTCATCCTCT ACCGAAACCG GGTGCCTCTG
AATGAGATTG TAATCCGGGC TCTCGACCTG GTGACCGTGG TGGTGCCACC TGCCCTGCCT
GCTGCCATGA CTGTGTGCAC GCTCTACGCC CAGAGCCGAC TGCGGAGACA GGGCATTTTC
TGCATCCACC CACTGCGCAT CAACCTGGGG GGCAAGCTGC AGCTGGTGTG TTTCGACAAG
ACGGGCACCC TCACTGAGGA CGGCTTAGAC GTGATGGGGG TGGTGCCCCT GAAGGGGCAG
GCATTCCTGC CCCTGGTCCC AGAGCCTCGC CGCCTGCCTG TGGGGCCCCT GCTCCGAGCA
CTGGCCACCT GCCATGCCCT CAGCCGGCTC CAGGACACCC CCGTGGGCGA CCCCATGGAC
TTGAAGATGG TGGAGTCTAC TGGCTGGGTC CTGGAGGAAG AGCCGGCTGC AGACTCAGCA
TTTGGGACCC AGGTCTTGGC AGTGATGAGA CCCCCACTTT GGGAGCCCCA GCTGCAGGCA
ATGGAGGAGC CCCCGGTGCC AGTCAGCGTC CTCCACCGCT TCCCCTTCTC TTCGGCTCTG
CAGCGCATGA GTGTGGTGGT GGCGTGGCCA GGGGCCACTC AGCCCGAGGC CTACGTCAAA
GGCTCCCCGG AGCTGGTGGC AGGGCTCTGC AACCCCGAGA CAGTGCCCAC CGACTTCGCC
CAGATGCTGC AGAGCTATAC AGCTGCTGGC TACCGTGTCG TGGCCCTGGC CAGCAAGCCA
CTGCCCACTG TGCCCAGCCT GGAGGCAGCC CAGCAACTGA CGAGGGACAC TGTGGAAGGA
GACCTGAGCC TCCTGGGGCT GCTGGTCATG AGGAACCTAC TGAAGCCGCA GACAACGCCA
GTTATCCAGG CTCTGCGAAG GACCCGCATC CGCGCCGTCA TGGTGACAGG GGACAACCTG
CAGACAGCGG TGACTGTGGC CCGGGGCTGT GGCATGGTGG CCCCCCAGGA GCATCTGATC
ATCGTCCACG CCACCCACCC TGAGCGGGGT CAGCCTGCCT CTCTCGAGTT CCTGCCGATG
GAGTCCCCCA CAGCCGTGAA TGGCGTTAAG GATCCTGACC AGGCTGCAAG CTACACCGTG
GAGCCAGACC CCCGATCCAG GCACCTGGCC CTCAGCGGGC CCACCTTTGG TATCATTGTG
AAGCACTTCC CCAAGCTGCT GCCCAAGGTC CTGGTCCAGG GCACTGTCTT TGCCCGCATG
GCCCCTGAGC AGAAGACAGA GCTGGTGTGC GAGCTACAGA AGCTTCAGTA CTGCGTGGGC
ATGTGCGGAG ACGGCGCCAA TGACTGTGGG GCCCTGAAGG CGGCTGATGT CGGCATCTCG
CTGTCCCAGG CAGAAGCCTC AGTGGTCTCA CCCTTCACCT CGAGCATGGC CAGTATTGAG
TGCGTGCCCA TGGTCATCAG GGAGGGGCGC TGTTCCCTTG ACACTTCGTT CAGCGTCTTC
AAGTACATGG CTCTGTACAG CCTGACCCAG TTCATCTCCG TCCTGATCCT CTACACGATC
AACACCAACC TGGGTGACCT GCAGTTCCTG GCCATCGACC TGGTCATCAC CACCACAGTG
GCAGTGCTCA TGAGCCGCAC GGGGCCAGCG CTGGTCCTGG GACGGGTGCG GCCACCGGGG
GCGCTGCTCA GCGTGCCCGT GCTCAGCAGC CTGCTGCTGC AGATGGTCCT GGTGACCGGC
GTGCAGCTAG GGGGCTACTT CCTGACCCTG GCCCAGCCAT GGTTCGTGCC TCTGAACAGG
ACAGTGGCCG CACCAGACAA CCTGCCCAAC TACGAGAACA CCGTGGTCTT CTCTCTGTCC
AGCTTCCAGT ACCTCATCCT GGCTGCAGCC GTGTCCAAGG GGGCGCCCTT CCGCCGGCCG
CTCTACACCA ATGAGCGTGC TAGACCAGTG CCTCCCCGCC TGCCTGCGCC GCCTCCGGCC
CAAGCGGGCC TCCAAGAAGC GCTTCAAGCA GCTGGAACGA GAGCTGGCCG AGCAGCCCTG
GCCGCCGCTG CCCGCCGGCC CCCTGAGGTA GTGCAGGCCC ACGGGCACCC CAGACACTGG
AACTCCCTGC CTCTGAGCCA CCAACTGGAC CCCTCTCCAG CAACACCACC GCCACCACCT
CCCACATCCC TGAGGTTGGC GACTGTCTAC ACTCCTCCCC CGAGACCACC CCCACCCTGG
GGAAGCGTTG ACTACTGTCC CCTACCTTGG ACCATCCCGC GTAGGGGTGG CAGCCCCCAG
CTCCCCTCAG TGCTGCTGTC AGTGTAG

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

RefSeq XP_006710576.1
CDS235..3801
Translation

Target ORF information:

RefSeq Version XM_006710513.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X6, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_006710513.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGAAGCGGGT GCTGCGGTAT
TACCTCTTCC AGGGCCAGCG CTATATCTGG ATCGAGACCC AGCAAGCCTT CTACCAGGTC
AGCCTCCTGG ACCATGGCCG CTCTTGTGAC GACGTCCACC GCTCCCGCCA TGGCCTCAGC
CTCCAGGACC AAATGGTGAG GAAGGCCATT TACGGCCCCA ACGTGATCAG CATACCGGTC
AAGTCCTACC CCCAGCTGCT GGTGGACGAG GCCTTCAGCA TCGCGCTGTG GCTGGCTGAC
CACTACTACT GGTACGCCCT GTGCATCTTC CTCATTTCCT CCATCTCCAT CTGCCTGTCG
CTGTACAAGA CCAGAAAGCA AAGCCAGACT CTAAGGGACA TGGTCAAGTT GTCCATGCGG
GTGTGCGTGT GCCGGCCAGG GGGAGAGGAA GAGTGGGTGG ACTCCAGTGA GCTAGTGCCC
GGAGACTGCC TGGTGCTGCC CCAGGAGGGT GGGCTGATGC CCTGTGATGC CGCCCTGGTG
GCCGGCGAGT GCATGGTGAA TGAGAGCTCT CTGACAGGAG AGAGCATTCC AGTGCTGAAG
ACGGCACTGC CGGAGGGGCT GGGGCCCTAC TGTGCAGAGA CACACCGGCG GCACACACTC
TTCTGCGGGA CCCTCATCTT GCAGGCCCGG GCCTATGTGG GACCGCACGT CCTGGCAGTG
GTGACCCGCA CAGGGTTCTG CACGGCAAAA GGGGGCCTGG TGAGCTCCAT CTTGCACCCC
CGGCCCATCA ACTTCAAGTT CTATAAACAC AGCATGAAGT TTGTGGCTGC CCTCTCTGTC
CTGGCTCTCC TCGGCACCAT CTACAGCATC TTCATCCTCT ACCGAAACCG GGTGCCTCTG
AATGAGATTG TAATCCGGGC TCTCGACCTG GTGACCGTGG TGGTGCCACC TGCCCTGCCT
GCTGCCATGA CTGTGTGCAC GCTCTACGCC CAGAGCCGAC TGCGGAGACA GGGCATTTTC
TGCATCCACC CACTGCGCAT CAACCTGGGG GGCAAGCTGC AGCTGGTGTG TTTCGACAAG
ACGGGCACCC TCACTGAGGA CGGCTTAGAC GTGATGGGGG TGGTGCCCCT GAAGGGGCAG
GCATTCCTGC CCCTGGTCCC AGAGCCTCGC CGCCTGCCTG TGGGGCCCCT GCTCCGAGCA
CTGGCCACCT GCCATGCCCT CAGCCGGCTC CAGGACACCC CCGTGGGCGA CCCCATGGAC
TTGAAGATGG TGGAGTCTAC TGGCTGGGTC CTGGAGGAAG AGCCGGCTGC AGACTCAGCA
TTTGGGACCC AGGTCTTGGC AGTGATGAGA CCCCCACTTT GGGAGCCCCA GCTGCAGGCA
ATGGAGGAGC CCCCGGTGCC AGTCAGCGTC CTCCACCGCT TCCCCTTCTC TTCGGCTCTG
CAGCGCATGA GTGTGGTGGT GGCGTGGCCA GGGGCCACTC AGCCCGAGGC CTACGTCAAA
GGCTCCCCGG AGCTGGTGGC AGGGCTCTGC AACCCCGAGA CAGTGCCCAC CGACTTCGCC
CAGATGCTGC AGAGCTATAC AGCTGCTGGC TACCGTGTCG TGGCCCTGGC CAGCAAGCCA
CTGCCCACTG TGCCCAGCCT GGAGGCAGCC CAGCAACTGA CGAGGGACAC TGTGGAAGGA
GACCTGAGCC TCCTGGGGCT GCTGGTCATG AGGAACCTAC TGAAGCCGCA GACAACGCCA
GTTATCCAGG CTCTGCGAAG GACCCGCATC CGCGCCGTCA TGGTGACAGG GGACAACCTG
CAGACAGCGG TGACTGTGGC CCGGGGCTGT GGCATGGTGG CCCCCCAGGA GCATCTGATC
ATCGTCCACG CCACCCACCC TGAGCGGGGT CAGCCTGCCT CTCTCGAGTT CCTGCCGATG
GAGTCCCCCA CAGCCGTGAA TGGCGTTAAG GATCCTGACC AGGCTGCAAG CTACACCGTG
GAGCCAGACC CCCGATCCAG GCACCTGGCC CTCAGCGGGC CCACCTTTGG TATCATTGTG
AAGCACTTCC CCAAGCTGCT GCCCAAGGTC CTGGTCCAGG GCACTGTCTT TGCCCGCATG
GCCCCTGAGC AGAAGACAGA GCTGGTGTGC GAGCTACAGA AGCTTCAGTA CTGCGTGGGC
ATGTGCGGAG ACGGCGCCAA TGACTGTGGG GCCCTGAAGG CGGCTGATGT CGGCATCTCG
CTGTCCCAGG CAGAAGCCTC AGTGGTCTCA CCCTTCACCT CGAGCATGGC CAGTATTGAG
TGCGTGCCCA TGGTCATCAG GGAGGGGCGC TGTTCCCTTG ACACTTCGTT CAGCGTCTTC
AAGTACATGG CTCTGTACAG CCTGACCCAG TTCATCTCCG TCCTGATCCT CTACACGATC
AACACCAACC TGGGTGACCT GCAGTTCCTG GCCATCGACC TGGTCATCAC CACCACAGTG
GCAGTGCTCA TGAGCCGCAC GGGGCCAGCG CTGGTCCTGG GACGGGTGCG GCCACCGGGG
GCGCTGCTCA GCGTGCCCGT GCTCAGCAGC CTGCTGCTGC AGATGGTCCT GGTGACCGGC
GTGCAGCTAG GGGGCTACTT CCTGACCCTG GCCCAGCCAT GGTTCGTGCC TCTGAACAGG
ACAGTGGCCG CACCAGACAA CCTGCCCAAC TACGAGAACA CCGTGGTCTT CTCTCTGTCC
AGCTTCCAGT ACCTCATCCT GGCTGCAGCC GTGTCCAAGG GGGCGCCCTT CCGCCGGCCG
CTCTACACCA ATGAGCGTGC TAGACCAGTG CCTCCCCGCC TGCCTGCGCC GCCTCCGGCC
CAAGCGGGCC TCCAAGAAGC GCTTCAAGCA GCTGGAACGA GAGCTGGCCG AGCAGCCCTG
GCCGCCGCTG CCCGCCGGCC CCCTGAGGTA GTGCAGGCCC ACGGGCACCC CAGACACTGG
AACTCCCTGC CTCTGAGCCA CCAACTGGAC CCCTCTCCAG CAACACCACC GCCACCACCT
CCCACATCCC TGAGGTTGGC GACTGTCTAC ACTCCTCCCC CGAGACCACC CCCACCCTGG
GGAAGCGTTG ACTACTGTCC CCTACCTTGG ACCATCCCGC GTAGGGGTGG CAGCCCCCAG
CTCCCCTCAG TGCTGCTGTC AGTGTAG

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

CloneID OHu33267
Clone ID Related Accession (Same CDS sequence) XM_005245815.1
Accession Version XM_005245815.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3492bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X11
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGACGGGCAC CCTCACTGAG
GACGGCTTAG ACGTGATGGG GGTGGTGCCC CTGAAGGGGC AGGCATTCCT GCCCCTGGTC
CCAGAGCCTC GCCGCCTGCC TGTGGGGCCC CTGCTCCGAG CACTGGCCAC CTGCCATGCC
CTCAGCCGGC TCCAGGACAC CCCCGTGGGC GACCCCATGG ACTTGAAGAT GGTGGAGTCT
ACTGGCTGGG TCCTGGAGGA AGAGCCGGCT GCAGACTCAG CATTTGGGAC CCAGGTCTTG
GCAGTGATGA GACCCCCACT TTGGGAGCCC CAGCTGCAGG CAATGGAGGA GCCCCCGGTG
CCAGTCAGCG TCCTCCACCG CTTCCCCTTC TCTTCGGCTC TGCAGCGCAT GAGTGTGGTG
GTGGCGTGGC CAGGGGCCAC TCAGCCCGAG GCCTACGTCA AAGGCTCCCC GGAGCTGGTG
GCAGGGCTCT GCAACCCCGA GACAGTGCCC ACCGACTTCG CCCAGATGCT GCAGAGCTAT
ACAGCTGCTG GCTACCGTGT CGTGGCCCTG GCCAGCAAGC CACTGCCCAC TGTGCCCAGC
CTGGAGGCAG CCCAGCAACT GACGAGGGAC ACTGTGGAAG GAGACCTGAG CCTCCTGGGG
CTGCTGGTCA TGAGGAACCT ACTGAAGCCG CAGACAACGC CAGTTATCCA GGCTCTGCGA
AGGACCCGCA TCCGCGCCGT CATGGTGACA GGGGACAACC TGCAGACAGC GGTGACTGTG
GCCCGGGGCT GTGGCATGGT GGCCCCCCAG GAGCATCTGA TCATCGTCCA CGCCACCCAC
CCTGAGCGGG GTCAGCCTGC CTCTCTCGAG TTCCTGCCGA TGGAGTCCCC CACAGCCGTG
AATGGCGTTA AGGTCCTGGT CCAGGGCACT GTCTTTGCCC GCATGGCCCC TGAGCAGAAG
ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT CAGTACTGCG TGGGCATGTG CGGAGACGGC
GCCAATGACT GTGGGGCCCT GAAGGCGGCT GATGTCGGCA TCTCGCTGTC CCAGGCAGAA
GCCTCAGTGG TCTCACCCTT CACCTCGAGC ATGGCCAGTA TTGAGTGCGT GCCCATGGTC
ATCAGGGAGG GGCGCTGTTC CCTTGACACT TCGTTCAGCG TCTTCAAGTA CATGGCTCTG
TACAGCCTGA CCCAGTTCAT CTCCGTCCTG ATCCTCTACA CGATCAACAC CAACCTGGGT
GACCTGCAGT TCCTGGCCAT CGACCTGGTC ATCACCACCA CAGTGGCAGT GCTCATGAGC
CGCACGGGGC CAGCGCTGGT CCTGGGACGG GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG
CCCGTGCTCA GCAGCCTGCT GCTGCAGATG GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC
TACTTCCTGA CCCTGGCCCA GCCATGGTTC GTGCCTCTGA ACAGGACAGT GGCCGCACCA
GACAACCTGC CCAACTACGA GAACACCGTG GTCTTCTCTC TGTCCAGCTT CCAGTACCTC
ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG CCCTTCCGCC GGCCGCTCTA CACCAATGAG
CGTGCTAGAC CAGTGCCTCC CCGCCTGCCT GCGCCGCCTC CGGCCCAAGC GGGCCTCCAA
GAAGCGCTTC AAGCAGCTGG AACGAGAGCT GGCCGAGCAG CCCTGGCCGC CGCTGCCCGC
CGGCCCCCTG AGGTAGTGCA GGCCCACGGG CACCCCAGAC ACTGGAACTC CCTGCCTCTG
AGCCACCAAC TGGACCCCTC TCCAGCAACA CCACCGCCAC CACCTCCCAC ATCCCTGAGG
TTGGCGACTG TCTACACTCC TCCCCCGAGA CCACCCCCAC CCTGGGGAAG CGTTGACTAC
TGTCCCCTAC CTTGGACCAT CCCGCGTAGG GGTGGCAGCC CCCAGCTCCC CTCAGTGCTG
CTGTCAGTGT AG

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

RefSeq XP_005245872.1
CDS235..3726
Translation

Target ORF information:

RefSeq Version XM_005245815.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X11, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005245815.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGACGGGCAC CCTCACTGAG
GACGGCTTAG ACGTGATGGG GGTGGTGCCC CTGAAGGGGC AGGCATTCCT GCCCCTGGTC
CCAGAGCCTC GCCGCCTGCC TGTGGGGCCC CTGCTCCGAG CACTGGCCAC CTGCCATGCC
CTCAGCCGGC TCCAGGACAC CCCCGTGGGC GACCCCATGG ACTTGAAGAT GGTGGAGTCT
ACTGGCTGGG TCCTGGAGGA AGAGCCGGCT GCAGACTCAG CATTTGGGAC CCAGGTCTTG
GCAGTGATGA GACCCCCACT TTGGGAGCCC CAGCTGCAGG CAATGGAGGA GCCCCCGGTG
CCAGTCAGCG TCCTCCACCG CTTCCCCTTC TCTTCGGCTC TGCAGCGCAT GAGTGTGGTG
GTGGCGTGGC CAGGGGCCAC TCAGCCCGAG GCCTACGTCA AAGGCTCCCC GGAGCTGGTG
GCAGGGCTCT GCAACCCCGA GACAGTGCCC ACCGACTTCG CCCAGATGCT GCAGAGCTAT
ACAGCTGCTG GCTACCGTGT CGTGGCCCTG GCCAGCAAGC CACTGCCCAC TGTGCCCAGC
CTGGAGGCAG CCCAGCAACT GACGAGGGAC ACTGTGGAAG GAGACCTGAG CCTCCTGGGG
CTGCTGGTCA TGAGGAACCT ACTGAAGCCG CAGACAACGC CAGTTATCCA GGCTCTGCGA
AGGACCCGCA TCCGCGCCGT CATGGTGACA GGGGACAACC TGCAGACAGC GGTGACTGTG
GCCCGGGGCT GTGGCATGGT GGCCCCCCAG GAGCATCTGA TCATCGTCCA CGCCACCCAC
CCTGAGCGGG GTCAGCCTGC CTCTCTCGAG TTCCTGCCGA TGGAGTCCCC CACAGCCGTG
AATGGCGTTA AGGTCCTGGT CCAGGGCACT GTCTTTGCCC GCATGGCCCC TGAGCAGAAG
ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT CAGTACTGCG TGGGCATGTG CGGAGACGGC
GCCAATGACT GTGGGGCCCT GAAGGCGGCT GATGTCGGCA TCTCGCTGTC CCAGGCAGAA
GCCTCAGTGG TCTCACCCTT CACCTCGAGC ATGGCCAGTA TTGAGTGCGT GCCCATGGTC
ATCAGGGAGG GGCGCTGTTC CCTTGACACT TCGTTCAGCG TCTTCAAGTA CATGGCTCTG
TACAGCCTGA CCCAGTTCAT CTCCGTCCTG ATCCTCTACA CGATCAACAC CAACCTGGGT
GACCTGCAGT TCCTGGCCAT CGACCTGGTC ATCACCACCA CAGTGGCAGT GCTCATGAGC
CGCACGGGGC CAGCGCTGGT CCTGGGACGG GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG
CCCGTGCTCA GCAGCCTGCT GCTGCAGATG GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC
TACTTCCTGA CCCTGGCCCA GCCATGGTTC GTGCCTCTGA ACAGGACAGT GGCCGCACCA
GACAACCTGC CCAACTACGA GAACACCGTG GTCTTCTCTC TGTCCAGCTT CCAGTACCTC
ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG CCCTTCCGCC GGCCGCTCTA CACCAATGAG
CGTGCTAGAC CAGTGCCTCC CCGCCTGCCT GCGCCGCCTC CGGCCCAAGC GGGCCTCCAA
GAAGCGCTTC AAGCAGCTGG AACGAGAGCT GGCCGAGCAG CCCTGGCCGC CGCTGCCCGC
CGGCCCCCTG AGGTAGTGCA GGCCCACGGG CACCCCAGAC ACTGGAACTC CCTGCCTCTG
AGCCACCAAC TGGACCCCTC TCCAGCAACA CCACCGCCAC CACCTCCCAC ATCCCTGAGG
TTGGCGACTG TCTACACTCC TCCCCCGAGA CCACCCCCAC CCTGGGGAAG CGTTGACTAC
TGTCCCCTAC CTTGGACCAT CCCGCGTAGG GGTGGCAGCC CCCAGCTCCC CTCAGTGCTG
CTGTCAGTGT AG

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

CloneID OHu66148
Clone ID Related Accession (Same CDS sequence) XM_011541128.1
Accession Version XM_011541128.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3594bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGAT
CCTGACCAGG CTGCAAGCTA CACCGTGGAG CCAGACCCCC GATCCAGGCA CCTGGCCCTC
AGCGGGCCCA CCTTTGGTAT CATTGTGAAG CACTTCCCCA AGCTGCTGCC CAAGGTCCTG
GTCCAGGGCA CTGTCTTTGC CCGCATGGCC CCTGAGCAGA AGACAGAGCT GGTGTGCGAG
CTACAGAAGC TTCAGTACTG CGTGGGCATG TGCGGAGACG GCGCCAATGA CTGTGGGGCC
CTGAAGGCGG CTGATGTCGG CATCTCGCTG TCCCAGGCAG AAGCCTCAGT GGTCTCACCC
TTCACCTCGA GCATGGCCAG TATTGAGTGC GTGCCCATGG TCATCAGGGA GGGGCGCTGT
TCCCTTGACA CTTCGTTCAG CGTCTTCAAG TACATGGCTC TGTACAGCCT GACCCAGTTC
ATCTCCGTCC TGATCCTCTA CACGATCAAC ACCAACCTGG GTGACCTGCA GTTCCTGGCC
ATCGACCTGG TCATCACCAC CACAGTGGCA GTGCTCATGA GCCGCACGGG GCCAGCGCTG
GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG
CTGCTGCAGA TGGTCCTGGT GACCGGCGTG CAGCTAGGGG GCTACTTCCT GACCCTGGCC
CAGCCATGGT TCGTGCCTCT GAACAGGACA GTGGCCGCAC CAGACAACCT GCCCAACTAC
GAGAACACCG TGGTCTTCTC TCTGTCCAGC TTCCAGTACC TCATCCTGGC TGCAGCCGTG
TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC TACACCAATG AGCGTGCTAG ACCAGTGCCT
CCCCGCCTGC CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC AAGAAGCGCT TCAAGCAGCT
GGAACGAGAG CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC GCCGGCCCCC TGAGGTAGTG
CAGGCCCACG GGCACCCCAG ACACTGGAAC TCCCTGCCTC TGAGCCACCA ACTGGACCCC
TCTCCAGCAA CACCACCGCC ACCACCTCCC ACATCCCTGA GGTTGGCGAC TGTCTACACT
CCTCCCCCGA GACCACCCCC ACCCTGGGGA AGCGTTGACT ACTGTCCCCT ACCTTGGACC
ATCCCGCGTA GGGGTGGCAG CCCCCAGCTC CCCTCAGTGC TGCTGTCAGT GTAG

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

RefSeq XP_011539430.1
CDS235..3828
Translation

Target ORF information:

RefSeq Version XM_011541128.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011541128.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGACG GGCACCCTCA CTGAGGACGG CTTAGACGTG
ATGGGGGTGG TGCCCCTGAA GGGGCAGGCA TTCCTGCCCC TGGTCCCAGA GCCTCGCCGC
CTGCCTGTGG GGCCCCTGCT CCGAGCACTG GCCACCTGCC ATGCCCTCAG CCGGCTCCAG
GACACCCCCG TGGGCGACCC CATGGACTTG AAGATGGTGG AGTCTACTGG CTGGGTCCTG
GAGGAAGAGC CGGCTGCAGA CTCAGCATTT GGGACCCAGG TCTTGGCAGT GATGAGACCC
CCACTTTGGG AGCCCCAGCT GCAGGCAATG GAGGAGCCCC CGGTGCCAGT CAGCGTCCTC
CACCGCTTCC CCTTCTCTTC GGCTCTGCAG CGCATGAGTG TGGTGGTGGC GTGGCCAGGG
GCCACTCAGC CCGAGGCCTA CGTCAAAGGC TCCCCGGAGC TGGTGGCAGG GCTCTGCAAC
CCCGAGACAG TGCCCACCGA CTTCGCCCAG ATGCTGCAGA GCTATACAGC TGCTGGCTAC
CGTGTCGTGG CCCTGGCCAG CAAGCCACTG CCCACTGTGC CCAGCCTGGA GGCAGCCCAG
CAACTGACGA GGGACACTGT GGAAGGAGAC CTGAGCCTCC TGGGGCTGCT GGTCATGAGG
AACCTACTGA AGCCGCAGAC AACGCCAGTT ATCCAGGCTC TGCGAAGGAC CCGCATCCGC
GCCGTCATGG TGACAGGGGA CAACCTGCAG ACAGCGGTGA CTGTGGCCCG GGGCTGTGGC
ATGGTGGCCC CCCAGGAGCA TCTGATCATC GTCCACGCCA CCCACCCTGA GCGGGGTCAG
CCTGCCTCTC TCGAGTTCCT GCCGATGGAG TCCCCCACAG CCGTGAATGG CGTTAAGGAT
CCTGACCAGG CTGCAAGCTA CACCGTGGAG CCAGACCCCC GATCCAGGCA CCTGGCCCTC
AGCGGGCCCA CCTTTGGTAT CATTGTGAAG CACTTCCCCA AGCTGCTGCC CAAGGTCCTG
GTCCAGGGCA CTGTCTTTGC CCGCATGGCC CCTGAGCAGA AGACAGAGCT GGTGTGCGAG
CTACAGAAGC TTCAGTACTG CGTGGGCATG TGCGGAGACG GCGCCAATGA CTGTGGGGCC
CTGAAGGCGG CTGATGTCGG CATCTCGCTG TCCCAGGCAG AAGCCTCAGT GGTCTCACCC
TTCACCTCGA GCATGGCCAG TATTGAGTGC GTGCCCATGG TCATCAGGGA GGGGCGCTGT
TCCCTTGACA CTTCGTTCAG CGTCTTCAAG TACATGGCTC TGTACAGCCT GACCCAGTTC
ATCTCCGTCC TGATCCTCTA CACGATCAAC ACCAACCTGG GTGACCTGCA GTTCCTGGCC
ATCGACCTGG TCATCACCAC CACAGTGGCA GTGCTCATGA GCCGCACGGG GCCAGCGCTG
GTCCTGGGAC GGGTGCGGCC ACCGGGGGCG CTGCTCAGCG TGCCCGTGCT CAGCAGCCTG
CTGCTGCAGA TGGTCCTGGT GACCGGCGTG CAGCTAGGGG GCTACTTCCT GACCCTGGCC
CAGCCATGGT TCGTGCCTCT GAACAGGACA GTGGCCGCAC CAGACAACCT GCCCAACTAC
GAGAACACCG TGGTCTTCTC TCTGTCCAGC TTCCAGTACC TCATCCTGGC TGCAGCCGTG
TCCAAGGGGG CGCCCTTCCG CCGGCCGCTC TACACCAATG AGCGTGCTAG ACCAGTGCCT
CCCCGCCTGC CTGCGCCGCC TCCGGCCCAA GCGGGCCTCC AAGAAGCGCT TCAAGCAGCT
GGAACGAGAG CTGGCCGAGC AGCCCTGGCC GCCGCTGCCC GCCGGCCCCC TGAGGTAGTG
CAGGCCCACG GGCACCCCAG ACACTGGAAC TCCCTGCCTC TGAGCCACCA ACTGGACCCC
TCTCCAGCAA CACCACCGCC ACCACCTCCC ACATCCCTGA GGTTGGCGAC TGTCTACACT
CCTCCCCCGA GACCACCCCC ACCCTGGGGA AGCGTTGACT ACTGTCCCCT ACCTTGGACC
ATCCCGCGTA GGGGTGGCAG CCCCCAGCTC CCCTCAGTGC TGCTGTCAGT GTAG

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

CloneID OHu66149
Clone ID Related Accession (Same CDS sequence) XM_011541129.1
Accession Version XM_011541129.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3402bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product probable cation-transporting ATPase 13A2 isoform X14
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGGTCCTGGA GGAAGAGCCG
GCTGCAGACT CAGCATTTGG GACCCAGGTC TTGGCAGTGA TGAGACCCCC ACTTTGGGAG
CCCCAGCTGC AGGCAATGGA GGAGCCCCCG GTGCCAGTCA GCGTCCTCCA CCGCTTCCCC
TTCTCTTCGG CTCTGCAGCG CATGAGTGTG GTGGTGGCGT GGCCAGGGGC CACTCAGCCC
GAGGCCTACG TCAAAGGCTC CCCGGAGCTG GTGGCAGGGC TCTGCAACCC CGAGACAGTG
CCCACCGACT TCGCCCAGAT GCTGCAGAGC TATACAGCTG CTGGCTACCG TGTCGTGGCC
CTGGCCAGCA AGCCACTGCC CACTGTGCCC AGCCTGGAGG CAGCCCAGCA ACTGACGAGG
GACACTGTGG AAGGAGACCT GAGCCTCCTG GGGCTGCTGG TCATGAGGAA CCTACTGAAG
CCGCAGACAA CGCCAGTTAT CCAGGCTCTG CGAAGGACCC GCATCCGCGC CGTCATGGTG
ACAGGGGACA ACCTGCAGAC AGCGGTGACT GTGGCCCGGG GCTGTGGCAT GGTGGCCCCC
CAGGAGCATC TGATCATCGT CCACGCCACC CACCCTGAGC GGGGTCAGCC TGCCTCTCTC
GAGTTCCTGC CGATGGAGTC CCCCACAGCC GTGAATGGCG TTAAGGATCC TGACCAGGCT
GCAAGCTACA CCGTGGAGCC AGACCCCCGA TCCAGGCACC TGGCCCTCAG CGGGCCCACC
TTTGGTATCA TTGTGAAGCA CTTCCCCAAG CTGCTGCCCA AGGTCCTGGT CCAGGGCACT
GTCTTTGCCC GCATGGCCCC TGAGCAGAAG ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT
CAGTACTGCG TGGGCATGTG CGGAGACGGC GCCAATGACT GTGGGGCCCT GAAGGCGGCT
GATGTCGGCA TCTCGCTGTC CCAGGCAGAA GCCTCAGTGG TCTCACCCTT CACCTCGAGC
ATGGCCAGTA TTGAGTGCGT GCCCATGGTC ATCAGGGAGG GGCGCTGTTC CCTTGACACT
TCGTTCAGCG TCTTCAAGTA CATGGCTCTG TACAGCCTGA CCCAGTTCAT CTCCGTCCTG
ATCCTCTACA CGATCAACAC CAACCTGGGT GACCTGCAGT TCCTGGCCAT CGACCTGGTC
ATCACCACCA CAGTGGCAGT GCTCATGAGC CGCACGGGGC CAGCGCTGGT CCTGGGACGG
GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG CCCGTGCTCA GCAGCCTGCT GCTGCAGATG
GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC TACTTCCTGA CCCTGGCCCA GCCATGGTTC
GTGCCTCTGA ACAGGACAGT GGCCGCACCA GACAACCTGC CCAACTACGA GAACACCGTG
GTCTTCTCTC TGTCCAGCTT CCAGTACCTC ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG
CCCTTCCGCC GGCCGCTCTA CACCAATGAG CGTGCTAGAC CAGTGCCTCC CCGCCTGCCT
GCGCCGCCTC CGGCCCAAGC GGGCCTCCAA GAAGCGCTTC AAGCAGCTGG AACGAGAGCT
GGCCGAGCAG CCCTGGCCGC CGCTGCCCGC CGGCCCCCTG AGGTAGTGCA GGCCCACGGG
CACCCCAGAC ACTGGAACTC CCTGCCTCTG AGCCACCAAC TGGACCCCTC TCCAGCAACA
CCACCGCCAC CACCTCCCAC ATCCCTGAGG TTGGCGACTG TCTACACTCC TCCCCCGAGA
CCACCCCCAC CCTGGGGAAG CGTTGACTAC TGTCCCCTAC CTTGGACCAT CCCGCGTAGG
GGTGGCAGCC CCCAGCTCCC CTCAGTGCTG CTGTCAGTGT AG

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

RefSeq XP_011539431.1
CDS235..3636
Translation

Target ORF information:

RefSeq Version XM_011541129.1
Organism Homo sapiens(Human)
Definition Homo sapiens ATPase 13A2 (ATP13A2), transcript variant X14, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011541129.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
ATGAGCGCAG ACAGCAGCCC TCTCGTGGGC AGCACGCCCA CCGGTTATGG GACCCTGACG 
ATAGGGACAT CAATAGATCC CCTCAGCTCC TCAGTTTCAT CCGTGAGGCT CAGCGGCTAC
TGTGGCAGTC CATGGAGGGT CATCGGCTAT CACGTCGTGG TCTGGATGAT GGCTGGGATC
CCTTTGCTGC TCTTCCGTTG GAAGCCCCTG TGGGGGGTGC GGCTGCGGCT CCGGCCCTGC
AACCTGGCCC ACGCCGAAAC ACTCGTTATC GAAATAAGAG ACAAAGAGGA TAGTTCCTGG
CAGCTCTTCA CTGTCCAGGT GCAGACTGAG GCCATCGGCG AGGGCAGCCT GGAGCCGTCC
CCACAGTCCC AGGCAGAGGA TGGCCGGAGC CAGGCGGCAG TTGGGGCGGT ACCAGAGGGT
GCCTGGAAGG ATACGGCCCA GCTCCACAAG AGCGAGGAGG CGGTGAGTGT CGGACAGAAG
CGGGTGCTGC GGTATTACCT CTTCCAGGGC CAGCGCTATA TCTGGATCGA GACCCAGCAA
GCCTTCTACC AGGTCAGCCT CCTGGACCAT GGCCGCTCTT GTGACGACGT CCACCGCTCC
CGCCATGGCC TCAGCCTCCA GGACCAAATG GTGAGGAAGG CCATTTACGG CCCCAACGTG
ATCAGCATAC CGGTCAAGTC CTACCCCCAG CTGCTGGTGG ACGAGGCACT GAACCCCTAC
TATGGGTTCC AGGCCTTCAG CATCGCGCTG TGGCTGGCTG ACCACTACTA CTGGTACGCC
CTGTGCATCT TCCTCATTTC CTCCATCTCC ATCTGCCTGT CGCTGTACAA GACCAGAAAG
CAAAGCCAGA CTCTAAGGGA CATGGTCAAG TTGTCCATGC GGGTGTGCGT GTGCCGGCCA
GGGGGAGAGG AAGAGTGGGT GGACTCCAGT GAGCTAGTGC CCGGAGACTG CCTGGTGCTG
CCCCAGGAGG GTGGGCTGAT GCCCTGTGAT GCCGCCCTGG TGGCCGGCGA GTGCATGGTG
AATGAGAGCT CTCTGACAGG AGAGAGCATT CCAGTGCTGA AGACGGCACT GCCGGAGGGG
CTGGGGCCCT ACTGTGCAGA GACACACCGG CGGCACACAC TCTTCTGCGG GACCCTCATC
TTGCAGGCCC GGGCCTATGT GGGACCGCAC GTCCTGGCAG TGGTGACCCG CACAGGGTTC
TGCACGGCAA AAGGGGGCCT GGTGAGCTCC ATCTTGCACC CCCGGCCCAT CAACTTCAAG
TTCTATAAAC ACAGCATGAA GTTTGTGGCT GCCCTCTCTG TCCTGGCTCT CCTCGGCACC
ATCTACAGCA TCTTCATCCT CTACCGAAAC CGGGTGCCTC TGAATGAGAT TGTAATCCGG
GCTCTCGACC TGGTGACCGT GGTGGTGCCA CCTGCCCTGC CTGCTGCCAT GACTGTGTGC
ACGCTCTACG CCCAGAGCCG ACTGCGGAGA CAGGGCATTT TCTGCATCCA CCCACTGCGC
ATCAACCTGG GGGGCAAGCT GCAGCTGGTG TGTTTCGACA AGGTCCTGGA GGAAGAGCCG
GCTGCAGACT CAGCATTTGG GACCCAGGTC TTGGCAGTGA TGAGACCCCC ACTTTGGGAG
CCCCAGCTGC AGGCAATGGA GGAGCCCCCG GTGCCAGTCA GCGTCCTCCA CCGCTTCCCC
TTCTCTTCGG CTCTGCAGCG CATGAGTGTG GTGGTGGCGT GGCCAGGGGC CACTCAGCCC
GAGGCCTACG TCAAAGGCTC CCCGGAGCTG GTGGCAGGGC TCTGCAACCC CGAGACAGTG
CCCACCGACT TCGCCCAGAT GCTGCAGAGC TATACAGCTG CTGGCTACCG TGTCGTGGCC
CTGGCCAGCA AGCCACTGCC CACTGTGCCC AGCCTGGAGG CAGCCCAGCA ACTGACGAGG
GACACTGTGG AAGGAGACCT GAGCCTCCTG GGGCTGCTGG TCATGAGGAA CCTACTGAAG
CCGCAGACAA CGCCAGTTAT CCAGGCTCTG CGAAGGACCC GCATCCGCGC CGTCATGGTG
ACAGGGGACA ACCTGCAGAC AGCGGTGACT GTGGCCCGGG GCTGTGGCAT GGTGGCCCCC
CAGGAGCATC TGATCATCGT CCACGCCACC CACCCTGAGC GGGGTCAGCC TGCCTCTCTC
GAGTTCCTGC CGATGGAGTC CCCCACAGCC GTGAATGGCG TTAAGGATCC TGACCAGGCT
GCAAGCTACA CCGTGGAGCC AGACCCCCGA TCCAGGCACC TGGCCCTCAG CGGGCCCACC
TTTGGTATCA TTGTGAAGCA CTTCCCCAAG CTGCTGCCCA AGGTCCTGGT CCAGGGCACT
GTCTTTGCCC GCATGGCCCC TGAGCAGAAG ACAGAGCTGG TGTGCGAGCT ACAGAAGCTT
CAGTACTGCG TGGGCATGTG CGGAGACGGC GCCAATGACT GTGGGGCCCT GAAGGCGGCT
GATGTCGGCA TCTCGCTGTC CCAGGCAGAA GCCTCAGTGG TCTCACCCTT CACCTCGAGC
ATGGCCAGTA TTGAGTGCGT GCCCATGGTC ATCAGGGAGG GGCGCTGTTC CCTTGACACT
TCGTTCAGCG TCTTCAAGTA CATGGCTCTG TACAGCCTGA CCCAGTTCAT CTCCGTCCTG
ATCCTCTACA CGATCAACAC CAACCTGGGT GACCTGCAGT TCCTGGCCAT CGACCTGGTC
ATCACCACCA CAGTGGCAGT GCTCATGAGC CGCACGGGGC CAGCGCTGGT CCTGGGACGG
GTGCGGCCAC CGGGGGCGCT GCTCAGCGTG CCCGTGCTCA GCAGCCTGCT GCTGCAGATG
GTCCTGGTGA CCGGCGTGCA GCTAGGGGGC TACTTCCTGA CCCTGGCCCA GCCATGGTTC
GTGCCTCTGA ACAGGACAGT GGCCGCACCA GACAACCTGC CCAACTACGA GAACACCGTG
GTCTTCTCTC TGTCCAGCTT CCAGTACCTC ATCCTGGCTG CAGCCGTGTC CAAGGGGGCG
CCCTTCCGCC GGCCGCTCTA CACCAATGAG CGTGCTAGAC CAGTGCCTCC CCGCCTGCCT
GCGCCGCCTC CGGCCCAAGC GGGCCTCCAA GAAGCGCTTC AAGCAGCTGG AACGAGAGCT
GGCCGAGCAG CCCTGGCCGC CGCTGCCCGC CGGCCCCCTG AGGTAGTGCA GGCCCACGGG
CACCCCAGAC ACTGGAACTC CCTGCCTCTG AGCCACCAAC TGGACCCCTC TCCAGCAACA
CCACCGCCAC CACCTCCCAC ATCCCTGAGG TTGGCGACTG TCTACACTCC TCCCCCGAGA
CCACCCCCAC CCTGGGGAAG CGTTGACTAC TGTCCCCTAC CTTGGACCAT CCCGCGTAGG
GGTGGCAGCC CCCAGCTCCC CTCAGTGCTG CTGTCAGTGT AG

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

book

High-resolution arrays reveal burden of copy number variations on Parkinson disease genes associated with increased disease risk in random cohorts.
Neurological research38(9)775-85(2016 Sep)
Murthy MN,Veerappa AM,Seshachalam KB,Ramachandra NB


book

Regulation of ATP13A2 via PHD2-HIF1α Signaling Is Critical for Cellular Iron Homeostasis: Implications for Parkinson's Disease.
The Journal of neuroscience : the official journal of the Society for Neuroscience36(4)1086-95(2016 Jan)
Rajagopalan S,Rane A,Chinta SJ,Andersen JK


book

Unlocking ATP13A2/PARK9 activity.
Cell cycle (Georgetown, Tex.)14(21)3341-2(2015)
Martin S,Holemans T,Vangheluwe P


 
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