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ATP7B cDNA ORF clone, Homo sapiens (human)

Gene Symbol ATP7B
Entrez Gene ID 540
Full Name ATPase, Cu++ transporting, beta polypeptide
Synonyms PWD, WC1, WD, WND
General protein information
Preferred Names
copper-transporting ATPase 2
Names
copper-transporting ATPase 2
copper pump 2
Wilson disease-associated protein
ATPase, Cu(2+)- transporting, beta polypeptide
NP_000044.2
NP_001005918.1
NP_001230111.1
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

13

13q14.3

Summary This gene is a member of the P-type cation transport ATPase family and encodes a protein with several membrane-spanning domains, an ATPase consensus sequence, a hinge domain, a phosphorylation site, and at least 2 putative copper-binding sites. This protein functions as a monomer, exporting copper out of the cells, such as the efflux of hepatic copper into the bile. Alternate transcriptional splice variants, encoding different isoforms with distinct cellular localizations, have been characterized. Mutations in this gene have been associated with Wilson disease (WD). [provided by RefSeq, Jul 2008]. lac of sum
Disorder MIM:

606882

Disorder Html: Wilson disease, 277900 (3)

mRNA and Protein(s)

mRNA Protein Name
XM_005266430 XP_005266487 copper-transporting ATPase 2 isoform X1
XM_005266431 XP_005266488 copper-transporting ATPase 2 isoform X2
XM_005266424 XP_005266481 copper-transporting ATPase 2 isoform X3
XM_005266423 XP_005266480 copper-transporting ATPase 2 isoform X3
XM_006719837 XP_006719900 copper-transporting ATPase 2 isoform X3
XM_011535117 XP_011533419 copper-transporting ATPase 2 isoform X3
XM_011535118 XP_011533420 copper-transporting ATPase 2 isoform X4
XM_011535119 XP_011533421 copper-transporting ATPase 2 isoform X5
XM_005266427 XP_005266484 copper-transporting ATPase 2 isoform X6
XM_005266428 XP_005266485 copper-transporting ATPase 2 isoform X7
XM_011535120 XP_011533422 copper-transporting ATPase 2 isoform X8
XM_005266432 XP_005266489 copper-transporting ATPase 2 isoform X9
XM_011535121 XP_011533423 copper-transporting ATPase 2 isoform X10
XM_011535122 XP_011533424 copper-transporting ATPase 2 isoform X11
XM_006719838 XP_006719901 copper-transporting ATPase 2 isoform X12
XM_006719839 XP_006719902 copper-transporting ATPase 2 isoform X13
NM_000053 NP_000044 copper-transporting ATPase 2 isoform a
NM_001005918 NP_001005918 copper-transporting ATPase 2 isoform b
NM_001243182 NP_001230111 copper-transporting ATPase 2 isoform c



Homo sapiens (human) ATP7B NP_000044.2
Pan troglodytes (chimpanzee) LOC452734 XP_003314205.1
Macaca mulatta (Rhesus monkey) ATP7B XP_001103242.2
Canis lupus familiaris (dog) ATP7B NP_001020438.1
Bos taurus (cattle) ATP7B XP_002691840.1
Mus musculus (house mouse) Atp7b NP_031537.2
Rattus norvegicus (Norway rat) Atp7b NP_036643.2
Gallus gallus (chicken) ATP7B XP_417073.3
Danio rerio (zebrafish) atp7b XP_684415.5
Arabidopsis thaliana (thale cress) RAN1 NP_199292.1
Xenopus (Silurana) tropicalis (western clawed frog) atp7b XP_002936778.2


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

The following ATP7B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP7B 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
OHu22580
XM_005266430 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK
$519.50-$727.30
$1039.00
OHu47209 XM_005266431 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X6, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $727.30
$1039.00
OHu47202 XM_005266424 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X7, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $727.30
$1039.00
OHu47202 XM_005266423 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X8, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $727.30
$1039.00
OHu47202 XM_006719837 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X9, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $727.30
$1039.00
OHu47202 XM_011535117 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X10, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 16 $727.30
$1039.00
OHu56429 XM_011535118 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X11, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $727.30
$1039.00
OHu56430 XM_011535119 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X12, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $727.30
$1039.00
OHu47203 XM_005266427 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X13, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $727.30
$1039.00
OHu47204 XM_005266428 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X14, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $727.30
$1039.00
OHu56431 XM_011535120 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X15, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu47206 XM_005266432 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X16, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $643.30
$919.00
OHu56432 XM_011535121 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X17, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu56433 XM_011535122 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X18, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 16 $559.30
$799.00
OHu47207 XM_006719838 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X19, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 5-7 $391.30
$559.00
OHu47208 XM_006719839 PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X20, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 12-14 $391.30
$559.00
OHu22580
NM_000053 Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK
$519.50-$727.30
$1039.00
OHu22611 NM_001005918 Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $643.30
$919.00
OHu22960 NM_001243182 Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant 3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $727.30
$1039.00

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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 OHu22580
Clone ID Related Accession (Same CDS sequence) NM_000053 , XM_005266430
Accession Version XM_005266430.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4398bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags COA
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced gi:578824924. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG GCACCCATTC AGCAGCTGGC TGACCGGTTT
AGTGGATATT TTGTCCCATT TATCATCATC ATGTCAACTT TGACGTTGGT GGTATGGATT
GTAATCGGTT TTATCGATTT TGGTGTTGTT CAGAGATACT TTCCTAACCC CAACAAGCAC
ATCTCCCAGA CAGAGGTGAT CATCCGGTTT GCTTTCCAGA CGTCCATCAC GGTGCTGTGC
ATTGCCTGCC CCTGCTCCCT GGGGCTGGCC ACGCCCACGG CTGTCATGGT GGGCACCGGG
GTGGCCGCGC AGAACGGCAT CCTCATCAAG GGAGGCAAGC CCCTGGAGAT GGCGCACAAG
ATAAAGACTG TGATGTTTGA CAAGACTGGC ACCATTACCC ATGGCGTCCC CAGGGTCATG
CGGGTGCTCC TGCTGGGGGA TGTGGCCACA CTGCCCCTCA GGAAGGTTCT GGCTGTGGTG
GGGACTGCGG AGGCCAGCAG TGAACACCCC TTGGGCGTGG CAGTCACCAA ATACTGTAAA
GAGGAACTTG GAACAGAGAC CTTGGGATAC TGCACGGACT TCCAGGCAGT GCCAGGCTGT
GGAATTGGGT GCAAAGTCAG CAACGTGGAA GGCATCCTGG CCCACAGTGA GCGCCCTTTG
AGTGCACCGG CCAGTCACCT GAATGAGGCT GGCAGCCTTC CCGCAGAAAA AGATGCAGTC
CCCCAGACCT TCTCTGTGCT GATTGGAAAC CGTGAGTGGC TGAGGCGCAA CGGTTTAACC
ATTTCTAGCG ATGTCAGTGA CGCTATGACA GACCACGAGA TGAAAGGACA GACAGCCATC
CTGGTGGCTA TTGACGGTGT GCTCTGTGGG ATGATCGCAA TCGCAGACGC TGTCAAGCAG
GAGGCTGCCC TGGCTGTGCA CACGCTGCAG AGCATGGGTG TGGACGTGGT TCTGATCACG
GGGGACAACC GGAAGACAGC CAGAGCTATT GCCACCCAGG TTGGCATCAA CAAAGTCTTT
GCAGAGGTGC TGCCTTCGCA CAAGGTGGCC AAGGTCCAGG AGCTCCAGAA TAAAGGGAAG
AAAGTCGCCA TGGTGGGGGA TGGGGTCAAT GACTCCCCGG CCTTGGCCCA GGCAGACATG
GGTGTGGCCA TTGGCACCGG CACGGATGTG GCCATCGAGG CAGCCGACGT CGTCCTTATC
AGAAATGATT TGCTGGATGT GGTGGCTAGC ATTCACCTTT CCAAGAGGAC TGTCCGAAGG
ATACGCATCA ACCTGGTCCT GGCACTGATT TATAACCTGG TTGGGATACC CATTGCAGCA
GGTGTCTTCA TGCCCATCGG CATTGTGCTG CAGCCCTGGA TGGGCTCAGC GGCCATGGCA
GCCTCCTCTG TGTCTGTGGT GCTCTCATCC CTGCAGCTCA AGTGCTATAA GAAGCCTGAC
CTGGAGAGGT ATGAGGCACA GGCGCATGGC CACATGAAGC CCCTGACGGC ATCCCAGGTC
AGTGTGCACA TAGGCATGGA TGACAGGTGG CGGGACTCCC CCAGGGCCAC ACCATGGGAC
CAGGTCAGCT ATGTCAGCCA GGTGTCGCTG TCCTCCCTGA CGTCCGACAA GCCATCTCGG
CACAGCGCTG CAGCAGACGA TGATGGGGAC AAGTGGTCTC TGCTCCTGAA TGGCAGGGAT
GAGGAGCAGT ACATCTGA

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

RefSeq XP_005266487.1
CDS135..4532
Misc Feature(1)315..506(+)
Misc Feature(2)333..350(+)
Misc Feature(3)570..761(+)
Misc Feature(4)588..605(+)
Misc Feature(5)912..1088(+)
Misc Feature(6)930..947(+)
Misc Feature(7)1221..1409(+)
Misc Feature(8)1236..1253(+)
Misc Feature(9)1608..1796(+)
Misc Feature(10)1623..1640(+)
Misc Feature(11)1830..4199(+)
Misc Feature(12)1833..2024(+)
Misc Feature(13)1851..1868(+)
Misc Feature(14)2439..3182(+)
Misc Feature(15)3669..3986(+)
Misc Feature(16)3681..3797(+)
Misc Feature(17)3681..3698(+)
Misc Feature(18)3792..3794(+)
Translation

Target ORF information:

RefSeq Version XM_005266430
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005266430

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG GCACCCATTC AGCAGCTGGC TGACCGGTTT
AGTGGATATT TTGTCCCATT TATCATCATC ATGTCAACTT TGACGTTGGT GGTATGGATT
GTAATCGGTT TTATCGATTT TGGTGTTGTT CAGAGATACT TTCCTAACCC CAACAAGCAC
ATCTCCCAGA CAGAGGTGAT CATCCGGTTT GCTTTCCAGA CGTCCATCAC GGTGCTGTGC
ATTGCCTGCC CCTGCTCCCT GGGGCTGGCC ACGCCCACGG CTGTCATGGT GGGCACCGGG
GTGGCCGCGC AGAACGGCAT CCTCATCAAG GGAGGCAAGC CCCTGGAGAT GGCGCACAAG
ATAAAGACTG TGATGTTTGA CAAGACTGGC ACCATTACCC ATGGCGTCCC CAGGGTCATG
CGGGTGCTCC TGCTGGGGGA TGTGGCCACA CTGCCCCTCA GGAAGGTTCT GGCTGTGGTG
GGGACTGCGG AGGCCAGCAG TGAACACCCC TTGGGCGTGG CAGTCACCAA ATACTGTAAA
GAGGAACTTG GAACAGAGAC CTTGGGATAC TGCACGGACT TCCAGGCAGT GCCAGGCTGT
GGAATTGGGT GCAAAGTCAG CAACGTGGAA GGCATCCTGG CCCACAGTGA GCGCCCTTTG
AGTGCACCGG CCAGTCACCT GAATGAGGCT GGCAGCCTTC CCGCAGAAAA AGATGCAGTC
CCCCAGACCT TCTCTGTGCT GATTGGAAAC CGTGAGTGGC TGAGGCGCAA CGGTTTAACC
ATTTCTAGCG ATGTCAGTGA CGCTATGACA GACCACGAGA TGAAAGGACA GACAGCCATC
CTGGTGGCTA TTGACGGTGT GCTCTGTGGG ATGATCGCAA TCGCAGACGC TGTCAAGCAG
GAGGCTGCCC TGGCTGTGCA CACGCTGCAG AGCATGGGTG TGGACGTGGT TCTGATCACG
GGGGACAACC GGAAGACAGC CAGAGCTATT GCCACCCAGG TTGGCATCAA CAAAGTCTTT
GCAGAGGTGC TGCCTTCGCA CAAGGTGGCC AAGGTCCAGG AGCTCCAGAA TAAAGGGAAG
AAAGTCGCCA TGGTGGGGGA TGGGGTCAAT GACTCCCCGG CCTTGGCCCA GGCAGACATG
GGTGTGGCCA TTGGCACCGG CACGGATGTG GCCATCGAGG CAGCCGACGT CGTCCTTATC
AGAAATGATT TGCTGGATGT GGTGGCTAGC ATTCACCTTT CCAAGAGGAC TGTCCGAAGG
ATACGCATCA ACCTGGTCCT GGCACTGATT TATAACCTGG TTGGGATACC CATTGCAGCA
GGTGTCTTCA TGCCCATCGG CATTGTGCTG CAGCCCTGGA TGGGCTCAGC GGCCATGGCA
GCCTCCTCTG TGTCTGTGGT GCTCTCATCC CTGCAGCTCA AGTGCTATAA GAAGCCTGAC
CTGGAGAGGT ATGAGGCACA GGCGCATGGC CACATGAAGC CCCTGACGGC ATCCCAGGTC
AGTGTGCACA TAGGCATGGA TGACAGGTGG CGGGACTCCC CCAGGGCCAC ACCATGGGAC
CAGGTCAGCT ATGTCAGCCA GGTGTCGCTG TCCTCCCTGA CGTCCGACAA GCCATCTCGG
CACAGCGCTG CAGCAGACGA TGATGGGGAC AAGTGGTCTC TGCTCCTGAA TGGCAGGGAT
GAGGAGCAGT ACATCTGA

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

CloneID OHu47209
Clone ID Related Accession (Same CDS sequence) XM_005266431
Accession Version XM_005266431.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced gi:530402451. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
ATGAGTTCCA GTCAGATCTT ATCTAAGCTT TCTTTGCCTA CCCGTGCCTG GGAACCAGCA 
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

RefSeq XP_005266488.1
CDS16..4377
Misc Feature(1)160..351(+)
Misc Feature(2)178..195(+)
Misc Feature(3)415..606(+)
Misc Feature(4)433..450(+)
Misc Feature(5)757..933(+)
Misc Feature(6)775..792(+)
Misc Feature(7)1066..1254(+)
Misc Feature(8)1081..1098(+)
Misc Feature(9)1453..1641(+)
Misc Feature(10)1468..1485(+)
Misc Feature(11)1675..4044(+)
Misc Feature(12)1678..1869(+)
Misc Feature(13)1696..1713(+)
Misc Feature(14)2284..3027(+)
Misc Feature(15)3514..3831(+)
Misc Feature(16)3526..3642(+)
Misc Feature(17)3526..3543(+)
Misc Feature(18)3637..3639(+)
Translation

Target ORF information:

RefSeq Version XM_005266431
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X6, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005266431

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
ATGAGTTCCA GTCAGATCTT ATCTAAGCTT TCTTTGCCTA CCCGTGCCTG GGAACCAGCA 
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

CloneID OHu47202
Clone ID Related Accession (Same CDS sequence) XM_005266423 , XM_005266424 , XM_006719837 , XM_011535117
Accession Version XM_005266424.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced gi:578824918. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC 
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

RefSeq XP_005266481.1
CDS251..4552
Misc Feature(1)335..526(+)
Misc Feature(2)353..370(+)
Misc Feature(3)590..781(+)
Misc Feature(4)608..625(+)
Misc Feature(5)932..1108(+)
Misc Feature(6)950..967(+)
Misc Feature(7)1241..1429(+)
Misc Feature(8)1256..1273(+)
Misc Feature(9)1628..1816(+)
Misc Feature(10)1643..1660(+)
Misc Feature(11)1850..4219(+)
Misc Feature(12)1853..2044(+)
Misc Feature(13)1871..1888(+)
Misc Feature(14)2459..3202(+)
Misc Feature(15)3689..4006(+)
Misc Feature(16)3701..3817(+)
Misc Feature(17)3701..3718(+)
Misc Feature(18)3812..3814(+)
Translation

Target ORF information:

RefSeq Version XM_005266424
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X7, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005266424

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC 
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

CloneID OHu47202
Clone ID Related Accession (Same CDS sequence) XM_005266423 , XM_005266424 , XM_006719837 , XM_011535117
Accession Version XM_005266423.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced gi:530402435. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC 
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

RefSeq XP_005266480.1
CDS159..4460
Misc Feature(1)243..434(+)
Misc Feature(2)261..278(+)
Misc Feature(3)498..689(+)
Misc Feature(4)516..533(+)
Misc Feature(5)840..1016(+)
Misc Feature(6)858..875(+)
Misc Feature(7)1149..1337(+)
Misc Feature(8)1164..1181(+)
Misc Feature(9)1536..1724(+)
Misc Feature(10)1551..1568(+)
Misc Feature(11)1758..4127(+)
Misc Feature(12)1761..1952(+)
Misc Feature(13)1779..1796(+)
Misc Feature(14)2367..3110(+)
Misc Feature(15)3597..3914(+)
Misc Feature(16)3609..3725(+)
Misc Feature(17)3609..3626(+)
Misc Feature(18)3720..3722(+)
Translation

Target ORF information:

RefSeq Version XM_005266423
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X8, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005266423

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC 
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

CloneID OHu47202
Clone ID Related Accession (Same CDS sequence) XM_005266423 , XM_005266424 , XM_006719837 , XM_011535117
Accession Version XM_006719837.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced gi:578824919. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC 
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

RefSeq XP_006719900.1
CDS91..4392
Misc Feature(1)175..366(+)
Misc Feature(2)193..210(+)
Misc Feature(3)430..621(+)
Misc Feature(4)448..465(+)
Misc Feature(5)772..948(+)
Misc Feature(6)790..807(+)
Misc Feature(7)1081..1269(+)
Misc Feature(8)1096..1113(+)
Misc Feature(9)1468..1656(+)
Misc Feature(10)1483..1500(+)
Misc Feature(11)1690..4059(+)
Misc Feature(12)1693..1884(+)
Misc Feature(13)1711..1728(+)
Misc Feature(14)2299..3042(+)
Misc Feature(15)3529..3846(+)
Misc Feature(16)3541..3657(+)
Misc Feature(17)3541..3558(+)
Misc Feature(18)3652..3654(+)
Translation

Target ORF information:

RefSeq Version XM_006719837
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X9, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_006719837

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC 
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

CloneID OHu47202
Clone ID Related Accession (Same CDS sequence) XM_005266423 , XM_005266424 , XM_006719837 , XM_011535117
Accession Version XM_011535117.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC 
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

RefSeq XP_011533419.1
CDS103..4404
Misc Feature(1)187..378(+)
Misc Feature(2)205..222(+)
Misc Feature(3)442..633(+)
Misc Feature(4)460..477(+)
Misc Feature(5)784..960(+)
Misc Feature(6)802..819(+)
Misc Feature(7)1093..1281(+)
Misc Feature(8)1108..1125(+)
Misc Feature(9)1480..1668(+)
Misc Feature(10)1495..1512(+)
Misc Feature(11)1702..4071(+)
Misc Feature(12)1705..1896(+)
Misc Feature(13)1723..1740(+)
Misc Feature(14)2311..3054(+)
Misc Feature(15)3541..3858(+)
Misc Feature(16)3553..3669(+)
Misc Feature(17)3553..3570(+)
Misc Feature(18)3664..3666(+)
Translation

Target ORF information:

RefSeq Version XM_011535117
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X10, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011535117

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGAAGAAGA GTTTTGCTTT TGACAATGTT GGCTATGAAG GTGGTCTGGA TGGCCTGGGC 
CCTTCTTCTC AGGTGGCCAC CAGCACAGTC AGGATCTTGG GCATGACTTG CCAGTCATGT
GTGAAGTCCA TTGAGGACAG GATTTCCAAT TTGAAAGGCA TCATCAGCAT GAAGGTTTCC
CTGGAACAAG GCAGTGCCAC TGTGAAATAT GTGCCATCGG TTGTGTGCCT GCAACAGGTT
TGCCATCAAA TTGGGGACAT GGGCTTCGAG GCCAGCATTG CAGAAGGAAA GGCAGCCTCC
TGGCCCTCAA GGTCCTTGCC TGCCCAGGAG GCTGTGGTCA AGCTCCGGGT GGAGGGCATG
ACCTGCCAGT CCTGTGTCAG CTCCATTGAA GGCAAGGTCC GGAAACTGCA AGGAGTAGTG
AGAGTCAAAG TCTCACTCAG CAACCAAGAG GCCGTCATCA CTTATCAGCC TTATCTCATT
CAGCCCGAAG ACCTCAGGGA CCATGTAAAT GACATGGGAT TTGAAGCTGC CATCAAGAGC
AAAGTGGCTC CCTTAAGCCT GGGACCAATT GATATTGAGC GGTTACAAAG CACTAACCCA
AAGAGACCTT TATCTTCTGC TAACCAGAAT TTTAATAATT CTGAGACCTT GGGGCACCAA
GGAAGCCATG TGGTCACCCT CCAACTGAGA ATAGATGGAA TGCATTGTAA GTCTTGCGTC
TTGAATATTG AAGAAAATAT TGGCCAGCTC CTAGGGGTTC AAAGTATTCA AGTGTCCTTG
GAGAACAAAA CTGCCCAAGT AAAGTATGAC CCTTCTTGTA CCAGCCCAGT GGCTCTGCAG
AGGGCTATCG AGGCACTTCC ACCTGGGAAT TTTAAAGTTT CTCTTCCTGA TGGAGCCGAA
GGGAGTGGGA CAGATCACAG GTCTTCCAGT TCTCATTCCC CTGGCTCCCC ACCGAGAAAC
CAGGTCCAGG GCACATGCAG TACCACTCTG ATTGCCATTG CCGGCATGAC CTGTGCATCC
TGTGTCCATT CCATTGAAGG CATGATCTCC CAACTGGAAG GGGTGCAGCA AATATCGGTG
TCTTTGGCCG AAGGGACTGC AACAGTTCTT TATAATCCCT CTGTAATTAG CCCAGAAGAA
CTCAGAGCTG CTATAGAAGA CATGGGATTT GAGGCTTCAG TCGTTTCTGA AAGCTGTTCT
ACTAACCCTC TTGGAAACCA CAGTGCTGGG AATTCCATGG TGCAAACTAC AGATGGTACA
CCTACATCTG TGCAGGAAGT GGCTCCCCAC ACTGGGAGGC TCCCTGCAAA CCATGCCCCG
GACATCTTGG CAAAGTCCCC ACAATCAACC AGAGCAGTGG CACCGCAGAA GTGCTTCTTA
CAGATCAAAG GCATGACCTG TGCATCCTGT GTGTCTAACA TAGAAAGGAA TCTGCAGAAA
GAAGCTGGTG TTCTCTCCGT GTTGGTTGCC TTGATGGCAG GAAAGGCAGA GATCAAGTAT
GACCCAGAGG TCATCCAGCC CCTCGAGATA GCTCAGTTCA TCCAGGACCT GGGTTTTGAG
GCAGCAGTCA TGGAGGACTA CGCAGGCTCC GATGGCAACA TTGAGCTGAC AATCACAGGG
ATGACCTGCG CGTCCTGTGT CCACAACATA GAGTCCAAAC TCACGAGGAC AAATGGCATC
ACTTATGCCT CCGTTGCCCT TGCCACCAGC AAAGCCCTTG TTAAGTTTGA CCCGGAAATT
ATCGGTCCAC GGGATATTAT CAAAATTATT GAGGAAATTG GCTTTCATGC TTCCCTGGCC
CAGAGAAACC CCAACGCTCA TCACTTGGAC CACAAGATGG AAATAAAGCA GTGGAAGAAG
TCTTTCCTGT GCAGCCTGGT GTTTGGCATC CCTGTCATGG CCTTAATGAT CTATATGCTG
ATACCCAGCA ACGAGCCCCA CCAGTCCATG GTCCTGGACC ACAACATCAT TCCAGGACTG
TCCATTCTAA ATCTCATCTT CTTTATCTTG TGTACCTTTG TCCAGCTCCT CGGTGGGTGG
TACTTCTACG TTCAGGCCTA CAAATCTCTG AGACACAGGT CAGCCAACAT GGACGTGCTC
ATCGTCCTGG CCACAAGCAT TGCTTATGTT TATTCTCTGG TCATCCTGGT GGTTGCTGTG
GCTGAGAAGG CGGAGAGGAG CCCTGTGACA TTCTTCGACA CGCCCCCCAT GCTCTTTGTG
TTCATTGCCC TGGGCCGGTG GCTGGAACAC TTGGCAAAGA GCAAAACCTC AGAAGCCCTG
GCTAAACTCA TGTCTCTCCA AGCCACAGAA GCCACCGTTG TGACCCTTGG TGAGGACAAT
TTAATCATCA GGGAGGAGCA AGTCCCCATG GAGCTGGTGC AGCGGGGCGA TATCGTCAAG
GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT GGGAAAGTCC TGGAAGGCAA TACCATGGCT
GATGAGTCCC TCATCACAGG AGAAGCCATG CCAGTCACTA AGAAACCCGG AAGCACTGTA
ATTGCGGGGT CTATAAATGC ACATGGCTCT GTGCTCATTA AAGCTACCCA CGTGGGCAAT
GACACCACTT TGGCTCAGAT TGTGAAACTG GTGGAAGAGG CTCAGATGTC AAAGGCACCC
ATTCAGCAGC TGGCTGACCG GTTTAGTGGA TATTTTGTCC CATTTATCAT CATCATGTCA
ACTTTGACGT TGGTGGTATG GATTGTAATC GGTTTTATCG ATTTTGGTGT TGTTCAGAGA
TACTTTCCTA ACCCCAACAA GCACATCTCC CAGACAGAGG TGATCATCCG GTTTGCTTTC
CAGACGTCCA TCACGGTGCT GTGCATTGCC TGCCCCTGCT CCCTGGGGCT GGCCACGCCC
ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC GCGCAGAACG GCATCCTCAT CAAGGGAGGC
AAGCCCCTGG AGATGGCGCA CAAGATAAAG ACTGTGATGT TTGACAAGAC TGGCACCATT
ACCCATGGCG TCCCCAGGGT CATGCGGGTG CTCCTGCTGG GGGATGTGGC CACACTGCCC
CTCAGGAAGG TTCTGGCTGT GGTGGGGACT GCGGAGGCCA GCAGTGAACA CCCCTTGGGC
GTGGCAGTCA CCAAATACTG TAAAGAGGAA CTTGGAACAG AGACCTTGGG ATACTGCACG
GACTTCCAGG CAGTGCCAGG CTGTGGAATT GGGTGCAAAG TCAGCAACGT GGAAGGCATC
CTGGCCCACA GTGAGCGCCC TTTGAGTGCA CCGGCCAGTC ACCTGAATGA GGCTGGCAGC
CTTCCCGCAG AAAAAGATGC AGTCCCCCAG ACCTTCTCTG TGCTGATTGG AAACCGTGAG
TGGCTGAGGC GCAACGGTTT AACCATTTCT AGCGATGTCA GTGACGCTAT GACAGACCAC
GAGATGAAAG GACAGACAGC CATCCTGGTG GCTATTGACG GTGTGCTCTG TGGGATGATC
GCAATCGCAG ACGCTGTCAA GCAGGAGGCT GCCCTGGCTG TGCACACGCT GCAGAGCATG
GGTGTGGACG TGGTTCTGAT CACGGGGGAC AACCGGAAGA CAGCCAGAGC TATTGCCACC
CAGGTTGGCA TCAACAAAGT CTTTGCAGAG GTGCTGCCTT CGCACAAGGT GGCCAAGGTC
CAGGAGCTCC AGAATAAAGG GAAGAAAGTC GCCATGGTGG GGGATGGGGT CAATGACTCC
CCGGCCTTGG CCCAGGCAGA CATGGGTGTG GCCATTGGCA CCGGCACGGA TGTGGCCATC
GAGGCAGCCG ACGTCGTCCT TATCAGAAAT GATTTGCTGG ATGTGGTGGC TAGCATTCAC
CTTTCCAAGA GGACTGTCCG AAGGATACGC ATCAACCTGG TCCTGGCACT GATTTATAAC
CTGGTTGGGA TACCCATTGC AGCAGGTGTC TTCATGCCCA TCGGCATTGT GCTGCAGCCC
TGGATGGGCT CAGCGGCCAT GGCAGCCTCC TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG
CTCAAGTGCT ATAAGAAGCC TGACCTGGAG AGGTATGAGG CACAGGCGCA TGGCCACATG
AAGCCCCTGA CGGCATCCCA GGTCAGTGTG CACATAGGCA TGGATGACAG GTGGCGGGAC
TCCCCCAGGG CCACACCATG GGACCAGGTC AGCTATGTCA GCCAGGTGTC GCTGTCCTCC
CTGACGTCCG ACAAGCCATC TCGGCACAGC GCTGCAGCAG ACGATGATGG GGACAAGTGG
TCTCTGCTCC TGAATGGCAG GGATGAGGAG CAGTACATCT GA

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

CloneID OHu56429
Clone ID Related Accession (Same CDS sequence) XM_011535118
Accession Version XM_011535118.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4263bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X4
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG AACCCCAACA AGCACATCTC CCAGACAGAG
GTGATCATCC GGTTTGCTTT CCAGACGTCC ATCACGGTGC TGTGCATTGC CTGCCCCTGC
TCCCTGGGGC TGGCCACGCC CACGGCTGTC ATGGTGGGCA CCGGGGTGGC CGCGCAGAAC
GGCATCCTCA TCAAGGGAGG CAAGCCCCTG GAGATGGCGC ACAAGATAAA GACTGTGATG
TTTGACAAGA CTGGCACCAT TACCCATGGC GTCCCCAGGG TCATGCGGGT GCTCCTGCTG
GGGGATGTGG CCACACTGCC CCTCAGGAAG GTTCTGGCTG TGGTGGGGAC TGCGGAGGCC
AGCAGTGAAC ACCCCTTGGG CGTGGCAGTC ACCAAATACT GTAAAGAGGA ACTTGGAACA
GAGACCTTGG GATACTGCAC GGACTTCCAG GCAGTGCCAG GCTGTGGAAT TGGGTGCAAA
GTCAGCAACG TGGAAGGCAT CCTGGCCCAC AGTGAGCGCC CTTTGAGTGC ACCGGCCAGT
CACCTGAATG AGGCTGGCAG CCTTCCCGCA GAAAAAGATG CAGTCCCCCA GACCTTCTCT
GTGCTGATTG GAAACCGTGA GTGGCTGAGG CGCAACGGTT TAACCATTTC TAGCGATGTC
AGTGACGCTA TGACAGACCA CGAGATGAAA GGACAGACAG CCATCCTGGT GGCTATTGAC
GGTGTGCTCT GTGGGATGAT CGCAATCGCA GACGCTGTCA AGCAGGAGGC TGCCCTGGCT
GTGCACACGC TGCAGAGCAT GGGTGTGGAC GTGGTTCTGA TCACGGGGGA CAACCGGAAG
ACAGCCAGAG CTATTGCCAC CCAGGTTGGC ATCAACAAAG TCTTTGCAGA GGTGCTGCCT
TCGCACAAGG TGGCCAAGGT CCAGGAGCTC CAGAATAAAG GGAAGAAAGT CGCCATGGTG
GGGGATGGGG TCAATGACTC CCCGGCCTTG GCCCAGGCAG ACATGGGTGT GGCCATTGGC
ACCGGCACGG ATGTGGCCAT CGAGGCAGCC GACGTCGTCC TTATCAGAAA TGATTTGCTG
GATGTGGTGG CTAGCATTCA CCTTTCCAAG AGGACTGTCC GAAGGATACG CATCAACCTG
GTCCTGGCAC TGATTTATAA CCTGGTTGGG ATACCCATTG CAGCAGGTGT CTTCATGCCC
ATCGGCATTG TGCTGCAGCC CTGGATGGGC TCAGCGGCCA TGGCAGCCTC CTCTGTGTCT
GTGGTGCTCT CATCCCTGCA GCTCAAGTGC TATAAGAAGC CTGACCTGGA GAGGTATGAG
GCACAGGCGC ATGGCCACAT GAAGCCCCTG ACGGCATCCC AGGTCAGTGT GCACATAGGC
ATGGATGACA GGTGGCGGGA CTCCCCCAGG GCCACACCAT GGGACCAGGT CAGCTATGTC
AGCCAGGTGT CGCTGTCCTC CCTGACGTCC GACAAGCCAT CTCGGCACAG CGCTGCAGCA
GACGATGATG GGGACAAGTG GTCTCTGCTC CTGAATGGCA GGGATGAGGA GCAGTACATC
TGA

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

RefSeq XP_011533420.1
CDS220..4482
Misc Feature(1)400..591(+)
Misc Feature(2)418..435(+)
Misc Feature(3)655..846(+)
Misc Feature(4)673..690(+)
Misc Feature(5)997..1173(+)
Misc Feature(6)1015..1032(+)
Misc Feature(7)1306..1494(+)
Misc Feature(8)1321..1338(+)
Misc Feature(9)1693..1881(+)
Misc Feature(10)1708..1725(+)
Misc Feature(11)1915..4149(+)
Misc Feature(12)1918..2109(+)
Misc Feature(13)1936..1953(+)
Misc Feature(14)2524..3132(+)
Misc Feature(15)3619..3936(+)
Misc Feature(16)3631..3747(+)
Misc Feature(17)3631..3648(+)
Misc Feature(18)3742..3744(+)
Translation

Target ORF information:

RefSeq Version XM_011535118
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X11, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011535118

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG AACCCCAACA AGCACATCTC CCAGACAGAG
GTGATCATCC GGTTTGCTTT CCAGACGTCC ATCACGGTGC TGTGCATTGC CTGCCCCTGC
TCCCTGGGGC TGGCCACGCC CACGGCTGTC ATGGTGGGCA CCGGGGTGGC CGCGCAGAAC
GGCATCCTCA TCAAGGGAGG CAAGCCCCTG GAGATGGCGC ACAAGATAAA GACTGTGATG
TTTGACAAGA CTGGCACCAT TACCCATGGC GTCCCCAGGG TCATGCGGGT GCTCCTGCTG
GGGGATGTGG CCACACTGCC CCTCAGGAAG GTTCTGGCTG TGGTGGGGAC TGCGGAGGCC
AGCAGTGAAC ACCCCTTGGG CGTGGCAGTC ACCAAATACT GTAAAGAGGA ACTTGGAACA
GAGACCTTGG GATACTGCAC GGACTTCCAG GCAGTGCCAG GCTGTGGAAT TGGGTGCAAA
GTCAGCAACG TGGAAGGCAT CCTGGCCCAC AGTGAGCGCC CTTTGAGTGC ACCGGCCAGT
CACCTGAATG AGGCTGGCAG CCTTCCCGCA GAAAAAGATG CAGTCCCCCA GACCTTCTCT
GTGCTGATTG GAAACCGTGA GTGGCTGAGG CGCAACGGTT TAACCATTTC TAGCGATGTC
AGTGACGCTA TGACAGACCA CGAGATGAAA GGACAGACAG CCATCCTGGT GGCTATTGAC
GGTGTGCTCT GTGGGATGAT CGCAATCGCA GACGCTGTCA AGCAGGAGGC TGCCCTGGCT
GTGCACACGC TGCAGAGCAT GGGTGTGGAC GTGGTTCTGA TCACGGGGGA CAACCGGAAG
ACAGCCAGAG CTATTGCCAC CCAGGTTGGC ATCAACAAAG TCTTTGCAGA GGTGCTGCCT
TCGCACAAGG TGGCCAAGGT CCAGGAGCTC CAGAATAAAG GGAAGAAAGT CGCCATGGTG
GGGGATGGGG TCAATGACTC CCCGGCCTTG GCCCAGGCAG ACATGGGTGT GGCCATTGGC
ACCGGCACGG ATGTGGCCAT CGAGGCAGCC GACGTCGTCC TTATCAGAAA TGATTTGCTG
GATGTGGTGG CTAGCATTCA CCTTTCCAAG AGGACTGTCC GAAGGATACG CATCAACCTG
GTCCTGGCAC TGATTTATAA CCTGGTTGGG ATACCCATTG CAGCAGGTGT CTTCATGCCC
ATCGGCATTG TGCTGCAGCC CTGGATGGGC TCAGCGGCCA TGGCAGCCTC CTCTGTGTCT
GTGGTGCTCT CATCCCTGCA GCTCAAGTGC TATAAGAAGC CTGACCTGGA GAGGTATGAG
GCACAGGCGC ATGGCCACAT GAAGCCCCTG ACGGCATCCC AGGTCAGTGT GCACATAGGC
ATGGATGACA GGTGGCGGGA CTCCCCCAGG GCCACACCAT GGGACCAGGT CAGCTATGTC
AGCCAGGTGT CGCTGTCCTC CCTGACGTCC GACAAGCCAT CTCGGCACAG CGCTGCAGCA
GACGATGATG GGGACAAGTG GTCTCTGCTC CTGAATGGCA GGGATGAGGA GCAGTACATC
TGA

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

CloneID OHu56430
Clone ID Related Accession (Same CDS sequence) XM_011535119
Accession Version XM_011535119.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4215bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X5
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG GCACCCATTC AGCAGCTGGC TGACCGGTTT
AGTGGATATT TTGTCCCATT TATCATCATC ATGTCAACTT TGACGTTGGT GGTATGGATT
GTAATCGGTT TTATCGATTT TGGTGTTGTT CAGAGATACT TTCCTAACCC CAACAAGCAC
ATCTCCCAGA CAGAGGTGAT CATCCGGTTT GCTTTCCAGA CGTCCATCAC GGTGCTGTGC
ATTGCCTGCC CCTGCTCCCT GGGGCTGGCC ACGCCCACGG CTGTCATGGT GGGCACCGGG
GTGGCCGCGC AGAACGGCAT CCTCATCAAG GGAGGCAAGC CCCTGGAGAT GGCGCACAAG
GAACTTGGAA CAGAGACCTT GGGATACTGC ACGGACTTCC AGGCAGTGCC AGGCTGTGGA
ATTGGGTGCA AAGTCAGCAA CGTGGAAGGC ATCCTGGCCC ACAGTGAGCG CCCTTTGAGT
GCACCGGCCA GTCACCTGAA TGAGGCTGGC AGCCTTCCCG CAGAAAAAGA TGCAGTCCCC
CAGACCTTCT CTGTGCTGAT TGGAAACCGT GAGTGGCTGA GGCGCAACGG TTTAACCATT
TCTAGCGATG TCAGTGACGC TATGACAGAC CACGAGATGA AAGGACAGAC AGCCATCCTG
GTGGCTATTG ACGGTGTGCT CTGTGGGATG ATCGCAATCG CAGACGCTGT CAAGCAGGAG
GCTGCCCTGG CTGTGCACAC GCTGCAGAGC ATGGGTGTGG ACGTGGTTCT GATCACGGGG
GACAACCGGA AGACAGCCAG AGCTATTGCC ACCCAGGTTG GCATCAACAA AGTCTTTGCA
GAGGTGCTGC CTTCGCACAA GGTGGCCAAG GTCCAGGAGC TCCAGAATAA AGGGAAGAAA
GTCGCCATGG TGGGGGATGG GGTCAATGAC TCCCCGGCCT TGGCCCAGGC AGACATGGGT
GTGGCCATTG GCACCGGCAC GGATGTGGCC ATCGAGGCAG CCGACGTCGT CCTTATCAGA
AATGATTTGC TGGATGTGGT GGCTAGCATT CACCTTTCCA AGAGGACTGT CCGAAGGATA
CGCATCAACC TGGTCCTGGC ACTGATTTAT AACCTGGTTG GGATACCCAT TGCAGCAGGT
GTCTTCATGC CCATCGGCAT TGTGCTGCAG CCCTGGATGG GCTCAGCGGC CATGGCAGCC
TCCTCTGTGT CTGTGGTGCT CTCATCCCTG CAGCTCAAGT GCTATAAGAA GCCTGACCTG
GAGAGGTATG AGGCACAGGC GCATGGCCAC ATGAAGCCCC TGACGGCATC CCAGGTCAGT
GTGCACATAG GCATGGATGA CAGGTGGCGG GACTCCCCCA GGGCCACACC ATGGGACCAG
GTCAGCTATG TCAGCCAGGT GTCGCTGTCC TCCCTGACGT CCGACAAGCC ATCTCGGCAC
AGCGCTGCAG CAGACGATGA TGGGGACAAG TGGTCTCTGC TCCTGAATGG CAGGGATGAG
GAGCAGTACA TCTGA

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

RefSeq XP_011533421.1
CDS220..4434
Misc Feature(1)400..591(+)
Misc Feature(2)418..435(+)
Misc Feature(3)655..846(+)
Misc Feature(4)673..690(+)
Misc Feature(5)997..1173(+)
Misc Feature(6)1015..1032(+)
Misc Feature(7)1306..1494(+)
Misc Feature(8)1321..1338(+)
Misc Feature(9)1693..1881(+)
Misc Feature(10)1708..1725(+)
Misc Feature(11)1915..4101(+)
Misc Feature(12)1918..2109(+)
Misc Feature(13)1936..1953(+)
Misc Feature(14)2524..3267(+)
Misc Feature(15)3571..3888(+)
Misc Feature(16)3583..3699(+)
Misc Feature(17)3583..3600(+)
Misc Feature(18)3694..3696(+)
Translation

Target ORF information:

RefSeq Version XM_011535119
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X12, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011535119

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG GCACCCATTC AGCAGCTGGC TGACCGGTTT
AGTGGATATT TTGTCCCATT TATCATCATC ATGTCAACTT TGACGTTGGT GGTATGGATT
GTAATCGGTT TTATCGATTT TGGTGTTGTT CAGAGATACT TTCCTAACCC CAACAAGCAC
ATCTCCCAGA CAGAGGTGAT CATCCGGTTT GCTTTCCAGA CGTCCATCAC GGTGCTGTGC
ATTGCCTGCC CCTGCTCCCT GGGGCTGGCC ACGCCCACGG CTGTCATGGT GGGCACCGGG
GTGGCCGCGC AGAACGGCAT CCTCATCAAG GGAGGCAAGC CCCTGGAGAT GGCGCACAAG
GAACTTGGAA CAGAGACCTT GGGATACTGC ACGGACTTCC AGGCAGTGCC AGGCTGTGGA
ATTGGGTGCA AAGTCAGCAA CGTGGAAGGC ATCCTGGCCC ACAGTGAGCG CCCTTTGAGT
GCACCGGCCA GTCACCTGAA TGAGGCTGGC AGCCTTCCCG CAGAAAAAGA TGCAGTCCCC
CAGACCTTCT CTGTGCTGAT TGGAAACCGT GAGTGGCTGA GGCGCAACGG TTTAACCATT
TCTAGCGATG TCAGTGACGC TATGACAGAC CACGAGATGA AAGGACAGAC AGCCATCCTG
GTGGCTATTG ACGGTGTGCT CTGTGGGATG ATCGCAATCG CAGACGCTGT CAAGCAGGAG
GCTGCCCTGG CTGTGCACAC GCTGCAGAGC ATGGGTGTGG ACGTGGTTCT GATCACGGGG
GACAACCGGA AGACAGCCAG AGCTATTGCC ACCCAGGTTG GCATCAACAA AGTCTTTGCA
GAGGTGCTGC CTTCGCACAA GGTGGCCAAG GTCCAGGAGC TCCAGAATAA AGGGAAGAAA
GTCGCCATGG TGGGGGATGG GGTCAATGAC TCCCCGGCCT TGGCCCAGGC AGACATGGGT
GTGGCCATTG GCACCGGCAC GGATGTGGCC ATCGAGGCAG CCGACGTCGT CCTTATCAGA
AATGATTTGC TGGATGTGGT GGCTAGCATT CACCTTTCCA AGAGGACTGT CCGAAGGATA
CGCATCAACC TGGTCCTGGC ACTGATTTAT AACCTGGTTG GGATACCCAT TGCAGCAGGT
GTCTTCATGC CCATCGGCAT TGTGCTGCAG CCCTGGATGG GCTCAGCGGC CATGGCAGCC
TCCTCTGTGT CTGTGGTGCT CTCATCCCTG CAGCTCAAGT GCTATAAGAA GCCTGACCTG
GAGAGGTATG AGGCACAGGC GCATGGCCAC ATGAAGCCCC TGACGGCATC CCAGGTCAGT
GTGCACATAG GCATGGATGA CAGGTGGCGG GACTCCCCCA GGGCCACACC ATGGGACCAG
GTCAGCTATG TCAGCCAGGT GTCGCTGTCC TCCCTGACGT CCGACAAGCC ATCTCGGCAC
AGCGCTGCAG CAGACGATGA TGGGGACAAG TGGTCTCTGC TCCTGAATGG CAGGGATGAG
GAGCAGTACA TCTGA

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

CloneID OHu47203
Clone ID Related Accession (Same CDS sequence) XM_005266427
Accession Version XM_005266427.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4164bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X6
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 3, 2014 this sequence version replaced gi:530402443. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GAGCAAAACC TCAGAAGCCC TGGCTAAACT CATGTCTCTC
CAAGCCACAG AAGCCACCGT TGTGACCCTT GGTGAGGACA ATTTAATCAT CAGGGAGGAG
CAAGTCCCCA TGGAGCTGGT GCAGCGGGGC GATATCGTCA AGGTGGTCCC TGGGGGAAAG
TTTCCAGTGG ATGGGAAAGT CCTGGAAGGC AATACCATGG CTGATGAGTC CCTCATCACA
GGAGAAGCCA TGCCAGTCAC TAAGAAACCC GGAAGCACTG TAATTGCGGG GTCTATAAAT
GCACATGGCT CTGTGCTCAT TAAAGCTACC CACGTGGGCA ATGACACCAC TTTGGCTCAG
ATTGTGAAAC TGGTGGAAGA GGCTCAGATG TCAAAGGCAC CCATTCAGCA GCTGGCTGAC
CGGTTTAGTG GATATTTTGT CCCATTTATC ATCATCATGT CAACTTTGAC GTTGGTGGTA
TGGATTGTAA TCGGTTTTAT CGATTTTGGT GTTGTTCAGA GATACTTTCC TAACCCCAAC
AAGCACATCT CCCAGACAGA GGTGATCATC CGGTTTGCTT TCCAGACGTC CATCACGGTG
CTGTGCATTG CCTGCCCCTG CTCCCTGGGG CTGGCCACGC CCACGGCTGT CATGGTGGGC
ACCGGGGTGG CCGCGCAGAA CGGCATCCTC ATCAAGGGAG GCAAGCCCCT GGAGATGGCG
CACAAGATAA AGACTGTGAT GTTTGACAAG ACTGGCACCA TTACCCATGG CGTCCCCAGG
GTCATGCGGG TGCTCCTGCT GGGGGATGTG GCCACACTGC CCCTCAGGAA GGTTCTGGCT
GTGGTGGGGA CTGCGGAGGC CAGCAGTGAA CACCCCTTGG GCGTGGCAGT CACCAAATAC
TGTAAAGAGG AACTTGGAAC AGAGACCTTG GGATACTGCA CGGACTTCCA GGCAGTGCCA
GGCTGTGGAA TTGGGTGCAA AGTCAGCAAC GTGGAAGGCA TCCTGGCCCA CAGTGAGCGC
CCTTTGAGTG CACCGGCCAG TCACCTGAAT GAGGCTGGCA GCCTTCCCGC AGAAAAAGAT
GCAGTCCCCC AGACCTTCTC TGTGCTGATT GGAAACCGTG AGTGGCTGAG GCGCAACGGT
TTAACCATTT CTAGCGATGT CAGTGACGCT ATGACAGACC ACGAGATGAA AGGACAGACA
GCCATCCTGG TGGCTATTGA CGGTGTGCTC TGTGGGATGA TCGCAATCGC AGACGCTGTC
AAGCAGGAGG CTGCCCTGGC TGTGCACACG CTGCAGAGCA TGGGTGTGGA CGTGGTTCTG
ATCACGGGGG ACAACCGGAA GACAGCCAGA GCTATTGCCA CCCAGGTTGG CATCAACAAA
GTCTTTGCAG AGGTGCTGCC TTCGCACAAG GTGGCCAAGG TCCAGGAGCT CCAGAATAAA
GGGAAGAAAG TCGCCATGGT GGGGGATGGG GTCAATGACT CCCCGGCCTT GGCCCAGGCA
GACATGGGTG TGGCCATTGG CACCGGCACG GATGTGGCCA TCGAGGCAGC CGACGTCGTC
CTTATCAGAA ATGATTTGCT GGATGTGGTG GCTAGCATTC ACCTTTCCAA GAGGACTGTC
CGAAGGATAC GCATCAACCT GGTCCTGGCA CTGATTTATA ACCTGGTTGG GATACCCATT
GCAGCAGGTG TCTTCATGCC CATCGGCATT GTGCTGCAGC CCTGGATGGG CTCAGCGGCC
ATGGCAGCCT CCTCTGTGTC TGTGGTGCTC TCATCCCTGC AGCTCAAGTG CTATAAGAAG
CCTGACCTGG AGAGGTATGA GGCACAGGCG CATGGCCACA TGAAGCCCCT GACGGCATCC
CAGGTCAGTG TGCACATAGG CATGGATGAC AGGTGGCGGG ACTCCCCCAG GGCCACACCA
TGGGACCAGG TCAGCTATGT CAGCCAGGTG TCGCTGTCCT CCCTGACGTC CGACAAGCCA
TCTCGGCACA GCGCTGCAGC AGACGATGAT GGGGACAAGT GGTCTCTGCT CCTGAATGGC
AGGGATGAGG AGCAGTACAT CTGA

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

RefSeq XP_005266484.1
CDS220..4383
Misc Feature(1)400..591(+)
Misc Feature(2)418..435(+)
Misc Feature(3)655..846(+)
Misc Feature(4)673..690(+)
Misc Feature(5)997..1173(+)
Misc Feature(6)1015..1032(+)
Misc Feature(7)1306..1494(+)
Misc Feature(8)1321..1338(+)
Misc Feature(9)1693..1881(+)
Misc Feature(10)1708..1725(+)
Misc Feature(11)1915..4050(+)
Misc Feature(12)1918..2109(+)
Misc Feature(13)1936..1953(+)
Misc Feature(14)2299..3033(+)
Misc Feature(15)3520..3837(+)
Misc Feature(16)3532..3648(+)
Misc Feature(17)3532..3549(+)
Misc Feature(18)3643..3645(+)
Translation

Target ORF information:

RefSeq Version XM_005266427
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X13, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005266427

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GAGCAAAACC TCAGAAGCCC TGGCTAAACT CATGTCTCTC
CAAGCCACAG AAGCCACCGT TGTGACCCTT GGTGAGGACA ATTTAATCAT CAGGGAGGAG
CAAGTCCCCA TGGAGCTGGT GCAGCGGGGC GATATCGTCA AGGTGGTCCC TGGGGGAAAG
TTTCCAGTGG ATGGGAAAGT CCTGGAAGGC AATACCATGG CTGATGAGTC CCTCATCACA
GGAGAAGCCA TGCCAGTCAC TAAGAAACCC GGAAGCACTG TAATTGCGGG GTCTATAAAT
GCACATGGCT CTGTGCTCAT TAAAGCTACC CACGTGGGCA ATGACACCAC TTTGGCTCAG
ATTGTGAAAC TGGTGGAAGA GGCTCAGATG TCAAAGGCAC CCATTCAGCA GCTGGCTGAC
CGGTTTAGTG GATATTTTGT CCCATTTATC ATCATCATGT CAACTTTGAC GTTGGTGGTA
TGGATTGTAA TCGGTTTTAT CGATTTTGGT GTTGTTCAGA GATACTTTCC TAACCCCAAC
AAGCACATCT CCCAGACAGA GGTGATCATC CGGTTTGCTT TCCAGACGTC CATCACGGTG
CTGTGCATTG CCTGCCCCTG CTCCCTGGGG CTGGCCACGC CCACGGCTGT CATGGTGGGC
ACCGGGGTGG CCGCGCAGAA CGGCATCCTC ATCAAGGGAG GCAAGCCCCT GGAGATGGCG
CACAAGATAA AGACTGTGAT GTTTGACAAG ACTGGCACCA TTACCCATGG CGTCCCCAGG
GTCATGCGGG TGCTCCTGCT GGGGGATGTG GCCACACTGC CCCTCAGGAA GGTTCTGGCT
GTGGTGGGGA CTGCGGAGGC CAGCAGTGAA CACCCCTTGG GCGTGGCAGT CACCAAATAC
TGTAAAGAGG AACTTGGAAC AGAGACCTTG GGATACTGCA CGGACTTCCA GGCAGTGCCA
GGCTGTGGAA TTGGGTGCAA AGTCAGCAAC GTGGAAGGCA TCCTGGCCCA CAGTGAGCGC
CCTTTGAGTG CACCGGCCAG TCACCTGAAT GAGGCTGGCA GCCTTCCCGC AGAAAAAGAT
GCAGTCCCCC AGACCTTCTC TGTGCTGATT GGAAACCGTG AGTGGCTGAG GCGCAACGGT
TTAACCATTT CTAGCGATGT CAGTGACGCT ATGACAGACC ACGAGATGAA AGGACAGACA
GCCATCCTGG TGGCTATTGA CGGTGTGCTC TGTGGGATGA TCGCAATCGC AGACGCTGTC
AAGCAGGAGG CTGCCCTGGC TGTGCACACG CTGCAGAGCA TGGGTGTGGA CGTGGTTCTG
ATCACGGGGG ACAACCGGAA GACAGCCAGA GCTATTGCCA CCCAGGTTGG CATCAACAAA
GTCTTTGCAG AGGTGCTGCC TTCGCACAAG GTGGCCAAGG TCCAGGAGCT CCAGAATAAA
GGGAAGAAAG TCGCCATGGT GGGGGATGGG GTCAATGACT CCCCGGCCTT GGCCCAGGCA
GACATGGGTG TGGCCATTGG CACCGGCACG GATGTGGCCA TCGAGGCAGC CGACGTCGTC
CTTATCAGAA ATGATTTGCT GGATGTGGTG GCTAGCATTC ACCTTTCCAA GAGGACTGTC
CGAAGGATAC GCATCAACCT GGTCCTGGCA CTGATTTATA ACCTGGTTGG GATACCCATT
GCAGCAGGTG TCTTCATGCC CATCGGCATT GTGCTGCAGC CCTGGATGGG CTCAGCGGCC
ATGGCAGCCT CCTCTGTGTC TGTGGTGCTC TCATCCCTGC AGCTCAAGTG CTATAAGAAG
CCTGACCTGG AGAGGTATGA GGCACAGGCG CATGGCCACA TGAAGCCCCT GACGGCATCC
CAGGTCAGTG TGCACATAGG CATGGATGAC AGGTGGCGGG ACTCCCCCAG GGCCACACCA
TGGGACCAGG TCAGCTATGT CAGCCAGGTG TCGCTGTCCT CCCTGACGTC CGACAAGCCA
TCTCGGCACA GCGCTGCAGC AGACGATGAT GGGGACAAGT GGTCTCTGCT CCTGAATGGC
AGGGATGAGG AGCAGTACAT CTGA

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

CloneID OHu47204
Clone ID Related Accession (Same CDS sequence) XM_005266428
Accession Version XM_005266428.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4146bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X7
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
4021
4081
4141
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGC TCCTCGGTGG GTGGTACTTC TACGTTCAGG CCTACAAATC TCTGAGACAC
AGGTCAGCCA ACATGGACGT GCTCATCGTC CTGGCCACAA GCATTGCTTA TGTTTATTCT
CTGGTCATCC TGGTGGTTGC TGTGGCTGAG AAGGCGGAGA GGAGCCCTGT GACATTCTTC
GACACGCCCC CCATGCTCTT TGTGTTCATT GCCCTGGGCC GGTGGCTGGA ACACTTGGCA
AAGAGCAAAA CCTCAGAAGC CCTGGCTAAA CTCATGTCTC TCCAAGCCAC AGAAGCCACC
GTTGTGACCC TTGGTGAGGA CAATTTAATC ATCAGGGAGG AGCAAGTCCC CATGGAGCTG
GTGCAGCGGG GCGATATCGT CAAGGTGGTC CCTGGGGGAA AGTTTCCAGT GGATGGGAAA
GTCCTGGAAG GCAATACCAT GGCTGATGAG TCCCTCATCA CAGGAGAAGC CATGCCAGTC
ACTAAGAAAC CCGGAAGCAC TGTAATTGCG GGGTCTATAA ATGCACATGG CTCTGTGCTC
ATTAAAGCTA CCCACGTGGG CAATGACACC ACTTTGGCTC AGATTGTGAA ACTGGTGGAA
GAGGCTCAGA TGTCAAAGGC ACCCATTCAG CAGCTGGCTG ACCGGTTTAG TGGATATTTT
GTCCCATTTA TCATCATCAT GTCAACTTTG ACGTTGGTGG TATGGATTGT AATCGGTTTT
ATCGATTTTG GTGTTGTTCA GAGATACTTT CCTAACCCCA ACAAGCACAT CTCCCAGACA
GAGGTGATCA TCCGGTTTGC TTTCCAGACG TCCATCACGG TGCTGTGCAT TGCCTGCCCC
TGCTCCCTGG GGCTGGCCAC GCCCACGGCT GTCATGGTGG GCACCGGGGT GGCCGCGCAG
AACGGCATCC TCATCAAGGG AGGCAAGCCC CTGGAGATGG CGCACAAGAT AAAGACTGTG
ATGTTTGACA AGACTGGCAC CATTACCCAT GGCGTCCCCA GGGTCATGCG GGTGCTCCTG
CTGGGGGATG TGGCCACACT GCCCCTCAGG AAGGTTCTGG CTGTGGTGGG GACTGCGGAG
GCCAGCAGTG AACACCCCTT GGGCGTGGCA GTCACCAAAT ACTGTAAAGA GGAACTTGGA
ACAGAGACCT TGGGATACTG CACGGACTTC CAGGCAGTGC CAGGCTGTGG AATTGGGTGC
AAAGTCAGCA ACGTGGAAGG CATCCTGGCC CACAGTGAGC GCCCTTTGAG TGCACCGGCC
AGTCACCTGA ATGAGGCTGG CAGCCTTCCC GCAGAAAAAG ATGCAGTCCC CCAGACCTTC
TCTGTGCTGA TTGGAAACCG TGAGTGGCTG AGGCGCAACG GTTTAACCAT TTCTAGCGAT
GTCAGTGACG CTATGACAGA CCACGAGATG AAAGGACAGA CAGCCATCCT GGTGGCTATT
GACGGTGTGC TCTGTGGGAT GATCGCAATC GCAGACGCTG TCAAGCAGGA GGCTGCCCTG
GCTGTGCACA CGCTGCAGAG CATGGGTGTG GACGTGGTTC TGATCACGGG GGACAACCGG
AAGACAGCCA GAGCTATTGC CACCCAGGTT GGCATCAACA AAGTCTTTGC AGAGGTGCTG
CCTTCGCACA AGGTGGCCAA GGTCCAGGAG CTCCAGAATA AAGGGAAGAA AGTCGCCATG
GTGGGGGATG GGGTCAATGA CTCCCCGGCC TTGGCCCAGG CAGACATGGG TGTGGCCATT
GGCACCGGCA CGGATGTGGC CATCGAGGCA GCCGACGTCG TCCTTATCAG AAATGATTTG
CTGGATGTGG TGGCTAGCAT TCACCTTTCC AAGAGGACTG TCCGAAGGAT ACGCATCAAC
CTGGTCCTGG CACTGATTTA TAACCTGGTT GGGATACCCA TTGCAGCAGG TGTCTTCATG
CCCATCGGCA TTGTGCTGCA GCCCTGGATG GGCTCAGCGG CCATGGCAGC CTCCTCTGTG
TCTGTGGTGC TCTCATCCCT GCAGCTCAAG TGCTATAAGA AGCCTGACCT GGAGAGGTAT
GAGGCACAGG CGCATGGCCA CATGAAGCCC CTGACGGCAT CCCAGGTCAG TGTGCACATA
GGCATGGATG ACAGGTGGCG GGACTCCCCC AGGGCCACAC CATGGGACCA GGTCAGCTAT
GTCAGCCAGG TGTCGCTGTC CTCCCTGACG TCCGACAAGC CATCTCGGCA CAGCGCTGCA
GCAGACGATG ATGGGGACAA GTGGTCTCTG CTCCTGAATG GCAGGGATGA GGAGCAGTAC
ATCTGA

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

RefSeq XP_005266485.1
CDS220..4365
Misc Feature(1)400..591(+)
Misc Feature(2)418..435(+)
Misc Feature(3)655..846(+)
Misc Feature(4)673..690(+)
Misc Feature(5)997..1173(+)
Misc Feature(6)1015..1032(+)
Misc Feature(7)1306..1494(+)
Misc Feature(8)1321..1338(+)
Misc Feature(9)1693..1881(+)
Misc Feature(10)1708..1725(+)
Misc Feature(11)1918..2097(+)
Misc Feature(12)1936..1953(+)
Misc Feature(13)2095..4032(+)
Misc Feature(14)2272..3015(+)
Misc Feature(15)3502..3819(+)
Misc Feature(16)3514..3630(+)
Misc Feature(17)3514..3531(+)
Misc Feature(18)3625..3627(+)
Translation

Target ORF information:

RefSeq Version XM_005266428
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X14, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005266428

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGC TCCTCGGTGG GTGGTACTTC TACGTTCAGG CCTACAAATC TCTGAGACAC
AGGTCAGCCA ACATGGACGT GCTCATCGTC CTGGCCACAA GCATTGCTTA TGTTTATTCT
CTGGTCATCC TGGTGGTTGC TGTGGCTGAG AAGGCGGAGA GGAGCCCTGT GACATTCTTC
GACACGCCCC CCATGCTCTT TGTGTTCATT GCCCTGGGCC GGTGGCTGGA ACACTTGGCA
AAGAGCAAAA CCTCAGAAGC CCTGGCTAAA CTCATGTCTC TCCAAGCCAC AGAAGCCACC
GTTGTGACCC TTGGTGAGGA CAATTTAATC ATCAGGGAGG AGCAAGTCCC CATGGAGCTG
GTGCAGCGGG GCGATATCGT CAAGGTGGTC CCTGGGGGAA AGTTTCCAGT GGATGGGAAA
GTCCTGGAAG GCAATACCAT GGCTGATGAG TCCCTCATCA CAGGAGAAGC CATGCCAGTC
ACTAAGAAAC CCGGAAGCAC TGTAATTGCG GGGTCTATAA ATGCACATGG CTCTGTGCTC
ATTAAAGCTA CCCACGTGGG CAATGACACC ACTTTGGCTC AGATTGTGAA ACTGGTGGAA
GAGGCTCAGA TGTCAAAGGC ACCCATTCAG CAGCTGGCTG ACCGGTTTAG TGGATATTTT
GTCCCATTTA TCATCATCAT GTCAACTTTG ACGTTGGTGG TATGGATTGT AATCGGTTTT
ATCGATTTTG GTGTTGTTCA GAGATACTTT CCTAACCCCA ACAAGCACAT CTCCCAGACA
GAGGTGATCA TCCGGTTTGC TTTCCAGACG TCCATCACGG TGCTGTGCAT TGCCTGCCCC
TGCTCCCTGG GGCTGGCCAC GCCCACGGCT GTCATGGTGG GCACCGGGGT GGCCGCGCAG
AACGGCATCC TCATCAAGGG AGGCAAGCCC CTGGAGATGG CGCACAAGAT AAAGACTGTG
ATGTTTGACA AGACTGGCAC CATTACCCAT GGCGTCCCCA GGGTCATGCG GGTGCTCCTG
CTGGGGGATG TGGCCACACT GCCCCTCAGG AAGGTTCTGG CTGTGGTGGG GACTGCGGAG
GCCAGCAGTG AACACCCCTT GGGCGTGGCA GTCACCAAAT ACTGTAAAGA GGAACTTGGA
ACAGAGACCT TGGGATACTG CACGGACTTC CAGGCAGTGC CAGGCTGTGG AATTGGGTGC
AAAGTCAGCA ACGTGGAAGG CATCCTGGCC CACAGTGAGC GCCCTTTGAG TGCACCGGCC
AGTCACCTGA ATGAGGCTGG CAGCCTTCCC GCAGAAAAAG ATGCAGTCCC CCAGACCTTC
TCTGTGCTGA TTGGAAACCG TGAGTGGCTG AGGCGCAACG GTTTAACCAT TTCTAGCGAT
GTCAGTGACG CTATGACAGA CCACGAGATG AAAGGACAGA CAGCCATCCT GGTGGCTATT
GACGGTGTGC TCTGTGGGAT GATCGCAATC GCAGACGCTG TCAAGCAGGA GGCTGCCCTG
GCTGTGCACA CGCTGCAGAG CATGGGTGTG GACGTGGTTC TGATCACGGG GGACAACCGG
AAGACAGCCA GAGCTATTGC CACCCAGGTT GGCATCAACA AAGTCTTTGC AGAGGTGCTG
CCTTCGCACA AGGTGGCCAA GGTCCAGGAG CTCCAGAATA AAGGGAAGAA AGTCGCCATG
GTGGGGGATG GGGTCAATGA CTCCCCGGCC TTGGCCCAGG CAGACATGGG TGTGGCCATT
GGCACCGGCA CGGATGTGGC CATCGAGGCA GCCGACGTCG TCCTTATCAG AAATGATTTG
CTGGATGTGG TGGCTAGCAT TCACCTTTCC AAGAGGACTG TCCGAAGGAT ACGCATCAAC
CTGGTCCTGG CACTGATTTA TAACCTGGTT GGGATACCCA TTGCAGCAGG TGTCTTCATG
CCCATCGGCA TTGTGCTGCA GCCCTGGATG GGCTCAGCGG CCATGGCAGC CTCCTCTGTG
TCTGTGGTGC TCTCATCCCT GCAGCTCAAG TGCTATAAGA AGCCTGACCT GGAGAGGTAT
GAGGCACAGG CGCATGGCCA CATGAAGCCC CTGACGGCAT CCCAGGTCAG TGTGCACATA
GGCATGGATG ACAGGTGGCG GGACTCCCCC AGGGCCACAC CATGGGACCA GGTCAGCTAT
GTCAGCCAGG TGTCGCTGTC CTCCCTGACG TCCGACAAGC CATCTCGGCA CAGCGCTGCA
GCAGACGATG ATGGGGACAA GTGGTCTCTG CTCCTGAATG GCAGGGATGA GGAGCAGTAC
ATCTGA

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

CloneID OHu56431
Clone ID Related Accession (Same CDS sequence) XM_011535120
Accession Version XM_011535120.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3984bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X8
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
3961
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACACTC CTCGGTGGGT GGTACTTCTA CGTTCAGGCC
TACAAATCTC TGAGACACAG GTCAGCCAAC ATGGACGTGC TCATCGTCCT GGCCACAAGC
ATTGCTTATG TTTATTCTCT GGTCATCCTG GTGGTTGCTG TGGCTGAGAA GGCGGAGAGG
AGCCCTGTGA CATTCTTCGA CACGCCCCCC ATGCTCTTTG TGTTCATTGC CCTGGGCCGG
TGGCTGGAAC ACTTGGCAAA GAGCAAAACC TCAGAAGCCC TGGCTAAACT CATGTCTCTC
CAAGCCACAG AAGCCACCGT TGTGACCCTT GGTGAGGACA ATTTAATCAT CAGGGAGGAG
CAAGTCCCCA TGGAGCTGGT GCAGCGGGGC GATATCGTCA AGGTGGTCCC TGGGGGAAAG
TTTCCAGTGG ATGGGAAAGT CCTGGAAGGC AATACCATGG CTGATGAGTC CCTCATCACA
GGAGAAGCCA TGCCAGTCAC TAAGAAACCC GGAAGCACTG TAATTGCGGG GTCTATAAAT
GCACATGGCT CTGTGCTCAT TAAAGCTACC CACGTGGGCA ATGACACCAC TTTGGCTCAG
ATTGTGAAAC TGGTGGAAGA GGCTCAGATG TCAAAGGCAC CCATTCAGCA GCTGGCTGAC
CGGTTTAGTG GATATTTTGT CCCATTTATC ATCATCATGT CAACTTTGAC GTTGGTGGTA
TGGATTGTAA TCGGTTTTAT CGATTTTGGT GTTGTTCAGA GATACTTTCC TAACCCCAAC
AAGCACATCT CCCAGACAGA GGTGATCATC CGGTTTGCTT TCCAGACGTC CATCACGGTG
CTGTGCATTG CCTGCCCCTG CTCCCTGGGG CTGGCCACGC CCACGGCTGT CATGGTGGGC
ACCGGGGTGG CCGCGCAGAA CGGCATCCTC ATCAAGGGAG GCAAGCCCCT GGAGATGGCG
CACAAGATAA AGACTGTGAT GTTTGACAAG ACTGGCACCA TTACCCATGG CGTCCCCAGG
GTCATGCGGG TGCTCCTGCT GGGGGATGTG GCCACACTGC CCCTCAGGAA GGTTCTGGCT
GTGGTGGGGA CTGCGGAGGC CAGCAGTGAA CACCCCTTGG GCGTGGCAGT CACCAAATAC
TGTAAAGAGG AACTTGGAAC AGAGACCTTG GGATACTGCA CGGACTTCCA GGCAGTGCCA
GGCTGTGGAA TTGGGTGCAA AGTCAGCAAC GTGGAAGGCA TCCTGGCCCA CAGTGAGCGC
CCTTTGAGTG CACCGGCCAG TCACCTGAAT GAGGCTGGCA GCCTTCCCGC AGAAAAAGAT
GCAGTCCCCC AGACCTTCTC TGTGCTGATT GGAAACCGTG AGTGGCTGAG GCGCAACGGT
TTAACCATTT CTAGCGATGT CAGTGACGCT ATGACAGACC ACGAGATGAA AGGACAGACA
GCCATCCTGG TGGCTATTGA CGGTGTGCTC TGTGGGATGA TCGCAATCGC AGACGCTGTC
AAGCAGGAGG CTGCCCTGGC TGTGCACACG CTGCAGAGCA TGGGTGTGGA CGTGGTTCTG
ATCACGGGGG ACAACCGGAA GACAGCCAGA GCTATTGCCA CCCAGGTTGG CATCAACAAA
GTCTTTGCAG AGGTGCTGCC TTCGCACAAG GTGGCCAAGG TCCAGGAGCT CCAGAATAAA
GGGAAGAAAG TCGCCATGGT GGGGGATGGG GTCAATGACT CCCCGGCCTT GGCCCAGGCA
GACATGGGTG TGGCCATTGG CACCGGCACG GATGTGGCCA TCGAGGCAGC CGACGTCGTC
CTTATCAGAA ATGATTTGCT GGATGTGGTG GCTAGCATTC ACCTTTCCAA GAGGACTGTC
CGAAGGATAC GCATCAACCT GGTCCTGGCA CTGATTTATA ACCTGGTTGG GATACCCATT
GCAGCAGGTG TCTTCATGCC CATCGGCATT GTGCTGCAGC CCTGGATGGG CTCAGCGGCC
ATGGCAGCCT CCTCTGTGTC TGTGGTGCTC TCATCCCTGC AGCTCAAGTG CTATAAGAAG
CCTGACCTGG AGAGGTATGA GGCACAGGCG CATGGCCACA TGAAGCCCCT GACGGCATCC
CAGGTCAGTG TGCACATAGG CATGGATGAC AGGTGGCGGG ACTCCCCCAG GGCCACACCA
TGGGACCAGG TCAGCTATGT CAGCCAGGTG TCGCTGTCCT CCCTGACGTC CGACAAGCCA
TCTCGGCACA GCGCTGCAGC AGACGATGAT GGGGACAAGT GGTCTCTGCT CCTGAATGGC
AGGGATGAGG AGCAGTACAT CTGA

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

RefSeq XP_011533422.1
CDS220..4203
Misc Feature(1)400..591(+)
Misc Feature(2)418..435(+)
Misc Feature(3)655..846(+)
Misc Feature(4)673..690(+)
Misc Feature(5)997..1173(+)
Misc Feature(6)1015..1032(+)
Misc Feature(7)1306..1494(+)
Misc Feature(8)1321..1338(+)
Misc Feature(9)1693..1881(+)
Misc Feature(10)1708..1725(+)
Misc Feature(11)1933..3870(+)
Misc Feature(12)2110..2853(+)
Misc Feature(13)3340..3657(+)
Misc Feature(14)3352..3468(+)
Misc Feature(15)3352..3369(+)
Misc Feature(16)3463..3465(+)
Translation

Target ORF information:

RefSeq Version XM_011535120
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X15, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011535120

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
3661
3721
3781
3841
3901
3961
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACACTC CTCGGTGGGT GGTACTTCTA CGTTCAGGCC
TACAAATCTC TGAGACACAG GTCAGCCAAC ATGGACGTGC TCATCGTCCT GGCCACAAGC
ATTGCTTATG TTTATTCTCT GGTCATCCTG GTGGTTGCTG TGGCTGAGAA GGCGGAGAGG
AGCCCTGTGA CATTCTTCGA CACGCCCCCC ATGCTCTTTG TGTTCATTGC CCTGGGCCGG
TGGCTGGAAC ACTTGGCAAA GAGCAAAACC TCAGAAGCCC TGGCTAAACT CATGTCTCTC
CAAGCCACAG AAGCCACCGT TGTGACCCTT GGTGAGGACA ATTTAATCAT CAGGGAGGAG
CAAGTCCCCA TGGAGCTGGT GCAGCGGGGC GATATCGTCA AGGTGGTCCC TGGGGGAAAG
TTTCCAGTGG ATGGGAAAGT CCTGGAAGGC AATACCATGG CTGATGAGTC CCTCATCACA
GGAGAAGCCA TGCCAGTCAC TAAGAAACCC GGAAGCACTG TAATTGCGGG GTCTATAAAT
GCACATGGCT CTGTGCTCAT TAAAGCTACC CACGTGGGCA ATGACACCAC TTTGGCTCAG
ATTGTGAAAC TGGTGGAAGA GGCTCAGATG TCAAAGGCAC CCATTCAGCA GCTGGCTGAC
CGGTTTAGTG GATATTTTGT CCCATTTATC ATCATCATGT CAACTTTGAC GTTGGTGGTA
TGGATTGTAA TCGGTTTTAT CGATTTTGGT GTTGTTCAGA GATACTTTCC TAACCCCAAC
AAGCACATCT CCCAGACAGA GGTGATCATC CGGTTTGCTT TCCAGACGTC CATCACGGTG
CTGTGCATTG CCTGCCCCTG CTCCCTGGGG CTGGCCACGC CCACGGCTGT CATGGTGGGC
ACCGGGGTGG CCGCGCAGAA CGGCATCCTC ATCAAGGGAG GCAAGCCCCT GGAGATGGCG
CACAAGATAA AGACTGTGAT GTTTGACAAG ACTGGCACCA TTACCCATGG CGTCCCCAGG
GTCATGCGGG TGCTCCTGCT GGGGGATGTG GCCACACTGC CCCTCAGGAA GGTTCTGGCT
GTGGTGGGGA CTGCGGAGGC CAGCAGTGAA CACCCCTTGG GCGTGGCAGT CACCAAATAC
TGTAAAGAGG AACTTGGAAC AGAGACCTTG GGATACTGCA CGGACTTCCA GGCAGTGCCA
GGCTGTGGAA TTGGGTGCAA AGTCAGCAAC GTGGAAGGCA TCCTGGCCCA CAGTGAGCGC
CCTTTGAGTG CACCGGCCAG TCACCTGAAT GAGGCTGGCA GCCTTCCCGC AGAAAAAGAT
GCAGTCCCCC AGACCTTCTC TGTGCTGATT GGAAACCGTG AGTGGCTGAG GCGCAACGGT
TTAACCATTT CTAGCGATGT CAGTGACGCT ATGACAGACC ACGAGATGAA AGGACAGACA
GCCATCCTGG TGGCTATTGA CGGTGTGCTC TGTGGGATGA TCGCAATCGC AGACGCTGTC
AAGCAGGAGG CTGCCCTGGC TGTGCACACG CTGCAGAGCA TGGGTGTGGA CGTGGTTCTG
ATCACGGGGG ACAACCGGAA GACAGCCAGA GCTATTGCCA CCCAGGTTGG CATCAACAAA
GTCTTTGCAG AGGTGCTGCC TTCGCACAAG GTGGCCAAGG TCCAGGAGCT CCAGAATAAA
GGGAAGAAAG TCGCCATGGT GGGGGATGGG GTCAATGACT CCCCGGCCTT GGCCCAGGCA
GACATGGGTG TGGCCATTGG CACCGGCACG GATGTGGCCA TCGAGGCAGC CGACGTCGTC
CTTATCAGAA ATGATTTGCT GGATGTGGTG GCTAGCATTC ACCTTTCCAA GAGGACTGTC
CGAAGGATAC GCATCAACCT GGTCCTGGCA CTGATTTATA ACCTGGTTGG GATACCCATT
GCAGCAGGTG TCTTCATGCC CATCGGCATT GTGCTGCAGC CCTGGATGGG CTCAGCGGCC
ATGGCAGCCT CCTCTGTGTC TGTGGTGCTC TCATCCCTGC AGCTCAAGTG CTATAAGAAG
CCTGACCTGG AGAGGTATGA GGCACAGGCG CATGGCCACA TGAAGCCCCT GACGGCATCC
CAGGTCAGTG TGCACATAGG CATGGATGAC AGGTGGCGGG ACTCCCCCAG GGCCACACCA
TGGGACCAGG TCAGCTATGT CAGCCAGGTG TCGCTGTCCT CCCTGACGTC CGACAAGCCA
TCTCGGCACA GCGCTGCAGC AGACGATGAT GGGGACAAGT GGTCTCTGCT CCTGAATGGC
AGGGATGAGG AGCAGTACAT CTGA

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

CloneID OHu47206
Clone ID Related Accession (Same CDS sequence) XM_005266432
Accession Version XM_005266432.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3912bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X9
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 3, 2014 this sequence version replaced gi:530402453. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
3901
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGA GCAAAACCTC AGAAGCCCTG GCTAAACTCA TGTCTCTCCA AGCCACAGAA
GCCACCGTTG TGACCCTTGG TGAGGACAAT TTAATCATCA GGGAGGAGCA AGTCCCCATG
GAGCTGGTGC AGCGGGGCGA TATCGTCAAG GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT
GGGAAAGTCC TGGAAGGCAA TACCATGGCT GATGAGTCCC TCATCACAGG AGAAGCCATG
CCAGTCACTA AGAAACCCGG AAGCACTGTA ATTGCGGGGT CTATAAATGC ACATGGCTCT
GTGCTCATTA AAGCTACCCA CGTGGGCAAT GACACCACTT TGGCTCAGAT TGTGAAACTG
GTGGAAGAGG CTCAGATGTC AAAGGCACCC ATTCAGCAGC TGGCTGACCG GTTTAGTGGA
TATTTTGTCC CATTTATCAT CATCATGTCA ACTTTGACGT TGGTGGTATG GATTGTAATC
GGTTTTATCG ATTTTGGTGT TGTTCAGAGA TACTTTCCTA ACCCCAACAA GCACATCTCC
CAGACAGAGG TGATCATCCG GTTTGCTTTC CAGACGTCCA TCACGGTGCT GTGCATTGCC
TGCCCCTGCT CCCTGGGGCT GGCCACGCCC ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC
GCGCAGAACG GCATCCTCAT CAAGGGAGGC AAGCCCCTGG AGATGGCGCA CAAGATAAAG
ACTGTGATGT TTGACAAGAC TGGCACCATT ACCCATGGCG TCCCCAGGGT CATGCGGGTG
CTCCTGCTGG GGGATGTGGC CACACTGCCC CTCAGGAAGG TTCTGGCTGT GGTGGGGACT
GCGGAGGCCA GCAGTGAACA CCCCTTGGGC GTGGCAGTCA CCAAATACTG TAAAGAGGAA
CTTGGAACAG AGACCTTGGG ATACTGCACG GACTTCCAGG CAGTGCCAGG CTGTGGAATT
GGGTGCAAAG TCAGCAACGT GGAAGGCATC CTGGCCCACA GTGAGCGCCC TTTGAGTGCA
CCGGCCAGTC ACCTGAATGA GGCTGGCAGC CTTCCCGCAG AAAAAGATGC AGTCCCCCAG
ACCTTCTCTG TGCTGATTGG AAACCGTGAG TGGCTGAGGC GCAACGGTTT AACCATTTCT
AGCGATGTCA GTGACGCTAT GACAGACCAC GAGATGAAAG GACAGACAGC CATCCTGGTG
GCTATTGACG GTGTGCTCTG TGGGATGATC GCAATCGCAG ACGCTGTCAA GCAGGAGGCT
GCCCTGGCTG TGCACACGCT GCAGAGCATG GGTGTGGACG TGGTTCTGAT CACGGGGGAC
AACCGGAAGA CAGCCAGAGC TATTGCCACC CAGGTTGGCA TCAACAAAGT CTTTGCAGAG
GTGCTGCCTT CGCACAAGGT GGCCAAGGTC CAGGAGCTCC AGAATAAAGG GAAGAAAGTC
GCCATGGTGG GGGATGGGGT CAATGACTCC CCGGCCTTGG CCCAGGCAGA CATGGGTGTG
GCCATTGGCA CCGGCACGGA TGTGGCCATC GAGGCAGCCG ACGTCGTCCT TATCAGAAAT
GATTTGCTGG ATGTGGTGGC TAGCATTCAC CTTTCCAAGA GGACTGTCCG AAGGATACGC
ATCAACCTGG TCCTGGCACT GATTTATAAC CTGGTTGGGA TACCCATTGC AGCAGGTGTC
TTCATGCCCA TCGGCATTGT GCTGCAGCCC TGGATGGGCT CAGCGGCCAT GGCAGCCTCC
TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG CTCAAGTGCT ATAAGAAGCC TGACCTGGAG
AGGTATGAGG CACAGGCGCA TGGCCACATG AAGCCCCTGA CGGCATCCCA GGTCAGTGTG
CACATAGGCA TGGATGACAG GTGGCGGGAC TCCCCCAGGG CCACACCATG GGACCAGGTC
AGCTATGTCA GCCAGGTGTC GCTGTCCTCC CTGACGTCCG ACAAGCCATC TCGGCACAGC
GCTGCAGCAG ACGATGATGG GGACAAGTGG TCTCTGCTCC TGAATGGCAG GGATGAGGAG
CAGTACATCT GA

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

RefSeq XP_005266489.1
CDS220..4131
Misc Feature(1)400..591(+)
Misc Feature(2)418..435(+)
Misc Feature(3)655..846(+)
Misc Feature(4)673..690(+)
Misc Feature(5)997..1173(+)
Misc Feature(6)1015..1032(+)
Misc Feature(7)1297..3798(+)
Misc Feature(8)1306..1494(+)
Misc Feature(9)1321..1338(+)
Misc Feature(10)1693..1881(+)
Misc Feature(11)1708..1725(+)
Misc Feature(12)1918..2091(+)
Misc Feature(13)1936..1953(+)
Misc Feature(14)2080..2781(+)
Misc Feature(15)3268..3585(+)
Misc Feature(16)3280..3396(+)
Misc Feature(17)3280..3297(+)
Misc Feature(18)3391..3393(+)
Translation

Target ORF information:

RefSeq Version XM_005266432
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X16, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005266432

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
3661
3721
3781
3841
3901
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGA GCAAAACCTC AGAAGCCCTG GCTAAACTCA TGTCTCTCCA AGCCACAGAA
GCCACCGTTG TGACCCTTGG TGAGGACAAT TTAATCATCA GGGAGGAGCA AGTCCCCATG
GAGCTGGTGC AGCGGGGCGA TATCGTCAAG GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT
GGGAAAGTCC TGGAAGGCAA TACCATGGCT GATGAGTCCC TCATCACAGG AGAAGCCATG
CCAGTCACTA AGAAACCCGG AAGCACTGTA ATTGCGGGGT CTATAAATGC ACATGGCTCT
GTGCTCATTA AAGCTACCCA CGTGGGCAAT GACACCACTT TGGCTCAGAT TGTGAAACTG
GTGGAAGAGG CTCAGATGTC AAAGGCACCC ATTCAGCAGC TGGCTGACCG GTTTAGTGGA
TATTTTGTCC CATTTATCAT CATCATGTCA ACTTTGACGT TGGTGGTATG GATTGTAATC
GGTTTTATCG ATTTTGGTGT TGTTCAGAGA TACTTTCCTA ACCCCAACAA GCACATCTCC
CAGACAGAGG TGATCATCCG GTTTGCTTTC CAGACGTCCA TCACGGTGCT GTGCATTGCC
TGCCCCTGCT CCCTGGGGCT GGCCACGCCC ACGGCTGTCA TGGTGGGCAC CGGGGTGGCC
GCGCAGAACG GCATCCTCAT CAAGGGAGGC AAGCCCCTGG AGATGGCGCA CAAGATAAAG
ACTGTGATGT TTGACAAGAC TGGCACCATT ACCCATGGCG TCCCCAGGGT CATGCGGGTG
CTCCTGCTGG GGGATGTGGC CACACTGCCC CTCAGGAAGG TTCTGGCTGT GGTGGGGACT
GCGGAGGCCA GCAGTGAACA CCCCTTGGGC GTGGCAGTCA CCAAATACTG TAAAGAGGAA
CTTGGAACAG AGACCTTGGG ATACTGCACG GACTTCCAGG CAGTGCCAGG CTGTGGAATT
GGGTGCAAAG TCAGCAACGT GGAAGGCATC CTGGCCCACA GTGAGCGCCC TTTGAGTGCA
CCGGCCAGTC ACCTGAATGA GGCTGGCAGC CTTCCCGCAG AAAAAGATGC AGTCCCCCAG
ACCTTCTCTG TGCTGATTGG AAACCGTGAG TGGCTGAGGC GCAACGGTTT AACCATTTCT
AGCGATGTCA GTGACGCTAT GACAGACCAC GAGATGAAAG GACAGACAGC CATCCTGGTG
GCTATTGACG GTGTGCTCTG TGGGATGATC GCAATCGCAG ACGCTGTCAA GCAGGAGGCT
GCCCTGGCTG TGCACACGCT GCAGAGCATG GGTGTGGACG TGGTTCTGAT CACGGGGGAC
AACCGGAAGA CAGCCAGAGC TATTGCCACC CAGGTTGGCA TCAACAAAGT CTTTGCAGAG
GTGCTGCCTT CGCACAAGGT GGCCAAGGTC CAGGAGCTCC AGAATAAAGG GAAGAAAGTC
GCCATGGTGG GGGATGGGGT CAATGACTCC CCGGCCTTGG CCCAGGCAGA CATGGGTGTG
GCCATTGGCA CCGGCACGGA TGTGGCCATC GAGGCAGCCG ACGTCGTCCT TATCAGAAAT
GATTTGCTGG ATGTGGTGGC TAGCATTCAC CTTTCCAAGA GGACTGTCCG AAGGATACGC
ATCAACCTGG TCCTGGCACT GATTTATAAC CTGGTTGGGA TACCCATTGC AGCAGGTGTC
TTCATGCCCA TCGGCATTGT GCTGCAGCCC TGGATGGGCT CAGCGGCCAT GGCAGCCTCC
TCTGTGTCTG TGGTGCTCTC ATCCCTGCAG CTCAAGTGCT ATAAGAAGCC TGACCTGGAG
AGGTATGAGG CACAGGCGCA TGGCCACATG AAGCCCCTGA CGGCATCCCA GGTCAGTGTG
CACATAGGCA TGGATGACAG GTGGCGGGAC TCCCCCAGGG CCACACCATG GGACCAGGTC
AGCTATGTCA GCCAGGTGTC GCTGTCCTCC CTGACGTCCG ACAAGCCATC TCGGCACAGC
GCTGCAGCAG ACGATGATGG GGACAAGTGG TCTCTGCTCC TGAATGGCAG GGATGAGGAG
CAGTACATCT GA

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

CloneID OHu56432
Clone ID Related Accession (Same CDS sequence) XM_011535121
Accession Version XM_011535121.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3885bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X10
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
3661
3721
3781
3841
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG GAACTTGGAA CAGAGACCTT GGGATACTGC
ACGGACTTCC AGGCAGTGCC AGGCTGTGGA ATTGGGTGCA AAGTCAGCAA CGTGGAAGGC
ATCCTGGCCC ACAGTGAGCG CCCTTTGAGT GCACCGGCCA GTCACCTGAA TGAGGCTGGC
AGCCTTCCCG CAGAAAAAGA TGCAGTCCCC CAGACCTTCT CTGTGCTGAT TGGAAACCGT
GAGTGGCTGA GGCGCAACGG TTTAACCATT TCTAGCGATG TCAGTGACGC TATGACAGAC
CACGAGATGA AAGGACAGAC AGCCATCCTG GTGGCTATTG ACGGTGTGCT CTGTGGGATG
ATCGCAATCG CAGACGCTGT CAAGCAGGAG GCTGCCCTGG CTGTGCACAC GCTGCAGAGC
ATGGGTGTGG ACGTGGTTCT GATCACGGGG GACAACCGGA AGACAGCCAG AGCTATTGCC
ACCCAGGTTG GCATCAACAA AGTCTTTGCA GAGGTGCTGC CTTCGCACAA GGTGGCCAAG
GTCCAGGAGC TCCAGAATAA AGGGAAGAAA GTCGCCATGG TGGGGGATGG GGTCAATGAC
TCCCCGGCCT TGGCCCAGGC AGACATGGGT GTGGCCATTG GCACCGGCAC GGATGTGGCC
ATCGAGGCAG CCGACGTCGT CCTTATCAGA AATGATTTGC TGGATGTGGT GGCTAGCATT
CACCTTTCCA AGAGGACTGT CCGAAGGATA CGCATCAACC TGGTCCTGGC ACTGATTTAT
AACCTGGTTG GGATACCCAT TGCAGCAGGT GTCTTCATGC CCATCGGCAT TGTGCTGCAG
CCCTGGATGG GCTCAGCGGC CATGGCAGCC TCCTCTGTGT CTGTGGTGCT CTCATCCCTG
CAGCTCAAGT GCTATAAGAA GCCTGACCTG GAGAGGTATG AGGCACAGGC GCATGGCCAC
ATGAAGCCCC TGACGGCATC CCAGGTCAGT GTGCACATAG GCATGGATGA CAGGTGGCGG
GACTCCCCCA GGGCCACACC ATGGGACCAG GTCAGCTATG TCAGCCAGGT GTCGCTGTCC
TCCCTGACGT CCGACAAGCC ATCTCGGCAC AGCGCTGCAG CAGACGATGA TGGGGACAAG
TGGTCTCTGC TCCTGAATGG CAGGGATGAG GAGCAGTACA TCTGA

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

RefSeq XP_011533423.1
CDS220..4104
Misc Feature(1)400..591(+)
Misc Feature(2)418..435(+)
Misc Feature(3)655..846(+)
Misc Feature(4)673..690(+)
Misc Feature(5)997..1173(+)
Misc Feature(6)1015..1032(+)
Misc Feature(7)1306..1494(+)
Misc Feature(8)1321..1338(+)
Misc Feature(9)1693..1881(+)
Misc Feature(10)1708..1725(+)
Misc Feature(11)1915..3771(+)
Misc Feature(12)1918..2109(+)
Misc Feature(13)1936..1953(+)
Misc Feature(14)2524..>2940(+)
Misc Feature(15)3241..3558(+)
Misc Feature(16)3253..3369(+)
Misc Feature(17)3253..3270(+)
Misc Feature(18)3364..3366(+)
Translation

Target ORF information:

RefSeq Version XM_011535121
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X17, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011535121

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
3661
3721
3781
3841
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG GAACTTGGAA CAGAGACCTT GGGATACTGC
ACGGACTTCC AGGCAGTGCC AGGCTGTGGA ATTGGGTGCA AAGTCAGCAA CGTGGAAGGC
ATCCTGGCCC ACAGTGAGCG CCCTTTGAGT GCACCGGCCA GTCACCTGAA TGAGGCTGGC
AGCCTTCCCG CAGAAAAAGA TGCAGTCCCC CAGACCTTCT CTGTGCTGAT TGGAAACCGT
GAGTGGCTGA GGCGCAACGG TTTAACCATT TCTAGCGATG TCAGTGACGC TATGACAGAC
CACGAGATGA AAGGACAGAC AGCCATCCTG GTGGCTATTG ACGGTGTGCT CTGTGGGATG
ATCGCAATCG CAGACGCTGT CAAGCAGGAG GCTGCCCTGG CTGTGCACAC GCTGCAGAGC
ATGGGTGTGG ACGTGGTTCT GATCACGGGG GACAACCGGA AGACAGCCAG AGCTATTGCC
ACCCAGGTTG GCATCAACAA AGTCTTTGCA GAGGTGCTGC CTTCGCACAA GGTGGCCAAG
GTCCAGGAGC TCCAGAATAA AGGGAAGAAA GTCGCCATGG TGGGGGATGG GGTCAATGAC
TCCCCGGCCT TGGCCCAGGC AGACATGGGT GTGGCCATTG GCACCGGCAC GGATGTGGCC
ATCGAGGCAG CCGACGTCGT CCTTATCAGA AATGATTTGC TGGATGTGGT GGCTAGCATT
CACCTTTCCA AGAGGACTGT CCGAAGGATA CGCATCAACC TGGTCCTGGC ACTGATTTAT
AACCTGGTTG GGATACCCAT TGCAGCAGGT GTCTTCATGC CCATCGGCAT TGTGCTGCAG
CCCTGGATGG GCTCAGCGGC CATGGCAGCC TCCTCTGTGT CTGTGGTGCT CTCATCCCTG
CAGCTCAAGT GCTATAAGAA GCCTGACCTG GAGAGGTATG AGGCACAGGC GCATGGCCAC
ATGAAGCCCC TGACGGCATC CCAGGTCAGT GTGCACATAG GCATGGATGA CAGGTGGCGG
GACTCCCCCA GGGCCACACC ATGGGACCAG GTCAGCTATG TCAGCCAGGT GTCGCTGTCC
TCCCTGACGT CCGACAAGCC ATCTCGGCAC AGCGCTGCAG CAGACGATGA TGGGGACAAG
TGGTCTCTGC TCCTGAATGG CAGGGATGAG GAGCAGTACA TCTGA

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

CloneID OHu56433
Clone ID Related Accession (Same CDS sequence) XM_011535122
Accession Version XM_011535122.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3066bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X11
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
ATGGTGCAAA CTACAGATGG TACACCTACA TCTGTGCAGG AAGTGGCTCC CCACACTGGG 
AGGCTCCCTG CAAACCATGC CCCGGACATC TTGGCAAAGT CCCCACAATC AACCAGAGCA
GTGGCACCGC AGAAGTGCTT CTTACAGATC AAAGGCATGA CCTGTGCATC CTGTGTGTCT
AACATAGAAA GGAATCTGCA GAAAGAAGCT GGTGTTCTCT CCGTGTTGGT TGCCTTGATG
GCAGGAAAGG CAGAGATCAA GTATGACCCA GAGGTCATCC AGCCCCTCGA GATAGCTCAG
TTCATCCAGG ACCTGGGTTT TGAGGCAGCA GTCATGGAGG ACTACGCAGG CTCCGATGGC
AACATTGAGC TGACAATCAC AGGGATGACC TGCGCGTCCT GTGTCCACAA CATAGAGTCC
AAACTCACGA GGACAAATGG CATCACTTAT GCCTCCGTTG CCCTTGCCAC CAGCAAAGCC
CTTGTTAAGT TTGACCCGGA AATTATCGGT CCACGGGATA TTATCAAAAT TATTGAGGAA
ATTGGCTTTC ATGCTTCCCT GGCCCAGAGA AACCCCAACG CTCATCACTT GGACCACAAG
ATGGAAATAA AGCAGTGGAA GAAGTCTTTC CTGTGCAGCC TGGTGTTTGG CATCCCTGTC
ATGGCCTTAA TGATCTATAT GCTGATACCC AGCAACGAGC CCCACCAGTC CATGGTCCTG
GACCACAACA TCATTCCAGG ACTGTCCATT CTAAATCTCA TCTTCTTTAT CTTGTGTACC
TTTGTCCAGC TCCTCGGTGG GTGGTACTTC TACGTTCAGG CCTACAAATC TCTGAGACAC
AGGTCAGCCA ACATGGACGT GCTCATCGTC CTGGCCACAA GCATTGCTTA TGTTTATTCT
CTGGTCATCC TGGTGGTTGC TGTGGCTGAG AAGGCGGAGA GGAGCCCTGT GACATTCTTC
GACACGCCCC CCATGCTCTT TGTGTTCATT GCCCTGGGCC GGTGGCTGGA ACACTTGGCA
AAGAGCAAAA CCTCAGAAGC CCTGGCTAAA CTCATGTCTC TCCAAGCCAC AGAAGCCACC
GTTGTGACCC TTGGTGAGGA CAATTTAATC ATCAGGGAGG AGCAAGTCCC CATGGAGCTG
GTGCAGCGGG GCGATATCGT CAAGGTGGTC CCTGGGGGAA AGTTTCCAGT GGATGGGAAA
GTCCTGGAAG GCAATACCAT GGCTGATGAG TCCCTCATCA CAGGAGAAGC CATGCCAGTC
ACTAAGAAAC CCGGAAGCAC TGTAATTGCG GGGTCTATAA ATGCACATGG CTCTGTGCTC
ATTAAAGCTA CCCACGTGGG CAATGACACC ACTTTGGCTC AGATTGTGAA ACTGGTGGAA
GAGGCTCAGA TGTCAAAGGC ACCCATTCAG CAGCTGGCTG ACCGGTTTAG TGGATATTTT
GTCCCATTTA TCATCATCAT GTCAACTTTG ACGTTGGTGG TATGGATTGT AATCGGTTTT
ATCGATTTTG GTGTTGTTCA GAGATACTTT CCTAACCCCA ACAAGCACAT CTCCCAGACA
GAGGTGATCA TCCGGTTTGC TTTCCAGACG TCCATCACGG TGCTGTGCAT TGCCTGCCCC
TGCTCCCTGG GGCTGGCCAC GCCCACGGCT GTCATGGTGG GCACCGGGGT GGCCGCGCAG
AACGGCATCC TCATCAAGGG AGGCAAGCCC CTGGAGATGG CGCACAAGAT AAAGACTGTG
ATGTTTGACA AGACTGGCAC CATTACCCAT GGCGTCCCCA GGGTCATGCG GGTGCTCCTG
CTGGGGGATG TGGCCACACT GCCCCTCAGG AAGGTTCTGG CTGTGGTGGG GACTGCGGAG
GCCAGCAGTG AACACCCCTT GGGCGTGGCA GTCACCAAAT ACTGTAAAGA GGAACTTGGA
ACAGAGACCT TGGGATACTG CACGGACTTC CAGGCAGTGC CAGGCTGTGG AATTGGGTGC
AAAGTCAGCA ACGTGGAAGG CATCCTGGCC CACAGTGAGC GCCCTTTGAG TGCACCGGCC
AGTCACCTGA ATGAGGCTGG CAGCCTTCCC GCAGAAAAAG ATGCAGTCCC CCAGACCTTC
TCTGTGCTGA TTGGAAACCG TGAGTGGCTG AGGCGCAACG GTTTAACCAT TTCTAGCGAT
GTCAGTGACG CTATGACAGA CCACGAGATG AAAGGACAGA CAGCCATCCT GGTGGCTATT
GACGGTGTGC TCTGTGGGAT GATCGCAATC GCAGACGCTG TCAAGCAGGA GGCTGCCCTG
GCTGTGCACA CGCTGCAGAG CATGGGTGTG GACGTGGTTC TGATCACGGG GGACAACCGG
AAGACAGCCA GAGCTATTGC CACCCAGGTT GGCATCAACA AAGTCTTTGC AGAGGTGCTG
CCTTCGCACA AGGTGGCCAA GGTCCAGGAG CTCCAGAATA AAGGGAAGAA AGTCGCCATG
GTGGGGGATG GGGTCAATGA CTCCCCGGCC TTGGCCCAGG CAGACATGGG TGTGGCCATT
GGCACCGGCA CGGATGTGGC CATCGAGGCA GCCGACGTCG TCCTTATCAG AAATGATTTG
CTGGATGTGG TGGCTAGCAT TCACCTTTCC AAGAGGACTG TCCGAAGGAT ACGCATCAAC
CTGGTCCTGG CACTGATTTA TAACCTGGTT GGGATACCCA TTGCAGCAGG TGTCTTCATG
CCCATCGGCA TTGTGCTGCA GCCCTGGATG GGCTCAGCGG CCATGGCAGC CTCCTCTGTG
TCTGTGGTGC TCTCATCCCT GCAGCTCAAG TGCTATAAGA AGCCTGACCT GGAGAGGTAT
GAGGCACAGG CGCATGGCCA CATGAAGCCC CTGACGGCAT CCCAGGTCAG TGTGCACATA
GGCATGGATG ACAGGTGGCG GGACTCCCCC AGGGCCACAC CATGGGACCA GGTCAGCTAT
GTCAGCCAGG TGTCGCTGTC CTCCCTGACG TCCGACAAGC CATCTCGGCA CAGCGCTGCA
GCAGACGATG ATGGGGACAA GTGGTCTCTG CTCCTGAATG GCAGGGATGA GGAGCAGTAC
ATCTGA

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

RefSeq XP_011533424.1
CDS114..3179
Misc Feature(1)255..443(+)
Misc Feature(2)270..287(+)
Misc Feature(3)477..2846(+)
Misc Feature(4)480..671(+)
Misc Feature(5)498..515(+)
Misc Feature(6)1086..1829(+)
Misc Feature(7)2316..2633(+)
Misc Feature(8)2328..2444(+)
Misc Feature(9)2328..2345(+)
Misc Feature(10)2439..2441(+)
Translation

Target ORF information:

RefSeq Version XM_011535122
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X18, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011535122

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
ATGGTGCAAA CTACAGATGG TACACCTACA TCTGTGCAGG AAGTGGCTCC CCACACTGGG 
AGGCTCCCTG CAAACCATGC CCCGGACATC TTGGCAAAGT CCCCACAATC AACCAGAGCA
GTGGCACCGC AGAAGTGCTT CTTACAGATC AAAGGCATGA CCTGTGCATC CTGTGTGTCT
AACATAGAAA GGAATCTGCA GAAAGAAGCT GGTGTTCTCT CCGTGTTGGT TGCCTTGATG
GCAGGAAAGG CAGAGATCAA GTATGACCCA GAGGTCATCC AGCCCCTCGA GATAGCTCAG
TTCATCCAGG ACCTGGGTTT TGAGGCAGCA GTCATGGAGG ACTACGCAGG CTCCGATGGC
AACATTGAGC TGACAATCAC AGGGATGACC TGCGCGTCCT GTGTCCACAA CATAGAGTCC
AAACTCACGA GGACAAATGG CATCACTTAT GCCTCCGTTG CCCTTGCCAC CAGCAAAGCC
CTTGTTAAGT TTGACCCGGA AATTATCGGT CCACGGGATA TTATCAAAAT TATTGAGGAA
ATTGGCTTTC ATGCTTCCCT GGCCCAGAGA AACCCCAACG CTCATCACTT GGACCACAAG
ATGGAAATAA AGCAGTGGAA GAAGTCTTTC CTGTGCAGCC TGGTGTTTGG CATCCCTGTC
ATGGCCTTAA TGATCTATAT GCTGATACCC AGCAACGAGC CCCACCAGTC CATGGTCCTG
GACCACAACA TCATTCCAGG ACTGTCCATT CTAAATCTCA TCTTCTTTAT CTTGTGTACC
TTTGTCCAGC TCCTCGGTGG GTGGTACTTC TACGTTCAGG CCTACAAATC TCTGAGACAC
AGGTCAGCCA ACATGGACGT GCTCATCGTC CTGGCCACAA GCATTGCTTA TGTTTATTCT
CTGGTCATCC TGGTGGTTGC TGTGGCTGAG AAGGCGGAGA GGAGCCCTGT GACATTCTTC
GACACGCCCC CCATGCTCTT TGTGTTCATT GCCCTGGGCC GGTGGCTGGA ACACTTGGCA
AAGAGCAAAA CCTCAGAAGC CCTGGCTAAA CTCATGTCTC TCCAAGCCAC AGAAGCCACC
GTTGTGACCC TTGGTGAGGA CAATTTAATC ATCAGGGAGG AGCAAGTCCC CATGGAGCTG
GTGCAGCGGG GCGATATCGT CAAGGTGGTC CCTGGGGGAA AGTTTCCAGT GGATGGGAAA
GTCCTGGAAG GCAATACCAT GGCTGATGAG TCCCTCATCA CAGGAGAAGC CATGCCAGTC
ACTAAGAAAC CCGGAAGCAC TGTAATTGCG GGGTCTATAA ATGCACATGG CTCTGTGCTC
ATTAAAGCTA CCCACGTGGG CAATGACACC ACTTTGGCTC AGATTGTGAA ACTGGTGGAA
GAGGCTCAGA TGTCAAAGGC ACCCATTCAG CAGCTGGCTG ACCGGTTTAG TGGATATTTT
GTCCCATTTA TCATCATCAT GTCAACTTTG ACGTTGGTGG TATGGATTGT AATCGGTTTT
ATCGATTTTG GTGTTGTTCA GAGATACTTT CCTAACCCCA ACAAGCACAT CTCCCAGACA
GAGGTGATCA TCCGGTTTGC TTTCCAGACG TCCATCACGG TGCTGTGCAT TGCCTGCCCC
TGCTCCCTGG GGCTGGCCAC GCCCACGGCT GTCATGGTGG GCACCGGGGT GGCCGCGCAG
AACGGCATCC TCATCAAGGG AGGCAAGCCC CTGGAGATGG CGCACAAGAT AAAGACTGTG
ATGTTTGACA AGACTGGCAC CATTACCCAT GGCGTCCCCA GGGTCATGCG GGTGCTCCTG
CTGGGGGATG TGGCCACACT GCCCCTCAGG AAGGTTCTGG CTGTGGTGGG GACTGCGGAG
GCCAGCAGTG AACACCCCTT GGGCGTGGCA GTCACCAAAT ACTGTAAAGA GGAACTTGGA
ACAGAGACCT TGGGATACTG CACGGACTTC CAGGCAGTGC CAGGCTGTGG AATTGGGTGC
AAAGTCAGCA ACGTGGAAGG CATCCTGGCC CACAGTGAGC GCCCTTTGAG TGCACCGGCC
AGTCACCTGA ATGAGGCTGG CAGCCTTCCC GCAGAAAAAG ATGCAGTCCC CCAGACCTTC
TCTGTGCTGA TTGGAAACCG TGAGTGGCTG AGGCGCAACG GTTTAACCAT TTCTAGCGAT
GTCAGTGACG CTATGACAGA CCACGAGATG AAAGGACAGA CAGCCATCCT GGTGGCTATT
GACGGTGTGC TCTGTGGGAT GATCGCAATC GCAGACGCTG TCAAGCAGGA GGCTGCCCTG
GCTGTGCACA CGCTGCAGAG CATGGGTGTG GACGTGGTTC TGATCACGGG GGACAACCGG
AAGACAGCCA GAGCTATTGC CACCCAGGTT GGCATCAACA AAGTCTTTGC AGAGGTGCTG
CCTTCGCACA AGGTGGCCAA GGTCCAGGAG CTCCAGAATA AAGGGAAGAA AGTCGCCATG
GTGGGGGATG GGGTCAATGA CTCCCCGGCC TTGGCCCAGG CAGACATGGG TGTGGCCATT
GGCACCGGCA CGGATGTGGC CATCGAGGCA GCCGACGTCG TCCTTATCAG AAATGATTTG
CTGGATGTGG TGGCTAGCAT TCACCTTTCC AAGAGGACTG TCCGAAGGAT ACGCATCAAC
CTGGTCCTGG CACTGATTTA TAACCTGGTT GGGATACCCA TTGCAGCAGG TGTCTTCATG
CCCATCGGCA TTGTGCTGCA GCCCTGGATG GGCTCAGCGG CCATGGCAGC CTCCTCTGTG
TCTGTGGTGC TCTCATCCCT GCAGCTCAAG TGCTATAAGA AGCCTGACCT GGAGAGGTAT
GAGGCACAGG CGCATGGCCA CATGAAGCCC CTGACGGCAT CCCAGGTCAG TGTGCACATA
GGCATGGATG ACAGGTGGCG GGACTCCCCC AGGGCCACAC CATGGGACCA GGTCAGCTAT
GTCAGCCAGG TGTCGCTGTC CTCCCTGACG TCCGACAAGC CATCTCGGCA CAGCGCTGCA
GCAGACGATG ATGGGGACAA GTGGTCTCTG CTCCTGAATG GCAGGGATGA GGAGCAGTAC
ATCTGA

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

CloneID OHu47207
Clone ID Related Accession (Same CDS sequence) XM_006719838
Accession Version XM_006719838.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 2214bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X12
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
ATGGACGTGC TCATCGTCCT GGCCACAAGC ATTGCTTATG TTTATTCTCT GGTCATCCTG 
GTGGTTGCTG TGGCTGAGAA GGCGGAGAGG AGCCCTGTGA CATTCTTCGA CACGCCCCCC
ATGCTCTTTG TGTTCATTGC CCTGGGCCGG TGGCTGGAAC ACTTGGCAAA GAGCAAAACC
TCAGAAGCCC TGGCTAAACT CATGTCTCTC CAAGCCACAG AAGCCACCGT TGTGACCCTT
GGTGAGGACA ATTTAATCAT CAGGGAGGAG CAAGTCCCCA TGGAGCTGGT GCAGCGGGGC
GATATCGTCA AGGTGGTCCC TGGGGGAAAG TTTCCAGTGG ATGGGAAAGT CCTGGAAGGC
AATACCATGG CTGATGAGTC CCTCATCACA GGAGAAGCCA TGCCAGTCAC TAAGAAACCC
GGAAGCACTG TAATTGCGGG GTCTATAAAT GCACATGGCT CTGTGCTCAT TAAAGCTACC
CACGTGGGCA ATGACACCAC TTTGGCTCAG ATTGTGAAAC TGGTGGAAGA GGCTCAGATG
TCAAAGGCAC CCATTCAGCA GCTGGCTGAC CGGTTTAGTG GATATTTTGT CCCATTTATC
ATCATCATGT CAACTTTGAC GTTGGTGGTA TGGATTGTAA TCGGTTTTAT CGATTTTGGT
GTTGTTCAGA GATACTTTCC TAACCCCAAC AAGCACATCT CCCAGACAGA GGTGATCATC
CGGTTTGCTT TCCAGACGTC CATCACGGTG CTGTGCATTG CCTGCCCCTG CTCCCTGGGG
CTGGCCACGC CCACGGCTGT CATGGTGGGC ACCGGGGTGG CCGCGCAGAA CGGCATCCTC
ATCAAGGGAG GCAAGCCCCT GGAGATGGCG CACAAGATAA AGACTGTGAT GTTTGACAAG
ACTGGCACCA TTACCCATGG CGTCCCCAGG GTCATGCGGG TGCTCCTGCT GGGGGATGTG
GCCACACTGC CCCTCAGGAA GGTTCTGGCT GTGGTGGGGA CTGCGGAGGC CAGCAGTGAA
CACCCCTTGG GCGTGGCAGT CACCAAATAC TGTAAAGAGG AACTTGGAAC AGAGACCTTG
GGATACTGCA CGGACTTCCA GGCAGTGCCA GGCTGTGGAA TTGGGTGCAA AGTCAGCAAC
GTGGAAGGCA TCCTGGCCCA CAGTGAGCGC CCTTTGAGTG CACCGGCCAG TCACCTGAAT
GAGGCTGGCA GCCTTCCCGC AGAAAAAGAT GCAGTCCCCC AGACCTTCTC TGTGCTGATT
GGAAACCGTG AGTGGCTGAG GCGCAACGGT TTAACCATTT CTAGCGATGT CAGTGACGCT
ATGACAGACC ACGAGATGAA AGGACAGACA GCCATCCTGG TGGCTATTGA CGGTGTGCTC
TGTGGGATGA TCGCAATCGC AGACGCTGTC AAGCAGGAGG CTGCCCTGGC TGTGCACACG
CTGCAGAGCA TGGGTGTGGA CGTGGTTCTG ATCACGGGGG ACAACCGGAA GACAGCCAGA
GCTATTGCCA CCCAGGTTGG CATCAACAAA GTCTTTGCAG AGGTGCTGCC TTCGCACAAG
GTGGCCAAGG TCCAGGAGCT CCAGAATAAA GGGAAGAAAG TCGCCATGGT GGGGGATGGG
GTCAATGACT CCCCGGCCTT GGCCCAGGCA GACATGGGTG TGGCCATTGG CACCGGCACG
GATGTGGCCA TCGAGGCAGC CGACGTCGTC CTTATCAGAA ATGATTTGCT GGATGTGGTG
GCTAGCATTC ACCTTTCCAA GAGGACTGTC CGAAGGATAC GCATCAACCT GGTCCTGGCA
CTGATTTATA ACCTGGTTGG GATACCCATT GCAGCAGGTG TCTTCATGCC CATCGGCATT
GTGCTGCAGC CCTGGATGGG CTCAGCGGCC ATGGCAGCCT CCTCTGTGTC TGTGGTGCTC
TCATCCCTGC AGCTCAAGTG CTATAAGAAG CCTGACCTGG AGAGGTATGA GGCACAGGCG
CATGGCCACA TGAAGCCCCT GACGGCATCC CAGGTCAGTG TGCACATAGG CATGGATGAC
AGGTGGCGGG ACTCCCCCAG GGCCACACCA TGGGACCAGG TCAGCTATGT CAGCCAGGTG
TCGCTGTCCT CCCTGACGTC CGACAAGCCA TCTCGGCACA GCGCTGCAGC AGACGATGAT
GGGGACAAGT GGTCTCTGCT CCTGAATGGC AGGGATGAGG AGCAGTACAT CTGA

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

RefSeq XP_006719901.1
CDS137..2350
Misc Feature(1)137..2017(+)
Misc Feature(2)257..1000(+)
Misc Feature(3)1487..1804(+)
Misc Feature(4)1499..1615(+)
Misc Feature(5)1499..1516(+)
Misc Feature(6)1610..1612(+)
Translation

Target ORF information:

RefSeq Version XM_006719838
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X19, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_006719838

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
ATGGACGTGC TCATCGTCCT GGCCACAAGC ATTGCTTATG TTTATTCTCT GGTCATCCTG 
GTGGTTGCTG TGGCTGAGAA GGCGGAGAGG AGCCCTGTGA CATTCTTCGA CACGCCCCCC
ATGCTCTTTG TGTTCATTGC CCTGGGCCGG TGGCTGGAAC ACTTGGCAAA GAGCAAAACC
TCAGAAGCCC TGGCTAAACT CATGTCTCTC CAAGCCACAG AAGCCACCGT TGTGACCCTT
GGTGAGGACA ATTTAATCAT CAGGGAGGAG CAAGTCCCCA TGGAGCTGGT GCAGCGGGGC
GATATCGTCA AGGTGGTCCC TGGGGGAAAG TTTCCAGTGG ATGGGAAAGT CCTGGAAGGC
AATACCATGG CTGATGAGTC CCTCATCACA GGAGAAGCCA TGCCAGTCAC TAAGAAACCC
GGAAGCACTG TAATTGCGGG GTCTATAAAT GCACATGGCT CTGTGCTCAT TAAAGCTACC
CACGTGGGCA ATGACACCAC TTTGGCTCAG ATTGTGAAAC TGGTGGAAGA GGCTCAGATG
TCAAAGGCAC CCATTCAGCA GCTGGCTGAC CGGTTTAGTG GATATTTTGT CCCATTTATC
ATCATCATGT CAACTTTGAC GTTGGTGGTA TGGATTGTAA TCGGTTTTAT CGATTTTGGT
GTTGTTCAGA GATACTTTCC TAACCCCAAC AAGCACATCT CCCAGACAGA GGTGATCATC
CGGTTTGCTT TCCAGACGTC CATCACGGTG CTGTGCATTG CCTGCCCCTG CTCCCTGGGG
CTGGCCACGC CCACGGCTGT CATGGTGGGC ACCGGGGTGG CCGCGCAGAA CGGCATCCTC
ATCAAGGGAG GCAAGCCCCT GGAGATGGCG CACAAGATAA AGACTGTGAT GTTTGACAAG
ACTGGCACCA TTACCCATGG CGTCCCCAGG GTCATGCGGG TGCTCCTGCT GGGGGATGTG
GCCACACTGC CCCTCAGGAA GGTTCTGGCT GTGGTGGGGA CTGCGGAGGC CAGCAGTGAA
CACCCCTTGG GCGTGGCAGT CACCAAATAC TGTAAAGAGG AACTTGGAAC AGAGACCTTG
GGATACTGCA CGGACTTCCA GGCAGTGCCA GGCTGTGGAA TTGGGTGCAA AGTCAGCAAC
GTGGAAGGCA TCCTGGCCCA CAGTGAGCGC CCTTTGAGTG CACCGGCCAG TCACCTGAAT
GAGGCTGGCA GCCTTCCCGC AGAAAAAGAT GCAGTCCCCC AGACCTTCTC TGTGCTGATT
GGAAACCGTG AGTGGCTGAG GCGCAACGGT TTAACCATTT CTAGCGATGT CAGTGACGCT
ATGACAGACC ACGAGATGAA AGGACAGACA GCCATCCTGG TGGCTATTGA CGGTGTGCTC
TGTGGGATGA TCGCAATCGC AGACGCTGTC AAGCAGGAGG CTGCCCTGGC TGTGCACACG
CTGCAGAGCA TGGGTGTGGA CGTGGTTCTG ATCACGGGGG ACAACCGGAA GACAGCCAGA
GCTATTGCCA CCCAGGTTGG CATCAACAAA GTCTTTGCAG AGGTGCTGCC TTCGCACAAG
GTGGCCAAGG TCCAGGAGCT CCAGAATAAA GGGAAGAAAG TCGCCATGGT GGGGGATGGG
GTCAATGACT CCCCGGCCTT GGCCCAGGCA GACATGGGTG TGGCCATTGG CACCGGCACG
GATGTGGCCA TCGAGGCAGC CGACGTCGTC CTTATCAGAA ATGATTTGCT GGATGTGGTG
GCTAGCATTC ACCTTTCCAA GAGGACTGTC CGAAGGATAC GCATCAACCT GGTCCTGGCA
CTGATTTATA ACCTGGTTGG GATACCCATT GCAGCAGGTG TCTTCATGCC CATCGGCATT
GTGCTGCAGC CCTGGATGGG CTCAGCGGCC ATGGCAGCCT CCTCTGTGTC TGTGGTGCTC
TCATCCCTGC AGCTCAAGTG CTATAAGAAG CCTGACCTGG AGAGGTATGA GGCACAGGCG
CATGGCCACA TGAAGCCCCT GACGGCATCC CAGGTCAGTG TGCACATAGG CATGGATGAC
AGGTGGCGGG ACTCCCCCAG GGCCACACCA TGGGACCAGG TCAGCTATGT CAGCCAGGTG
TCGCTGTCCT CCCTGACGTC CGACAAGCCA TCTCGGCACA GCGCTGCAGC AGACGATGAT
GGGGACAAGT GGTCTCTGCT CCTGAATGGC AGGGATGAGG AGCAGTACAT CTGA

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

CloneID OHu47208
Clone ID Related Accession (Same CDS sequence) XM_006719839
Accession Version XM_006719839.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 2031bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform X13
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_024524.15) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
ATGGACGTGC TCATCGTCCT GGCCACAAGC ATTGCTTATG TTTATTCTCT GGTCATCCTG 
GTGGTTGCTG TGGCTGAGAA GGCGGAGAGG AGCCCTGTGA CATTCTTCGA CACGCCCCCC
ATGCTCTTTG TGTTCATTGC CCTGGGCCGG TGGCTGGAAC ACTTGGCAAA GAGCAAAACC
TCAGAAGCCC TGGCTAAACT CATGTCTCTC CAAGCCACAG AAGCCACCGT TGTGACCCTT
GGTGAGGACA ATTTAATCAT CAGGGAGGAG CAAGTCCCCA TGGAGCTGGT GCAGCGGGGC
GATATCGTCA AGGTGGTCCC TGGGGGAAAG TTTCCAGTGG ATGGGAAAGT CCTGGAAGGC
AATACCATGG CTGATGAGTC CCTCATCACA GGAGAAGCCA TGCCAGTCAC TAAGAAACCC
GGAAGCACTG TAATTGCGGG GTCTATAAAT GCACATGGCT CTGTGCTCAT TAAAGCTACC
CACGTGGGCA ATGACACCAC TTTGGCTCAG ATTGTGAAAC TGGTGGAAGA GGCTCAGATG
TCAAAGGCAC CCATTCAGCA GCTGGCTGAC CGGTTTAGTG GATATTTTGT CCCATTTATC
ATCATCATGT CAACTTTGAC GTTGGTGGTA TGGATTGTAA TCGGTTTTAT CGATTTTGGT
GTTGTTCAGA GATACTTTCC TAACCCCAAC AAGCACATCT CCCAGACAGA GGTGATCATC
CGGTTTGCTT TCCAGACGTC CATCACGGTG CTGTGCATTG CCTGCCCCTG CTCCCTGGGG
CTGGCCACGC CCACGGCTGT CATGGTGGGC ACCGGGGTGG CCGCGCAGAA CGGCATCCTC
ATCAAGGGAG GCAAGCCCCT GGAGATGGCG CACAAGGAAC TTGGAACAGA GACCTTGGGA
TACTGCACGG ACTTCCAGGC AGTGCCAGGC TGTGGAATTG GGTGCAAAGT CAGCAACGTG
GAAGGCATCC TGGCCCACAG TGAGCGCCCT TTGAGTGCAC CGGCCAGTCA CCTGAATGAG
GCTGGCAGCC TTCCCGCAGA AAAAGATGCA GTCCCCCAGA CCTTCTCTGT GCTGATTGGA
AACCGTGAGT GGCTGAGGCG CAACGGTTTA ACCATTTCTA GCGATGTCAG TGACGCTATG
ACAGACCACG AGATGAAAGG ACAGACAGCC ATCCTGGTGG CTATTGACGG TGTGCTCTGT
GGGATGATCG CAATCGCAGA CGCTGTCAAG CAGGAGGCTG CCCTGGCTGT GCACACGCTG
CAGAGCATGG GTGTGGACGT GGTTCTGATC ACGGGGGACA ACCGGAAGAC AGCCAGAGCT
ATTGCCACCC AGGTTGGCAT CAACAAAGTC TTTGCAGAGG TGCTGCCTTC GCACAAGGTG
GCCAAGGTCC AGGAGCTCCA GAATAAAGGG AAGAAAGTCG CCATGGTGGG GGATGGGGTC
AATGACTCCC CGGCCTTGGC CCAGGCAGAC ATGGGTGTGG CCATTGGCAC CGGCACGGAT
GTGGCCATCG AGGCAGCCGA CGTCGTCCTT ATCAGAAATG ATTTGCTGGA TGTGGTGGCT
AGCATTCACC TTTCCAAGAG GACTGTCCGA AGGATACGCA TCAACCTGGT CCTGGCACTG
ATTTATAACC TGGTTGGGAT ACCCATTGCA GCAGGTGTCT TCATGCCCAT CGGCATTGTG
CTGCAGCCCT GGATGGGCTC AGCGGCCATG GCAGCCTCCT CTGTGTCTGT GGTGCTCTCA
TCCCTGCAGC TCAAGTGCTA TAAGAAGCCT GACCTGGAGA GGTATGAGGC ACAGGCGCAT
GGCCACATGA AGCCCCTGAC GGCATCCCAG GTCAGTGTGC ACATAGGCAT GGATGACAGG
TGGCGGGACT CCCCCAGGGC CACACCATGG GACCAGGTCA GCTATGTCAG CCAGGTGTCG
CTGTCCTCCC TGACGTCCGA CAAGCCATCT CGGCACAGCG CTGCAGCAGA CGATGATGGG
GACAAGTGGT CTCTGCTCCT GAATGGCAGG GATGAGGAGC AGTACATCTG A

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

RefSeq XP_006719902.1
CDS137..2167
Misc Feature(1)137..1834(+)
Misc Feature(2)257..1000(+)
Misc Feature(3)1304..1621(+)
Misc Feature(4)1316..1432(+)
Misc Feature(5)1316..1333(+)
Misc Feature(6)1427..1429(+)
Translation

Target ORF information:

RefSeq Version XM_006719839
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant X20, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_006719839

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
ATGGACGTGC TCATCGTCCT GGCCACAAGC ATTGCTTATG TTTATTCTCT GGTCATCCTG 
GTGGTTGCTG TGGCTGAGAA GGCGGAGAGG AGCCCTGTGA CATTCTTCGA CACGCCCCCC
ATGCTCTTTG TGTTCATTGC CCTGGGCCGG TGGCTGGAAC ACTTGGCAAA GAGCAAAACC
TCAGAAGCCC TGGCTAAACT CATGTCTCTC CAAGCCACAG AAGCCACCGT TGTGACCCTT
GGTGAGGACA ATTTAATCAT CAGGGAGGAG CAAGTCCCCA TGGAGCTGGT GCAGCGGGGC
GATATCGTCA AGGTGGTCCC TGGGGGAAAG TTTCCAGTGG ATGGGAAAGT CCTGGAAGGC
AATACCATGG CTGATGAGTC CCTCATCACA GGAGAAGCCA TGCCAGTCAC TAAGAAACCC
GGAAGCACTG TAATTGCGGG GTCTATAAAT GCACATGGCT CTGTGCTCAT TAAAGCTACC
CACGTGGGCA ATGACACCAC TTTGGCTCAG ATTGTGAAAC TGGTGGAAGA GGCTCAGATG
TCAAAGGCAC CCATTCAGCA GCTGGCTGAC CGGTTTAGTG GATATTTTGT CCCATTTATC
ATCATCATGT CAACTTTGAC GTTGGTGGTA TGGATTGTAA TCGGTTTTAT CGATTTTGGT
GTTGTTCAGA GATACTTTCC TAACCCCAAC AAGCACATCT CCCAGACAGA GGTGATCATC
CGGTTTGCTT TCCAGACGTC CATCACGGTG CTGTGCATTG CCTGCCCCTG CTCCCTGGGG
CTGGCCACGC CCACGGCTGT CATGGTGGGC ACCGGGGTGG CCGCGCAGAA CGGCATCCTC
ATCAAGGGAG GCAAGCCCCT GGAGATGGCG CACAAGGAAC TTGGAACAGA GACCTTGGGA
TACTGCACGG ACTTCCAGGC AGTGCCAGGC TGTGGAATTG GGTGCAAAGT CAGCAACGTG
GAAGGCATCC TGGCCCACAG TGAGCGCCCT TTGAGTGCAC CGGCCAGTCA CCTGAATGAG
GCTGGCAGCC TTCCCGCAGA AAAAGATGCA GTCCCCCAGA CCTTCTCTGT GCTGATTGGA
AACCGTGAGT GGCTGAGGCG CAACGGTTTA ACCATTTCTA GCGATGTCAG TGACGCTATG
ACAGACCACG AGATGAAAGG ACAGACAGCC ATCCTGGTGG CTATTGACGG TGTGCTCTGT
GGGATGATCG CAATCGCAGA CGCTGTCAAG CAGGAGGCTG CCCTGGCTGT GCACACGCTG
CAGAGCATGG GTGTGGACGT GGTTCTGATC ACGGGGGACA ACCGGAAGAC AGCCAGAGCT
ATTGCCACCC AGGTTGGCAT CAACAAAGTC TTTGCAGAGG TGCTGCCTTC GCACAAGGTG
GCCAAGGTCC AGGAGCTCCA GAATAAAGGG AAGAAAGTCG CCATGGTGGG GGATGGGGTC
AATGACTCCC CGGCCTTGGC CCAGGCAGAC ATGGGTGTGG CCATTGGCAC CGGCACGGAT
GTGGCCATCG AGGCAGCCGA CGTCGTCCTT ATCAGAAATG ATTTGCTGGA TGTGGTGGCT
AGCATTCACC TTTCCAAGAG GACTGTCCGA AGGATACGCA TCAACCTGGT CCTGGCACTG
ATTTATAACC TGGTTGGGAT ACCCATTGCA GCAGGTGTCT TCATGCCCAT CGGCATTGTG
CTGCAGCCCT GGATGGGCTC AGCGGCCATG GCAGCCTCCT CTGTGTCTGT GGTGCTCTCA
TCCCTGCAGC TCAAGTGCTA TAAGAAGCCT GACCTGGAGA GGTATGAGGC ACAGGCGCAT
GGCCACATGA AGCCCCTGAC GGCATCCCAG GTCAGTGTGC ACATAGGCAT GGATGACAGG
TGGCGGGACT CCCCCAGGGC CACACCATGG GACCAGGTCA GCTATGTCAG CCAGGTGTCG
CTGTCCTCCC TGACGTCCGA CAAGCCATCT CGGCACAGCG CTGCAGCAGA CGATGATGGG
GACAAGTGGT CTCTGCTCCT GAATGGCAGG GATGAGGAGC AGTACATCTG A

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

CloneID OHu22580
Clone ID Related Accession (Same CDS sequence) NM_000053 , XM_005266430
Accession Version NM_000053.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4398bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags COA
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform a
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA125470.1, U11700.1, BC143976.1, AL162377.10 and BU682287.1. This sequence is a reference standard in the RefSeqGene project. On Jul 30, 2011 this sequence version replaced gi:55743070. Transcript Variant: This variant (1) represents the longest transcript, and encodes the longest isoform (a). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. 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 :: U11700.1, U03464.1 [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
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG GCACCCATTC AGCAGCTGGC TGACCGGTTT
AGTGGATATT TTGTCCCATT TATCATCATC ATGTCAACTT TGACGTTGGT GGTATGGATT
GTAATCGGTT TTATCGATTT TGGTGTTGTT CAGAGATACT TTCCTAACCC CAACAAGCAC
ATCTCCCAGA CAGAGGTGAT CATCCGGTTT GCTTTCCAGA CGTCCATCAC GGTGCTGTGC
ATTGCCTGCC CCTGCTCCCT GGGGCTGGCC ACGCCCACGG CTGTCATGGT GGGCACCGGG
GTGGCCGCGC AGAACGGCAT CCTCATCAAG GGAGGCAAGC CCCTGGAGAT GGCGCACAAG
ATAAAGACTG TGATGTTTGA CAAGACTGGC ACCATTACCC ATGGCGTCCC CAGGGTCATG
CGGGTGCTCC TGCTGGGGGA TGTGGCCACA CTGCCCCTCA GGAAGGTTCT GGCTGTGGTG
GGGACTGCGG AGGCCAGCAG TGAACACCCC TTGGGCGTGG CAGTCACCAA ATACTGTAAA
GAGGAACTTG GAACAGAGAC CTTGGGATAC TGCACGGACT TCCAGGCAGT GCCAGGCTGT
GGAATTGGGT GCAAAGTCAG CAACGTGGAA GGCATCCTGG CCCACAGTGA GCGCCCTTTG
AGTGCACCGG CCAGTCACCT GAATGAGGCT GGCAGCCTTC CCGCAGAAAA AGATGCAGTC
CCCCAGACCT TCTCTGTGCT GATTGGAAAC CGTGAGTGGC TGAGGCGCAA CGGTTTAACC
ATTTCTAGCG ATGTCAGTGA CGCTATGACA GACCACGAGA TGAAAGGACA GACAGCCATC
CTGGTGGCTA TTGACGGTGT GCTCTGTGGG ATGATCGCAA TCGCAGACGC TGTCAAGCAG
GAGGCTGCCC TGGCTGTGCA CACGCTGCAG AGCATGGGTG TGGACGTGGT TCTGATCACG
GGGGACAACC GGAAGACAGC CAGAGCTATT GCCACCCAGG TTGGCATCAA CAAAGTCTTT
GCAGAGGTGC TGCCTTCGCA CAAGGTGGCC AAGGTCCAGG AGCTCCAGAA TAAAGGGAAG
AAAGTCGCCA TGGTGGGGGA TGGGGTCAAT GACTCCCCGG CCTTGGCCCA GGCAGACATG
GGTGTGGCCA TTGGCACCGG CACGGATGTG GCCATCGAGG CAGCCGACGT CGTCCTTATC
AGAAATGATT TGCTGGATGT GGTGGCTAGC ATTCACCTTT CCAAGAGGAC TGTCCGAAGG
ATACGCATCA ACCTGGTCCT GGCACTGATT TATAACCTGG TTGGGATACC CATTGCAGCA
GGTGTCTTCA TGCCCATCGG CATTGTGCTG CAGCCCTGGA TGGGCTCAGC GGCCATGGCA
GCCTCCTCTG TGTCTGTGGT GCTCTCATCC CTGCAGCTCA AGTGCTATAA GAAGCCTGAC
CTGGAGAGGT ATGAGGCACA GGCGCATGGC CACATGAAGC CCCTGACGGC ATCCCAGGTC
AGTGTGCACA TAGGCATGGA TGACAGGTGG CGGGACTCCC CCAGGGCCAC ACCATGGGAC
CAGGTCAGCT ATGTCAGCCA GGTGTCGCTG TCCTCCCTGA CGTCCGACAA GCCATCTCGG
CACAGCGCTG CAGCAGACGA TGATGGGGAC AAGTGGTCTC TGCTCCTGAA TGGCAGGGAT
GAGGAGCAGT ACATCTGA

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

RefSeq NP_000044.2
CDS158..4555
Misc Feature(1)338..529(+)
Misc Feature(2)356..373(+)
Misc Feature(3)593..784(+)
Misc Feature(4)611..628(+)
Misc Feature(5)935..1111(+)
Misc Feature(6)953..970(+)
Misc Feature(7)1244..1432(+)
Misc Feature(8)1259..1276(+)
Misc Feature(9)1631..1819(+)
Misc Feature(10)1646..1663(+)
Misc Feature(11)1853..4222(+)
Misc Feature(12)1856..2047(+)
Misc Feature(13)1874..1891(+)
Misc Feature(14)2117..2182(+)
Misc Feature(15)2249..2308(+)
Misc Feature(16)2330..2392(+)
Misc Feature(17)2450..2512(+)
Misc Feature(18)2462..3205(+)
Misc Feature(19)2915..2983(+)
Misc Feature(20)3074..3139(+)
Misc Feature(21)3692..4009(+)
Misc Feature(22)3704..3820(+)
Misc Feature(23)3704..3721(+)
Misc Feature(24)3815..3817(+)
Misc Feature(25)4124..4177(+)
Misc Feature(26)4211..4270(+)
Exon (1)1..208
Gene:ATP7B
Gene Synonym:
Exon (2)209..1442
Gene:ATP7B
Gene Synonym:
Exon (3)1443..1700
Gene:ATP7B
Gene Synonym:
Exon (4)1701..1864
Gene:ATP7B
Gene Synonym:
Exon (5)1865..2026
Gene:ATP7B
Gene Synonym:
Exon (6)2027..2103
Gene:ATP7B
Gene Synonym:
Exon (7)2104..2278
Gene:ATP7B
Gene Synonym:
Exon (8)2279..2512
Gene:ATP7B
Gene Synonym:
Exon (9)2513..2604
Gene:ATP7B
Gene Synonym:
Exon (10)2605..2732
Gene:ATP7B
Gene Synonym:
Exon (11)2733..2887
Gene:ATP7B
Gene Synonym:
Exon (12)2888..3022
Gene:ATP7B
Gene Synonym:
Exon (13)3023..3217
Gene:ATP7B
Gene Synonym:
Exon (14)3218..3400
Gene:ATP7B
Gene Synonym:
Exon (15)3401..3569
Gene:ATP7B
Gene Synonym:
Exon (16)3570..3713
Gene:ATP7B
Gene Synonym:
Exon (17)3714..3856
Gene:ATP7B
Gene Synonym:
Exon (18)3857..4060
Gene:ATP7B
Gene Synonym:
Exon (19)4061..4178
Gene:ATP7B
Gene Synonym:
Exon (20)4179..4281
Gene:ATP7B
Gene Synonym:
Exon (21)4282..6642
Gene:ATP7B
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_000053
Organism Homo sapiens (human)
Definition Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_000053

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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGG AAATTGGCTT TCATGCTTCC CTGGCCCAGA GAAACCCCAA CGCTCATCAC
TTGGACCACA AGATGGAAAT AAAGCAGTGG AAGAAGTCTT TCCTGTGCAG CCTGGTGTTT
GGCATCCCTG TCATGGCCTT AATGATCTAT ATGCTGATAC CCAGCAACGA GCCCCACCAG
TCCATGGTCC TGGACCACAA CATCATTCCA GGACTGTCCA TTCTAAATCT CATCTTCTTT
ATCTTGTGTA CCTTTGTCCA GCTCCTCGGT GGGTGGTACT TCTACGTTCA GGCCTACAAA
TCTCTGAGAC ACAGGTCAGC CAACATGGAC GTGCTCATCG TCCTGGCCAC AAGCATTGCT
TATGTTTATT CTCTGGTCAT CCTGGTGGTT GCTGTGGCTG AGAAGGCGGA GAGGAGCCCT
GTGACATTCT TCGACACGCC CCCCATGCTC TTTGTGTTCA TTGCCCTGGG CCGGTGGCTG
GAACACTTGG CAAAGAGCAA AACCTCAGAA GCCCTGGCTA AACTCATGTC TCTCCAAGCC
ACAGAAGCCA CCGTTGTGAC CCTTGGTGAG GACAATTTAA TCATCAGGGA GGAGCAAGTC
CCCATGGAGC TGGTGCAGCG GGGCGATATC GTCAAGGTGG TCCCTGGGGG AAAGTTTCCA
GTGGATGGGA AAGTCCTGGA AGGCAATACC ATGGCTGATG AGTCCCTCAT CACAGGAGAA
GCCATGCCAG TCACTAAGAA ACCCGGAAGC ACTGTAATTG CGGGGTCTAT AAATGCACAT
GGCTCTGTGC TCATTAAAGC TACCCACGTG GGCAATGACA CCACTTTGGC TCAGATTGTG
AAACTGGTGG AAGAGGCTCA GATGTCAAAG GCACCCATTC AGCAGCTGGC TGACCGGTTT
AGTGGATATT TTGTCCCATT TATCATCATC ATGTCAACTT TGACGTTGGT GGTATGGATT
GTAATCGGTT TTATCGATTT TGGTGTTGTT CAGAGATACT TTCCTAACCC CAACAAGCAC
ATCTCCCAGA CAGAGGTGAT CATCCGGTTT GCTTTCCAGA CGTCCATCAC GGTGCTGTGC
ATTGCCTGCC CCTGCTCCCT GGGGCTGGCC ACGCCCACGG CTGTCATGGT GGGCACCGGG
GTGGCCGCGC AGAACGGCAT CCTCATCAAG GGAGGCAAGC CCCTGGAGAT GGCGCACAAG
ATAAAGACTG TGATGTTTGA CAAGACTGGC ACCATTACCC ATGGCGTCCC CAGGGTCATG
CGGGTGCTCC TGCTGGGGGA TGTGGCCACA CTGCCCCTCA GGAAGGTTCT GGCTGTGGTG
GGGACTGCGG AGGCCAGCAG TGAACACCCC TTGGGCGTGG CAGTCACCAA ATACTGTAAA
GAGGAACTTG GAACAGAGAC CTTGGGATAC TGCACGGACT TCCAGGCAGT GCCAGGCTGT
GGAATTGGGT GCAAAGTCAG CAACGTGGAA GGCATCCTGG CCCACAGTGA GCGCCCTTTG
AGTGCACCGG CCAGTCACCT GAATGAGGCT GGCAGCCTTC CCGCAGAAAA AGATGCAGTC
CCCCAGACCT TCTCTGTGCT GATTGGAAAC CGTGAGTGGC TGAGGCGCAA CGGTTTAACC
ATTTCTAGCG ATGTCAGTGA CGCTATGACA GACCACGAGA TGAAAGGACA GACAGCCATC
CTGGTGGCTA TTGACGGTGT GCTCTGTGGG ATGATCGCAA TCGCAGACGC TGTCAAGCAG
GAGGCTGCCC TGGCTGTGCA CACGCTGCAG AGCATGGGTG TGGACGTGGT TCTGATCACG
GGGGACAACC GGAAGACAGC CAGAGCTATT GCCACCCAGG TTGGCATCAA CAAAGTCTTT
GCAGAGGTGC TGCCTTCGCA CAAGGTGGCC AAGGTCCAGG AGCTCCAGAA TAAAGGGAAG
AAAGTCGCCA TGGTGGGGGA TGGGGTCAAT GACTCCCCGG CCTTGGCCCA GGCAGACATG
GGTGTGGCCA TTGGCACCGG CACGGATGTG GCCATCGAGG CAGCCGACGT CGTCCTTATC
AGAAATGATT TGCTGGATGT GGTGGCTAGC ATTCACCTTT CCAAGAGGAC TGTCCGAAGG
ATACGCATCA ACCTGGTCCT GGCACTGATT TATAACCTGG TTGGGATACC CATTGCAGCA
GGTGTCTTCA TGCCCATCGG CATTGTGCTG CAGCCCTGGA TGGGCTCAGC GGCCATGGCA
GCCTCCTCTG TGTCTGTGGT GCTCTCATCC CTGCAGCTCA AGTGCTATAA GAAGCCTGAC
CTGGAGAGGT ATGAGGCACA GGCGCATGGC CACATGAAGC CCCTGACGGC ATCCCAGGTC
AGTGTGCACA TAGGCATGGA TGACAGGTGG CGGGACTCCC CCAGGGCCAC ACCATGGGAC
CAGGTCAGCT ATGTCAGCCA GGTGTCGCTG TCCTCCCTGA CGTCCGACAA GCCATCTCGG
CACAGCGCTG CAGCAGACGA TGATGGGGAC AAGTGGTCTC TGCTCCTGAA TGGCAGGGAT
GAGGAGCAGT ACATCTGA

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

CloneID OHu22611
Clone ID Related Accession (Same CDS sequence) NM_001005918
Accession Version NM_001005918.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3777bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform b
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA125470.1, BC143976.1, AL162377.10 and BU682287.1. On Jul 30, 2011 this sequence version replaced gi:55743072. Transcript Variant: This variant (2) has multiple differences in the coding region but maintains the reading frame, compared to variant 1. This variant encodes isoform 2, which is shorter than isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. 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## 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
3601
3661
3721
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGA GCAAAACCTC AGAAGCCCTG GCTAAACTCA TGTCTCTCCA AGCCACAGAA
GCCACCGTTG TGACCCTTGG TGAGGACAAT TTAATCATCA GGGAGGAGCA AGTCCCCATG
GAGCTGGTGC AGCGGGGCGA TATCGTCAAG GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT
GGGAAAGTCC TGGAAGGCAA TACCATGGCT GATGAGTCCC TCATCACAGG AGAAGCCATG
CCAGTCACTA AGAAACCCGG AAGCACTGTA ATTGCGGGGT CTATAAATGC ACATGGCTCT
GTGCTCATTA AAGCTACCCA CGTGGGCAAT GACACCACTT TGGCTCAGAT TGTGAAACTG
GTGGAAGAGG CTCAGATGTC AAAGAACCCC AACAAGCACA TCTCCCAGAC AGAGGTGATC
ATCCGGTTTG CTTTCCAGAC GTCCATCACG GTGCTGTGCA TTGCCTGCCC CTGCTCCCTG
GGGCTGGCCA CGCCCACGGC TGTCATGGTG GGCACCGGGG TGGCCGCGCA GAACGGCATC
CTCATCAAGG GAGGCAAGCC CCTGGAGATG GCGCACAAGA TAAAGACTGT GATGTTTGAC
AAGACTGGCA CCATTACCCA TGGCGTCCCC AGGGTCATGC GGGTGCTCCT GCTGGGGGAT
GTGGCCACAC TGCCCCTCAG GAAGGTTCTG GCTGTGGTGG GGACTGCGGA GGCCAGCAGT
GAACACCCCT TGGGCGTGGC AGTCACCAAA TACTGTAAAG AGGAACTTGG AACAGAGACC
TTGGGATACT GCACGGACTT CCAGGCAGTG CCAGGCTGTG GAATTGGGTG CAAAGTCAGC
AACGTGGAAG GCATCCTGGC CCACAGTGAG CGCCCTTTGA GTGCACCGGC CAGTCACCTG
AATGAGGCTG GCAGCCTTCC CGCAGAAAAA GATGCAGTCC CCCAGACCTT CTCTGTGCTG
ATTGGAAACC GTGAGTGGCT GAGGCGCAAC GGTTTAACCA TTTCTAGCGA TGTCAGTGAC
GCTATGACAG ACCACGAGAT GAAAGGACAG ACAGCCATCC TGGTGGCTAT TGACGGTGTG
CTCTGTGGGA TGATCGCAAT CGCAGACGCT GTCAAGCAGG AGGCTGCCCT GGCTGTGCAC
ACGCTGCAGA GCATGGGTGT GGACGTGGTT CTGATCACGG GGGACAACCG GAAGACAGCC
AGAGCTATTG CCACCCAGGT TGGCATCAAC AAAGTCTTTG CAGAGGTGCT GCCTTCGCAC
AAGGTGGCCA AGGTCCAGGA GCTCCAGAAT AAAGGGAAGA AAGTCGCCAT GGTGGGGGAT
GGGGTCAATG ACTCCCCGGC CTTGGCCCAG GCAGACATGG GTGTGGCCAT TGGCACCGGC
ACGGATGTGG CCATCGAGGC AGCCGACGTC GTCCTTATCA GAAATGATTT GCTGGATGTG
GTGGCTAGCA TTCACCTTTC CAAGAGGACT GTCCGAAGGA TACGCATCAA CCTGGTCCTG
GCACTGATTT ATAACCTGGT TGGGATACCC ATTGCAGCAG GTGTCTTCAT GCCCATCGGC
ATTGTGCTGC AGCCCTGGAT GGGCTCAGCG GCCATGGCAG CCTCCTCTGT GTCTGTGGTG
CTCTCATCCC TGCAGCTCAA GTGCTATAAG AAGCCTGACC TGGAGAGGTA TGAGGCACAG
GCGCATGGCC ACATGAAGCC CCTGACGGCA TCCCAGGTCA GTGTGCACAT AGGCATGGAT
GACAGGTGGC GGGACTCCCC CAGGGCCACA CCATGGGACC AGGTCAGCTA TGTCAGCCAG
GTGTCGCTGT CCTCCCTGAC GTCCGACAAG CCATCTCGGC ACAGCGCTGC AGCAGACGAT
GATGGGGACA AGTGGTCTCT GCTCCTGAAT GGCAGGGATG AGGAGCAGTA CATCTGA

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

RefSeq NP_001005918.1
CDS158..3934
Misc Feature(1)338..529(+)
Misc Feature(2)356..373(+)
Misc Feature(3)593..784(+)
Misc Feature(4)611..628(+)
Misc Feature(5)935..1111(+)
Misc Feature(6)953..970(+)
Misc Feature(7)1235..3601(+)
Misc Feature(8)1244..1432(+)
Misc Feature(9)1259..1276(+)
Misc Feature(10)1631..1819(+)
Misc Feature(11)1646..1663(+)
Misc Feature(12)1856..2029(+)
Misc Feature(13)1874..1891(+)
Misc Feature(14)2018..2584(+)
Misc Feature(15)3071..3388(+)
Misc Feature(16)3083..3199(+)
Misc Feature(17)3083..3100(+)
Misc Feature(18)3194..3196(+)
Exon (1)1..208
Gene:ATP7B
Gene Synonym:
Exon (2)209..1442
Gene:ATP7B
Gene Synonym:
Exon (3)1443..1700
Gene:ATP7B
Gene Synonym:
Exon (4)1701..1864
Gene:ATP7B
Gene Synonym:
Exon (5)1865..2026
Gene:ATP7B
Gene Synonym:
Exon (6)2027..2118
Gene:ATP7B
Gene Synonym:
Exon (7)2119..2246
Gene:ATP7B
Gene Synonym:
Exon (8)2247..2401
Gene:ATP7B
Gene Synonym:
Exon (9)2402..2596
Gene:ATP7B
Gene Synonym:
Exon (10)2597..2779
Gene:ATP7B
Gene Synonym:
Exon (11)2780..2948
Gene:ATP7B
Gene Synonym:
Exon (12)2949..3092
Gene:ATP7B
Gene Synonym:
Exon (13)3093..3235
Gene:ATP7B
Gene Synonym:
Exon (14)3236..3439
Gene:ATP7B
Gene Synonym:
Exon (15)3440..3557
Gene:ATP7B
Gene Synonym:
Exon (16)3558..3660
Gene:ATP7B
Gene Synonym:
Exon (17)3661..6021
Gene:ATP7B
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001005918
Organism Homo sapiens (human)
Definition Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001005918

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
3661
3721
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGTAAGTCT TGCGTCTTGA ATATTGAAGA AAATATTGGC
CAGCTCCTAG GGGTTCAAAG TATTCAAGTG TCCTTGGAGA ACAAAACTGC CCAAGTAAAG
TATGACCCTT CTTGTACCAG CCCAGTGGCT CTGCAGAGGG CTATCGAGGC ACTTCCACCT
GGGAATTTTA AAGTTTCTCT TCCTGATGGA GCCGAAGGGA GTGGGACAGA TCACAGGTCT
TCCAGTTCTC ATTCCCCTGG CTCCCCACCG AGAAACCAGG TCCAGGGCAC ATGCAGTACC
ACTCTGATTG CCATTGCCGG CATGACCTGT GCATCCTGTG TCCATTCCAT TGAAGGCATG
ATCTCCCAAC TGGAAGGGGT GCAGCAAATA TCGGTGTCTT TGGCCGAAGG GACTGCAACA
GTTCTTTATA ATCCCTCTGT AATTAGCCCA GAAGAACTCA GAGCTGCTAT AGAAGACATG
GGATTTGAGG CTTCAGTCGT TTCTGAAAGC TGTTCTACTA ACCCTCTTGG AAACCACAGT
GCTGGGAATT CCATGGTGCA AACTACAGAT GGTACACCTA CATCTGTGCA GGAAGTGGCT
CCCCACACTG GGAGGCTCCC TGCAAACCAT GCCCCGGACA TCTTGGCAAA GTCCCCACAA
TCAACCAGAG CAGTGGCACC GCAGAAGTGC TTCTTACAGA TCAAAGGCAT GACCTGTGCA
TCCTGTGTGT CTAACATAGA AAGGAATCTG CAGAAAGAAG CTGGTGTTCT CTCCGTGTTG
GTTGCCTTGA TGGCAGGAAA GGCAGAGATC AAGTATGACC CAGAGGTCAT CCAGCCCCTC
GAGATAGCTC AGTTCATCCA GGACCTGGGT TTTGAGGCAG CAGTCATGGA GGACTACGCA
GGCTCCGATG GCAACATTGA GCTGACAATC ACAGGGATGA CCTGCGCGTC CTGTGTCCAC
AACATAGAGT CCAAACTCAC GAGGACAAAT GGCATCACTT ATGCCTCCGT TGCCCTTGCC
ACCAGCAAAG CCCTTGTTAA GTTTGACCCG GAAATTATCG GTCCACGGGA TATTATCAAA
ATTATTGAGA GCAAAACCTC AGAAGCCCTG GCTAAACTCA TGTCTCTCCA AGCCACAGAA
GCCACCGTTG TGACCCTTGG TGAGGACAAT TTAATCATCA GGGAGGAGCA AGTCCCCATG
GAGCTGGTGC AGCGGGGCGA TATCGTCAAG GTGGTCCCTG GGGGAAAGTT TCCAGTGGAT
GGGAAAGTCC TGGAAGGCAA TACCATGGCT GATGAGTCCC TCATCACAGG AGAAGCCATG
CCAGTCACTA AGAAACCCGG AAGCACTGTA ATTGCGGGGT CTATAAATGC ACATGGCTCT
GTGCTCATTA AAGCTACCCA CGTGGGCAAT GACACCACTT TGGCTCAGAT TGTGAAACTG
GTGGAAGAGG CTCAGATGTC AAAGAACCCC AACAAGCACA TCTCCCAGAC AGAGGTGATC
ATCCGGTTTG CTTTCCAGAC GTCCATCACG GTGCTGTGCA TTGCCTGCCC CTGCTCCCTG
GGGCTGGCCA CGCCCACGGC TGTCATGGTG GGCACCGGGG TGGCCGCGCA GAACGGCATC
CTCATCAAGG GAGGCAAGCC CCTGGAGATG GCGCACAAGA TAAAGACTGT GATGTTTGAC
AAGACTGGCA CCATTACCCA TGGCGTCCCC AGGGTCATGC GGGTGCTCCT GCTGGGGGAT
GTGGCCACAC TGCCCCTCAG GAAGGTTCTG GCTGTGGTGG GGACTGCGGA GGCCAGCAGT
GAACACCCCT TGGGCGTGGC AGTCACCAAA TACTGTAAAG AGGAACTTGG AACAGAGACC
TTGGGATACT GCACGGACTT CCAGGCAGTG CCAGGCTGTG GAATTGGGTG CAAAGTCAGC
AACGTGGAAG GCATCCTGGC CCACAGTGAG CGCCCTTTGA GTGCACCGGC CAGTCACCTG
AATGAGGCTG GCAGCCTTCC CGCAGAAAAA GATGCAGTCC CCCAGACCTT CTCTGTGCTG
ATTGGAAACC GTGAGTGGCT GAGGCGCAAC GGTTTAACCA TTTCTAGCGA TGTCAGTGAC
GCTATGACAG ACCACGAGAT GAAAGGACAG ACAGCCATCC TGGTGGCTAT TGACGGTGTG
CTCTGTGGGA TGATCGCAAT CGCAGACGCT GTCAAGCAGG AGGCTGCCCT GGCTGTGCAC
ACGCTGCAGA GCATGGGTGT GGACGTGGTT CTGATCACGG GGGACAACCG GAAGACAGCC
AGAGCTATTG CCACCCAGGT TGGCATCAAC AAAGTCTTTG CAGAGGTGCT GCCTTCGCAC
AAGGTGGCCA AGGTCCAGGA GCTCCAGAAT AAAGGGAAGA AAGTCGCCAT GGTGGGGGAT
GGGGTCAATG ACTCCCCGGC CTTGGCCCAG GCAGACATGG GTGTGGCCAT TGGCACCGGC
ACGGATGTGG CCATCGAGGC AGCCGACGTC GTCCTTATCA GAAATGATTT GCTGGATGTG
GTGGCTAGCA TTCACCTTTC CAAGAGGACT GTCCGAAGGA TACGCATCAA CCTGGTCCTG
GCACTGATTT ATAACCTGGT TGGGATACCC ATTGCAGCAG GTGTCTTCAT GCCCATCGGC
ATTGTGCTGC AGCCCTGGAT GGGCTCAGCG GCCATGGCAG CCTCCTCTGT GTCTGTGGTG
CTCTCATCCC TGCAGCTCAA GTGCTATAAG AAGCCTGACC TGGAGAGGTA TGAGGCACAG
GCGCATGGCC ACATGAAGCC CCTGACGGCA TCCCAGGTCA GTGTGCACAT AGGCATGGAT
GACAGGTGGC GGGACTCCCC CAGGGCCACA CCATGGGACC AGGTCAGCTA TGTCAGCCAG
GTGTCGCTGT CCTCCCTGAC GTCCGACAAG CCATCTCGGC ACAGCGCTGC AGCAGACGAT
GATGGGGACA AGTGGTCTCT GCTCCTGAAT GGCAGGGATG AGGAGCAGTA CATCTGA

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

CloneID OHu22960
Clone ID Related Accession (Same CDS sequence) NM_001243182
Accession Version NM_001243182.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4065bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product copper-transporting ATPase 2 isoform c
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA125470.1, DQ015922.1, BC143976.1, AL162377.10 and BU682287.1. Transcript Variant: This variant (3) lacks an in-frame segment in the coding region, compared to variant 1. The resulting isoform (c) lacks an internal segment, compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. 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 :: DQ015922.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-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
3661
3721
3781
3841
3901
3961
4021
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGCATGATC TCCCAACTGG AAGGGGTGCA GCAAATATCG
GTGTCTTTGG CCGAAGGGAC TGCAACAGTT CTTTATAATC CCTCTGTAAT TAGCCCAGAA
GAACTCAGAG CTGCTATAGA AGACATGGGA TTTGAGGCTT CAGTCGTTTC TGAAAGCTGT
TCTACTAACC CTCTTGGAAA CCACAGTGCT GGGAATTCCA TGGTGCAAAC TACAGATGGT
ACACCTACAT CTGTGCAGGA AGTGGCTCCC CACACTGGGA GGCTCCCTGC AAACCATGCC
CCGGACATCT TGGCAAAGTC CCCACAATCA ACCAGAGCAG TGGCACCGCA GAAGTGCTTC
TTACAGATCA AAGGCATGAC CTGTGCATCC TGTGTGTCTA ACATAGAAAG GAATCTGCAG
AAAGAAGCTG GTGTTCTCTC CGTGTTGGTT GCCTTGATGG CAGGAAAGGC AGAGATCAAG
TATGACCCAG AGGTCATCCA GCCCCTCGAG ATAGCTCAGT TCATCCAGGA CCTGGGTTTT
GAGGCAGCAG TCATGGAGGA CTACGCAGGC TCCGATGGCA ACATTGAGCT GACAATCACA
GGGATGACCT GCGCGTCCTG TGTCCACAAC ATAGAGTCCA AACTCACGAG GACAAATGGC
ATCACTTATG CCTCCGTTGC CCTTGCCACC AGCAAAGCCC TTGTTAAGTT TGACCCGGAA
ATTATCGGTC CACGGGATAT TATCAAAATT ATTGAGGAAA TTGGCTTTCA TGCTTCCCTG
GCCCAGAGAA ACCCCAACGC TCATCACTTG GACCACAAGA TGGAAATAAA GCAGTGGAAG
AAGTCTTTCC TGTGCAGCCT GGTGTTTGGC ATCCCTGTCA TGGCCTTAAT GATCTATATG
CTGATACCCA GCAACGAGCC CCACCAGTCC ATGGTCCTGG ACCACAACAT CATTCCAGGA
CTGTCCATTC TAAATCTCAT CTTCTTTATC TTGTGTACCT TTGTCCAGCT CCTCGGTGGG
TGGTACTTCT ACGTTCAGGC CTACAAATCT CTGAGACACA GGTCAGCCAA CATGGACGTG
CTCATCGTCC TGGCCACAAG CATTGCTTAT GTTTATTCTC TGGTCATCCT GGTGGTTGCT
GTGGCTGAGA AGGCGGAGAG GAGCCCTGTG ACATTCTTCG ACACGCCCCC CATGCTCTTT
GTGTTCATTG CCCTGGGCCG GTGGCTGGAA CACTTGGCAA AGAGCAAAAC CTCAGAAGCC
CTGGCTAAAC TCATGTCTCT CCAAGCCACA GAAGCCACCG TTGTGACCCT TGGTGAGGAC
AATTTAATCA TCAGGGAGGA GCAAGTCCCC ATGGAGCTGG TGCAGCGGGG CGATATCGTC
AAGGTGGTCC CTGGGGGAAA GTTTCCAGTG GATGGGAAAG TCCTGGAAGG CAATACCATG
GCTGATGAGT CCCTCATCAC AGGAGAAGCC ATGCCAGTCA CTAAGAAACC CGGAAGCACT
GTAATTGCGG GGTCTATAAA TGCACATGGC TCTGTGCTCA TTAAAGCTAC CCACGTGGGC
AATGACACCA CTTTGGCTCA GATTGTGAAA CTGGTGGAAG AGGCTCAGAT GTCAAAGGCA
CCCATTCAGC AGCTGGCTGA CCGGTTTAGT GGATATTTTG TCCCATTTAT CATCATCATG
TCAACTTTGA CGTTGGTGGT ATGGATTGTA ATCGGTTTTA TCGATTTTGG TGTTGTTCAG
AGATACTTTC CTAACCCCAA CAAGCACATC TCCCAGACAG AGGTGATCAT CCGGTTTGCT
TTCCAGACGT CCATCACGGT GCTGTGCATT GCCTGCCCCT GCTCCCTGGG GCTGGCCACG
CCCACGGCTG TCATGGTGGG CACCGGGGTG GCCGCGCAGA ACGGCATCCT CATCAAGGGA
GGCAAGCCCC TGGAGATGGC GCACAAGATA AAGACTGTGA TGTTTGACAA GACTGGCACC
ATTACCCATG GCGTCCCCAG GGTCATGCGG GTGCTCCTGC TGGGGGATGT GGCCACACTG
CCCCTCAGGA AGGTTCTGGC TGTGGTGGGG ACTGCGGAGG CCAGCAGTGA ACACCCCTTG
GGCGTGGCAG TCACCAAATA CTGTAAAGAG GAACTTGGAA CAGAGACCTT GGGATACTGC
ACGGACTTCC AGGCAGTGCC AGGCTGTGGA ATTGGGTGCA AAGTCAGCAA CGTGGAAGGC
ATCCTGGCCC ACAGTGAGCG CCCTTTGAGT GCACCGGCCA GTCACCTGAA TGAGGCTGGC
AGCCTTCCCG CAGAAAAAGA TGCAGTCCCC CAGACCTTCT CTGTGCTGAT TGGAAACCGT
GAGTGGCTGA GGCGCAACGG TTTAACCATT TCTAGCGATG TCAGTGACGC TATGACAGAC
CACGAGATGA AAGGACAGAC AGCCATCCTG GTGGCTATTG ACGGTGTGCT CTGTGGGATG
ATCGCAATCG CAGACGCTGT CAAGCAGGAG GCTGCCCTGG CTGTGCACAC GCTGCAGAGC
ATGGGTGTGG ACGTGGTTCT GATCACGGGG GACAACCGGA AGACAGCCAG AGCTATTGCC
ACCCAGGTTG GCATCAACAA AGTCTTTGCA GAGGTGCTGC CTTCGCACAA GGTGGCCAAG
GTCCAGGAGC TCCAGAATAA AGGGAAGAAA GTCGCCATGG TGGGGGATGG GGTCAATGAC
TCCCCGGCCT TGGCCCAGGC AGACATGGGT GTGGCCATTG GCACCGGCAC GGATGTGGCC
ATCGAGGCAG CCGACGTCGT CCTTATCAGA AATGATTTGC TGGATGTGGT GGCTAGCATT
CACCTTTCCA AGAGGACTGT CCGAAGGATA CGCATCAACC TGGTCCTGGC ACTGATTTAT
AACCTGGTTG GGATACCCAT TGCAGCAGGT GTCTTCATGC CCATCGGCAT TGTGCTGCAG
CCCTGGATGG GCTCAGCGGC CATGGCAGCC TCCTCTGTGT CTGTGGTGCT CTCATCCCTG
CAGCTCAAGT GCTATAAGAA GCCTGACCTG GAGAGGTATG AGGCACAGGC GCATGGCCAC
ATGAAGCCCC TGACGGCATC CCAGGTCAGT GTGCACATAG GCATGGATGA CAGGTGGCGG
GACTCCCCCA GGGCCACACC ATGGGACCAG GTCAGCTATG TCAGCCAGGT GTCGCTGTCC
TCCCTGACGT CCGACAAGCC ATCTCGGCAC AGCGCTGCAG CAGACGATGA TGGGGACAAG
TGGTCTCTGC TCCTGAATGG CAGGGATGAG GAGCAGTACA TCTGA

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

RefSeq NP_001230111.1
CDS158..4222
Misc Feature(1)338..529(+)
Misc Feature(2)356..373(+)
Misc Feature(3)593..784(+)
Misc Feature(4)611..628(+)
Misc Feature(5)935..1099(+)
Misc Feature(6)953..961(+)
Misc Feature(7)1298..1486(+)
Misc Feature(8)1313..1330(+)
Misc Feature(9)1520..3889(+)
Misc Feature(10)1523..1714(+)
Misc Feature(11)1541..1558(+)
Misc Feature(12)2129..2872(+)
Misc Feature(13)3359..3676(+)
Misc Feature(14)3371..3487(+)
Misc Feature(15)3371..3388(+)
Misc Feature(16)3482..3484(+)
Exon (1)1..208
Gene:ATP7B
Gene Synonym:
Exon (2)209..959
Gene:ATP7B
Gene Synonym:
Exon (3)960..1109
Gene:ATP7B
Gene Synonym:
Exon (4)1110..1367
Gene:ATP7B
Gene Synonym:
Exon (5)1368..1531
Gene:ATP7B
Gene Synonym:
Exon (6)1532..1693
Gene:ATP7B
Gene Synonym:
Exon (7)1694..1770
Gene:ATP7B
Gene Synonym:
Exon (8)1771..1945
Gene:ATP7B
Gene Synonym:
Exon (9)1946..2179
Gene:ATP7B
Gene Synonym:
Exon (10)2180..2271
Gene:ATP7B
Gene Synonym:
Exon (11)2272..2399
Gene:ATP7B
Gene Synonym:
Exon (12)2400..2554
Gene:ATP7B
Gene Synonym:
Exon (13)2555..2689
Gene:ATP7B
Gene Synonym:
Exon (14)2690..2884
Gene:ATP7B
Gene Synonym:
Exon (15)2885..3067
Gene:ATP7B
Gene Synonym:
Exon (16)3068..3236
Gene:ATP7B
Gene Synonym:
Exon (17)3237..3380
Gene:ATP7B
Gene Synonym:
Exon (18)3381..3523
Gene:ATP7B
Gene Synonym:
Exon (19)3524..3727
Gene:ATP7B
Gene Synonym:
Exon (20)3728..3845
Gene:ATP7B
Gene Synonym:
Exon (21)3846..3948
Gene:ATP7B
Gene Synonym:
Exon (22)3949..6309
Gene:ATP7B
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001243182
Organism Homo sapiens (human)
Definition Homo sapiens ATPase, Cu++ transporting, beta polypeptide (ATP7B), transcript variant 3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001243182

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
3661
3721
3781
3841
3901
3961
4021
ATGCCTGAGC AGGAGAGACA GATCACAGCC AGAGAAGGGG CCAGTCGGAA AATCTTATCT 
AAGCTTTCTT TGCCTACCCG TGCCTGGGAA CCAGCAATGA AGAAGAGTTT TGCTTTTGAC
AATGTTGGCT ATGAAGGTGG TCTGGATGGC CTGGGCCCTT CTTCTCAGGT GGCCACCAGC
ACAGTCAGGA TCTTGGGCAT GACTTGCCAG TCATGTGTGA AGTCCATTGA GGACAGGATT
TCCAATTTGA AAGGCATCAT CAGCATGAAG GTTTCCCTGG AACAAGGCAG TGCCACTGTG
AAATATGTGC CATCGGTTGT GTGCCTGCAA CAGGTTTGCC ATCAAATTGG GGACATGGGC
TTCGAGGCCA GCATTGCAGA AGGAAAGGCA GCCTCCTGGC CCTCAAGGTC CTTGCCTGCC
CAGGAGGCTG TGGTCAAGCT CCGGGTGGAG GGCATGACCT GCCAGTCCTG TGTCAGCTCC
ATTGAAGGCA AGGTCCGGAA ACTGCAAGGA GTAGTGAGAG TCAAAGTCTC ACTCAGCAAC
CAAGAGGCCG TCATCACTTA TCAGCCTTAT CTCATTCAGC CCGAAGACCT CAGGGACCAT
GTAAATGACA TGGGATTTGA AGCTGCCATC AAGAGCAAAG TGGCTCCCTT AAGCCTGGGA
CCAATTGATA TTGAGCGGTT ACAAAGCACT AACCCAAAGA GACCTTTATC TTCTGCTAAC
CAGAATTTTA ATAATTCTGA GACCTTGGGG CACCAAGGAA GCCATGTGGT CACCCTCCAA
CTGAGAATAG ATGGAATGCA TTGCATGATC TCCCAACTGG AAGGGGTGCA GCAAATATCG
GTGTCTTTGG CCGAAGGGAC TGCAACAGTT CTTTATAATC CCTCTGTAAT TAGCCCAGAA
GAACTCAGAG CTGCTATAGA AGACATGGGA TTTGAGGCTT CAGTCGTTTC TGAAAGCTGT
TCTACTAACC CTCTTGGAAA CCACAGTGCT GGGAATTCCA TGGTGCAAAC TACAGATGGT
ACACCTACAT CTGTGCAGGA AGTGGCTCCC CACACTGGGA GGCTCCCTGC AAACCATGCC
CCGGACATCT TGGCAAAGTC CCCACAATCA ACCAGAGCAG TGGCACCGCA GAAGTGCTTC
TTACAGATCA AAGGCATGAC CTGTGCATCC TGTGTGTCTA ACATAGAAAG GAATCTGCAG
AAAGAAGCTG GTGTTCTCTC CGTGTTGGTT GCCTTGATGG CAGGAAAGGC AGAGATCAAG
TATGACCCAG AGGTCATCCA GCCCCTCGAG ATAGCTCAGT TCATCCAGGA CCTGGGTTTT
GAGGCAGCAG TCATGGAGGA CTACGCAGGC TCCGATGGCA ACATTGAGCT GACAATCACA
GGGATGACCT GCGCGTCCTG TGTCCACAAC ATAGAGTCCA AACTCACGAG GACAAATGGC
ATCACTTATG CCTCCGTTGC CCTTGCCACC AGCAAAGCCC TTGTTAAGTT TGACCCGGAA
ATTATCGGTC CACGGGATAT TATCAAAATT ATTGAGGAAA TTGGCTTTCA TGCTTCCCTG
GCCCAGAGAA ACCCCAACGC TCATCACTTG GACCACAAGA TGGAAATAAA GCAGTGGAAG
AAGTCTTTCC TGTGCAGCCT GGTGTTTGGC ATCCCTGTCA TGGCCTTAAT GATCTATATG
CTGATACCCA GCAACGAGCC CCACCAGTCC ATGGTCCTGG ACCACAACAT CATTCCAGGA
CTGTCCATTC TAAATCTCAT CTTCTTTATC TTGTGTACCT TTGTCCAGCT CCTCGGTGGG
TGGTACTTCT ACGTTCAGGC CTACAAATCT CTGAGACACA GGTCAGCCAA CATGGACGTG
CTCATCGTCC TGGCCACAAG CATTGCTTAT GTTTATTCTC TGGTCATCCT GGTGGTTGCT
GTGGCTGAGA AGGCGGAGAG GAGCCCTGTG ACATTCTTCG ACACGCCCCC CATGCTCTTT
GTGTTCATTG CCCTGGGCCG GTGGCTGGAA CACTTGGCAA AGAGCAAAAC CTCAGAAGCC
CTGGCTAAAC TCATGTCTCT CCAAGCCACA GAAGCCACCG TTGTGACCCT TGGTGAGGAC
AATTTAATCA TCAGGGAGGA GCAAGTCCCC ATGGAGCTGG TGCAGCGGGG CGATATCGTC
AAGGTGGTCC CTGGGGGAAA GTTTCCAGTG GATGGGAAAG TCCTGGAAGG CAATACCATG
GCTGATGAGT CCCTCATCAC AGGAGAAGCC ATGCCAGTCA CTAAGAAACC CGGAAGCACT
GTAATTGCGG GGTCTATAAA TGCACATGGC TCTGTGCTCA TTAAAGCTAC CCACGTGGGC
AATGACACCA CTTTGGCTCA GATTGTGAAA CTGGTGGAAG AGGCTCAGAT GTCAAAGGCA
CCCATTCAGC AGCTGGCTGA CCGGTTTAGT GGATATTTTG TCCCATTTAT CATCATCATG
TCAACTTTGA CGTTGGTGGT ATGGATTGTA ATCGGTTTTA TCGATTTTGG TGTTGTTCAG
AGATACTTTC CTAACCCCAA CAAGCACATC TCCCAGACAG AGGTGATCAT CCGGTTTGCT
TTCCAGACGT CCATCACGGT GCTGTGCATT GCCTGCCCCT GCTCCCTGGG GCTGGCCACG
CCCACGGCTG TCATGGTGGG CACCGGGGTG GCCGCGCAGA ACGGCATCCT CATCAAGGGA
GGCAAGCCCC TGGAGATGGC GCACAAGATA AAGACTGTGA TGTTTGACAA GACTGGCACC
ATTACCCATG GCGTCCCCAG GGTCATGCGG GTGCTCCTGC TGGGGGATGT GGCCACACTG
CCCCTCAGGA AGGTTCTGGC TGTGGTGGGG ACTGCGGAGG CCAGCAGTGA ACACCCCTTG
GGCGTGGCAG TCACCAAATA CTGTAAAGAG GAACTTGGAA CAGAGACCTT GGGATACTGC
ACGGACTTCC AGGCAGTGCC AGGCTGTGGA ATTGGGTGCA AAGTCAGCAA CGTGGAAGGC
ATCCTGGCCC ACAGTGAGCG CCCTTTGAGT GCACCGGCCA GTCACCTGAA TGAGGCTGGC
AGCCTTCCCG CAGAAAAAGA TGCAGTCCCC CAGACCTTCT CTGTGCTGAT TGGAAACCGT
GAGTGGCTGA GGCGCAACGG TTTAACCATT TCTAGCGATG TCAGTGACGC TATGACAGAC
CACGAGATGA AAGGACAGAC AGCCATCCTG GTGGCTATTG ACGGTGTGCT CTGTGGGATG
ATCGCAATCG CAGACGCTGT CAAGCAGGAG GCTGCCCTGG CTGTGCACAC GCTGCAGAGC
ATGGGTGTGG ACGTGGTTCT GATCACGGGG GACAACCGGA AGACAGCCAG AGCTATTGCC
ACCCAGGTTG GCATCAACAA AGTCTTTGCA GAGGTGCTGC CTTCGCACAA GGTGGCCAAG
GTCCAGGAGC TCCAGAATAA AGGGAAGAAA GTCGCCATGG TGGGGGATGG GGTCAATGAC
TCCCCGGCCT TGGCCCAGGC AGACATGGGT GTGGCCATTG GCACCGGCAC GGATGTGGCC
ATCGAGGCAG CCGACGTCGT CCTTATCAGA AATGATTTGC TGGATGTGGT GGCTAGCATT
CACCTTTCCA AGAGGACTGT CCGAAGGATA CGCATCAACC TGGTCCTGGC ACTGATTTAT
AACCTGGTTG GGATACCCAT TGCAGCAGGT GTCTTCATGC CCATCGGCAT TGTGCTGCAG
CCCTGGATGG GCTCAGCGGC CATGGCAGCC TCCTCTGTGT CTGTGGTGCT CTCATCCCTG
CAGCTCAAGT GCTATAAGAA GCCTGACCTG GAGAGGTATG AGGCACAGGC GCATGGCCAC
ATGAAGCCCC TGACGGCATC CCAGGTCAGT GTGCACATAG GCATGGATGA CAGGTGGCGG
GACTCCCCCA GGGCCACACC ATGGGACCAG GTCAGCTATG TCAGCCAGGT GTCGCTGTCC
TCCCTGACGT CCGACAAGCC ATCTCGGCAC AGCGCTGCAG CAGACGATGA TGGGGACAAG
TGGTCTCTGC TCCTGAATGG CAGGGATGAG GAGCAGTACA TCTGA

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

 
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