Atp7b cDNA ORF clone, Rattus norvegicus(Norway rat)

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.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
ORa00145 NM_012511.2
Latest version!
Rattus norvegicus ATPase copper transporting beta (Atp7b), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
ORa37508 XM_017599991.1
Latest version!
Rattus norvegicus ATPase copper transporting beta (Atp7b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID ORa00145
    Clone ID Related Accession (Same CDS sequence) NM_012511.2
    Accession Version NM_012511.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4359bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-01
    Organism Rattus norvegicus(Norway rat)
    Product copper-transporting ATPase 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AB017792.1 and AABR07026392.1. On Oct 11, 2007 this sequence version replaced NM_012511.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB017791.1, U08344.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##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
    4081
    4141
    4201
    4261
    4321
    ATGCCTGAAC AGGAGAGAAA GGTCACAGCC AAAGAGGCCA GTCGGAAAAT CTTATCTAAA 
    CTTGCTTTGC CCACACGACC GTGGGGACAA TCAATGAAGC AGAGCTTCGC CTTCGATAAT
    GTTGGCTATG AAGGGGGCCT GGACAGCACC TGCTCATCCT CAACTACCAC CGGTGTGGTT
    AGCATCCTGG GCATGACTTG TCATTCTTGC GTCAAGTCCA TCGAGGACAG GATCTCCAGT
    CTGAAAGGCA TTGTGAGCAT CAAGGTTTCT CTGGAGCAGG GCAGCGCCAC TGTCAAATAT
    GTACCGTCAG TCTTGAACCT GCAGCAGATT TGCCTTCAGA TTGAGGACAT GGGCTTTGAG
    GCCAGCGCTG CAGAAGGAAA GGCTGCCTCC TGGCCTTCCA GGTCTTCCCC AGCCCAGGAG
    GCAGTGGTCA AGCTCCGGGT AGAGGGCATG ACCTGTCAGT CCTGTGTCAG CTCCATCGAA
    GGCAAGATCC GGAAGCTGCA AGGGGTTGTG AGAGTCAAAG TCTCCCTAAG CAACCAAGAG
    GCAGTCATTA CATATCAGCC TTACCTCATT CAACCCGAAG ACCTCAGGGA CCACATCTGC
    GACATGGGAT TCGAAGCTGC CATCAAGAAC AGAACAGCTC CCTTAAGGCT GGGACCAATT
    GATATCAACA AGTTAGAAAG CACTAACCTA AAGAGAGCAG CAGTCCCTCC TATCCAGAAT
    TCCAATCATT TGGAGACCCC GGGGCACCAG CAGAACCACC TGGCCACCCT CCCACTAAGA
    ATAGACGGGA TGCACTGTAA ATCATGTGTT TTGAATATCG AAGGAAATAT AGGCCAACTT
    CCAGGGGTTC AAAATATTCA TGTGTCCTTG GAGAACAAAA CCGCCCAAGT ACAGTATGAC
    TCTTCTTGTA TCACCCCCTT GTTCCTACAG ACAGCCATCG AGGCACTACC ACCTGGGTAC
    TTTAAAGTAT CCCTTCCCGA TGGCCTAGAG AAGGAGAGTG GATCTTCCAG TGTCCCCTCC
    CTTGGCTCCT CCCAGAGACA GCAGGAGCCA GGCCCATGCA GGACTGCGGT ACTCACCATC
    ACTGGCATTC CCCGTGACTC GTCTGTTCAG CCCATGGAAG ACATGCTGTC CCAGATGAAG
    GGTGTGCAGC AAATAGACAT CTCTTTGGCA GAGGGGACTG GAGCAGTTCT TTACGATCCC
    TCAGTAGTTA GCTCGGATGA ACTCCGGACG GCTGTAGAAG ACATGGGCTT TGAGGTGTCA
    GTGAATCCCG AAAACATTAC TACTAACCGT GTCAGCTCTG GGAATTCTGT GCCACAAGCC
    GTGGGTGATT CACCAGGGTC TGTGCAAAAT ATGGCTTCTG ACACTAGAGG ACTCCTCACA
    CACCAAGGCC CTGGCTACTT GTCAGACAGC CCACCATCCC CTGGAGGAAC AGCATCACAG
    AAGTGCTTTG TACAGATCAA AGGCATGACC TGTGCGTCCT GTGTGTCTAA CATAGAAAGG
    AGTCTGCAGA GACATGCCGG TATTCTCTCC GTGTTGGTCG CCTTGATGTC GGGAAAGGCA
    GAGGTCAAGT ATGACCCAGA GGTCATCCAG TCTCCCAGGA TAGCTCAGCT CATCGAGGAC
    CTGGGCTTCG AAGCAGCAAT CATGGAGGAC AACACAGTCT CTGAAGGTGA CATCGAACTG
    ATTATCACAG GGATGACCTG CGCTTCCTGT GTTCACAACA TAGAATCTAA GCTCACAAGG
    ACAAATGGCA TCACTTACGC CTCTGTGGCC CTCGCCACCA GCAAAGCCCA TGTGAAGTTT
    GACCCTGAAA TCATTGGTCC ACGTGACATC ATCAAGGTCA TCGAGGAAAT CGGCTTTCAT
    GCTTCCCTGG CCCACAGAAA CCCCAACGCT CATCACTTGG ACCACAAGAC GGAAATAAAA
    CAGTGGAAGA AATCTTTCCT GTGCAGCCTG GTGTTTGGCA TCCCCGTCAT GGGCTTGATG
    ATCTACATGC TAATCCCCAG CAGTAAGCCC CACGAGACCA TGGTCCTGGA CCACAACATC
    ATTCCAGGAC TGTCCGTTCT AAACCTCATT TTCTTCATCT TGTGTACCTT CGTCCAATTC
    CTGGGTGGGT GGTACTTCTA TGTCCAAGCC TACAAATCGC TGAGACACAA GTCAGCCAAC
    ATGGATGTGC TCATCGTACT CGCCACGACC ATTGCCTATG CCTACTCCCT GGTCATCCTG
    GTGGTTGCCA TAGCTGAAAA GGCGGAGAAG AGCCCAGTGA CCTTCTTTGA CACACCCCCC
    ATGCTCTTCG TCTTCATCGC CCTGGGACGG TGGCTGGAGC ACGTGGCAAA GAGCAAAACT
    TCAGAAGCCC TCGCAAAACT CATGTCACTC CAAGCCACAG AAGCCACAGT TGTGACCCTG
    GGAGAGGACA ACTTAATCCT CAGAGAGGAG CAAGTGCCCA TGGAGCTGGT GCAGCGAGGT
    GACATCATCA AGGTTGTCCC TGGGGGCAAG TTCCCAGTGG ACGGGAAAGT CCTGGAAGGC
    AACACCATGG CAGATGAGTC CCTCATCACA GGAGAGGCCA TGCCTGTCAC CAAGAAACCC
    GGGAGCATAG TGATTGCTGG CTCTATAAAT GCTCATGGCT CTGTGCTCAT TAAAGCTACC
    CATGTGGGCA ATGACACTAC TTTGGCTCAG ATTGTCAAGT TGGTGGAAGA GGCCCAGATG
    TCAAAGGCTC CCATTCAGCA GCTGGCTGAC CGGTTCAGTG GATATTTCGT CCCATTTATC
    ATCATTATTT CAACCTTAAC ATTGGTGGTG TGGATCATCA TCGGCTTTGT CGATTTTGGT
    ATTGTTCAGA AGTACTTTCC TAGCCCTAGC AAGCATATCT CACAGACAGA GGTGATCATC
    CGCTTTGCCT TCCAGACGTC CATCACCGTC CTGTGCATCG CCTGCCCCTG CTCCCTCGGG
    CTGGCCACAC CCACAGCAGT TATGGTGGGC ACTGGGGTGG CTGCCCAGAA CGGCGTCCTA
    ATCAAGGGAG GGAAGCCTCT GGAGATGGCA CACAAGATAA AGACCGTTAT GTTTGACAAA
    ACGGGCACCA TTACCCACGG GGTCCCCAGA GTCATGCGGT TTCTGCTGCT TGTGGACGTG
    GCTACCCTAT CCCTCAGGAA GGTTCTGGCT GTGGTGGGCA CCGCAGAGGC CAGCAGTGAG
    CACCCCTTAG GCGTGGCCGT CACTAAATAC TGCAAAGAGG AACTCGGGAC GGAGACCCTG
    GGGTACAGCA CGGACTTCCA GGCAGTGCCA GGGTGTGGAA TTAGCTGCAA AGTTAGCAAC
    GTGGAAAGTA TCCTGGCTCA CAGAGGTCCA ACCGCTCACC CGATTGGGGT TGGCAACCCT
    CCCATAGGAG AAGGTACAGG TCCCCAGACT TTCTCTGTGC TGATTGGAAA CCGGGAATGG
    ATGAGGCGCA ATGGTTTAAC CATCTCCAGT GACATCAGTG ACGCCATGAC AGATCATGAA
    ATGAAAGGAC AGACGGCCAT CCTGGTGGCC ATTGATGGTG TGCTGTGCGG GATGATCGCC
    ATTGCAGATG CTGTTAAACC AGAGGCTGCC CTGGCTATCT ACACCCTGAA AAGCATGGGC
    GTGGATGTGG CTCTGATCAC AGGGGACAAC CGGAAGACAG CCAGAGCCAT TGCCACTCAG
    GTTGGCATCA ACAAAGTCTT TGCTGAGGTA CTGCCTTCTC ACAAGGTGGC CAAGGTCCAG
    GAGCTTCAGA ACAAAGGGAA AAAAGTCGCC ATGGTGGGAG ACGGGGTGAA CGACTCCCCA
    GCCTTGGCCC AGGCTGACGT GGGCATTGCT ATTGGGACTG GGACAGATGT CGCCATCGAA
    GCAGCCGACG TGGTCCTTAT AAGAAATGAC TTACTGGACG TGGTGGCCAG CATTCATCTC
    TCCAAGAGGA CCGTCCGGAG GATCCGGGTC AATCTGGTGC TGGCGTTGAT TTATAACATG
    GTTGGGATAC CCATTGCTGC AGGTGTCTTC ATGCCCATTG GCATCGTGCT GCAGCCATGG
    ATGGGCTCAG CGGCCATGGC CGCCTCCTCT GTGTCCGTGG TGCTCTCCTC TCTTCAGCTC
    AAGTGCTACA GAAAGCCCGA CCTAGAGAGA TATGAGGCAC AGGCCCATGG ACGCATGAAG
    CCTCTGAGTG CATCCCAAGT CAGCGTGCAC GTTGGCATGG ATGACCGGCG GCGGGATTCT
    CCCAGGGCCA CACCCTGGGA CCAGGTCAGC TACGTGAGCC AAGTCTCTCT GTCTTCCCTG
    ACGTCAGACA GATTGTCTCG GCATGGCGGT ATGGCAGAGG ATGGTGGAGA CAAATGGTCC
    CTGCTCCTGA GTGACAGGGA TGAAGAGCAG TGCATCTGA

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

    RefSeq NP_036643.2
    CDS5..4363
    Translation

    Target ORF information:

    RefSeq Version NM_012511.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus ATPase copper transporting beta (Atp7b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_012511.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGCCTGAAC AGGAGAGAAA GGTCACAGCC AAAGAGGCCA GTCGGAAAAT CTTATCTAAA 
    CTTGCTTTGC CCACACGACC GTGGGGACAA TCAATGAAGC AGAGCTTCGC CTTCGATAAT
    GTTGGCTATG AAGGGGGCCT GGACAGCACC TGCTCATCCT CAACTACCAC CGGTGTGGTT
    AGCATCCTGG GCATGACTTG TCATTCTTGC GTCAAGTCCA TCGAGGACAG GATCTCCAGT
    CTGAAAGGCA TTGTGAGCAT CAAGGTTTCT CTGGAGCAGG GCAGCGCCAC TGTCAAATAT
    GTACCGTCAG TCTTGAACCT GCAGCAGATT TGCCTTCAGA TTGAGGACAT GGGCTTTGAG
    GCCAGCGCTG CAGAAGGAAA GGCTGCCTCC TGGCCTTCCA GGTCTTCCCC AGCCCAGGAG
    GCAGTGGTCA AGCTCCGGGT AGAGGGCATG ACCTGTCAGT CCTGTGTCAG CTCCATCGAA
    GGCAAGATCC GGAAGCTGCA AGGGGTTGTG AGAGTCAAAG TCTCCCTAAG CAACCAAGAG
    GCAGTCATTA CATATCAGCC TTACCTCATT CAACCCGAAG ACCTCAGGGA CCACATCTGC
    GACATGGGAT TCGAAGCTGC CATCAAGAAC AGAACAGCTC CCTTAAGGCT GGGACCAATT
    GATATCAACA AGTTAGAAAG CACTAACCTA AAGAGAGCAG CAGTCCCTCC TATCCAGAAT
    TCCAATCATT TGGAGACCCC GGGGCACCAG CAGAACCACC TGGCCACCCT CCCACTAAGA
    ATAGACGGGA TGCACTGTAA ATCATGTGTT TTGAATATCG AAGGAAATAT AGGCCAACTT
    CCAGGGGTTC AAAATATTCA TGTGTCCTTG GAGAACAAAA CCGCCCAAGT ACAGTATGAC
    TCTTCTTGTA TCACCCCCTT GTTCCTACAG ACAGCCATCG AGGCACTACC ACCTGGGTAC
    TTTAAAGTAT CCCTTCCCGA TGGCCTAGAG AAGGAGAGTG GATCTTCCAG TGTCCCCTCC
    CTTGGCTCCT CCCAGAGACA GCAGGAGCCA GGCCCATGCA GGACTGCGGT ACTCACCATC
    ACTGGCATTC CCCGTGACTC GTCTGTTCAG CCCATGGAAG ACATGCTGTC CCAGATGAAG
    GGTGTGCAGC AAATAGACAT CTCTTTGGCA GAGGGGACTG GAGCAGTTCT TTACGATCCC
    TCAGTAGTTA GCTCGGATGA ACTCCGGACG GCTGTAGAAG ACATGGGCTT TGAGGTGTCA
    GTGAATCCCG AAAACATTAC TACTAACCGT GTCAGCTCTG GGAATTCTGT GCCACAAGCC
    GTGGGTGATT CACCAGGGTC TGTGCAAAAT ATGGCTTCTG ACACTAGAGG ACTCCTCACA
    CACCAAGGCC CTGGCTACTT GTCAGACAGC CCACCATCCC CTGGAGGAAC AGCATCACAG
    AAGTGCTTTG TACAGATCAA AGGCATGACC TGTGCGTCCT GTGTGTCTAA CATAGAAAGG
    AGTCTGCAGA GACATGCCGG TATTCTCTCC GTGTTGGTCG CCTTGATGTC GGGAAAGGCA
    GAGGTCAAGT ATGACCCAGA GGTCATCCAG TCTCCCAGGA TAGCTCAGCT CATCGAGGAC
    CTGGGCTTCG AAGCAGCAAT CATGGAGGAC AACACAGTCT CTGAAGGTGA CATCGAACTG
    ATTATCACAG GGATGACCTG CGCTTCCTGT GTTCACAACA TAGAATCTAA GCTCACAAGG
    ACAAATGGCA TCACTTACGC CTCTGTGGCC CTCGCCACCA GCAAAGCCCA TGTGAAGTTT
    GACCCTGAAA TCATTGGTCC ACGTGACATC ATCAAGGTCA TCGAGGAAAT CGGCTTTCAT
    GCTTCCCTGG CCCACAGAAA CCCCAACGCT CATCACTTGG ACCACAAGAC GGAAATAAAA
    CAGTGGAAGA AATCTTTCCT GTGCAGCCTG GTGTTTGGCA TCCCCGTCAT GGGCTTGATG
    ATCTACATGC TAATCCCCAG CAGTAAGCCC CACGAGACCA TGGTCCTGGA CCACAACATC
    ATTCCAGGAC TGTCCGTTCT AAACCTCATT TTCTTCATCT TGTGTACCTT CGTCCAATTC
    CTGGGTGGGT GGTACTTCTA TGTCCAAGCC TACAAATCGC TGAGACACAA GTCAGCCAAC
    ATGGATGTGC TCATCGTACT CGCCACGACC ATTGCCTATG CCTACTCCCT GGTCATCCTG
    GTGGTTGCCA TAGCTGAAAA GGCGGAGAAG AGCCCAGTGA CCTTCTTTGA CACACCCCCC
    ATGCTCTTCG TCTTCATCGC CCTGGGACGG TGGCTGGAGC ACGTGGCAAA GAGCAAAACT
    TCAGAAGCCC TCGCAAAACT CATGTCACTC CAAGCCACAG AAGCCACAGT TGTGACCCTG
    GGAGAGGACA ACTTAATCCT CAGAGAGGAG CAAGTGCCCA TGGAGCTGGT GCAGCGAGGT
    GACATCATCA AGGTTGTCCC TGGGGGCAAG TTCCCAGTGG ACGGGAAAGT CCTGGAAGGC
    AACACCATGG CAGATGAGTC CCTCATCACA GGAGAGGCCA TGCCTGTCAC CAAGAAACCC
    GGGAGCATAG TGATTGCTGG CTCTATAAAT GCTCATGGCT CTGTGCTCAT TAAAGCTACC
    CATGTGGGCA ATGACACTAC TTTGGCTCAG ATTGTCAAGT TGGTGGAAGA GGCCCAGATG
    TCAAAGGCTC CCATTCAGCA GCTGGCTGAC CGGTTCAGTG GATATTTCGT CCCATTTATC
    ATCATTATTT CAACCTTAAC ATTGGTGGTG TGGATCATCA TCGGCTTTGT CGATTTTGGT
    ATTGTTCAGA AGTACTTTCC TAGCCCTAGC AAGCATATCT CACAGACAGA GGTGATCATC
    CGCTTTGCCT TCCAGACGTC CATCACCGTC CTGTGCATCG CCTGCCCCTG CTCCCTCGGG
    CTGGCCACAC CCACAGCAGT TATGGTGGGC ACTGGGGTGG CTGCCCAGAA CGGCGTCCTA
    ATCAAGGGAG GGAAGCCTCT GGAGATGGCA CACAAGATAA AGACCGTTAT GTTTGACAAA
    ACGGGCACCA TTACCCACGG GGTCCCCAGA GTCATGCGGT TTCTGCTGCT TGTGGACGTG
    GCTACCCTAT CCCTCAGGAA GGTTCTGGCT GTGGTGGGCA CCGCAGAGGC CAGCAGTGAG
    CACCCCTTAG GCGTGGCCGT CACTAAATAC TGCAAAGAGG AACTCGGGAC GGAGACCCTG
    GGGTACAGCA CGGACTTCCA GGCAGTGCCA GGGTGTGGAA TTAGCTGCAA AGTTAGCAAC
    GTGGAAAGTA TCCTGGCTCA CAGAGGTCCA ACCGCTCACC CGATTGGGGT TGGCAACCCT
    CCCATAGGAG AAGGTACAGG TCCCCAGACT TTCTCTGTGC TGATTGGAAA CCGGGAATGG
    ATGAGGCGCA ATGGTTTAAC CATCTCCAGT GACATCAGTG ACGCCATGAC AGATCATGAA
    ATGAAAGGAC AGACGGCCAT CCTGGTGGCC ATTGATGGTG TGCTGTGCGG GATGATCGCC
    ATTGCAGATG CTGTTAAACC AGAGGCTGCC CTGGCTATCT ACACCCTGAA AAGCATGGGC
    GTGGATGTGG CTCTGATCAC AGGGGACAAC CGGAAGACAG CCAGAGCCAT TGCCACTCAG
    GTTGGCATCA ACAAAGTCTT TGCTGAGGTA CTGCCTTCTC ACAAGGTGGC CAAGGTCCAG
    GAGCTTCAGA ACAAAGGGAA AAAAGTCGCC ATGGTGGGAG ACGGGGTGAA CGACTCCCCA
    GCCTTGGCCC AGGCTGACGT GGGCATTGCT ATTGGGACTG GGACAGATGT CGCCATCGAA
    GCAGCCGACG TGGTCCTTAT AAGAAATGAC TTACTGGACG TGGTGGCCAG CATTCATCTC
    TCCAAGAGGA CCGTCCGGAG GATCCGGGTC AATCTGGTGC TGGCGTTGAT TTATAACATG
    GTTGGGATAC CCATTGCTGC AGGTGTCTTC ATGCCCATTG GCATCGTGCT GCAGCCATGG
    ATGGGCTCAG CGGCCATGGC CGCCTCCTCT GTGTCCGTGG TGCTCTCCTC TCTTCAGCTC
    AAGTGCTACA GAAAGCCCGA CCTAGAGAGA TATGAGGCAC AGGCCCATGG ACGCATGAAG
    CCTCTGAGTG CATCCCAAGT CAGCGTGCAC GTTGGCATGG ATGACCGGCG GCGGGATTCT
    CCCAGGGCCA CACCCTGGGA CCAGGTCAGC TACGTGAGCC AAGTCTCTCT GTCTTCCCTG
    ACGTCAGACA GATTGTCTCG GCATGGCGGT ATGGCAGAGG ATGGTGGAGA CAAATGGTCC
    CTGCTCCTGA GTGACAGGGA TGAAGAGCAG TGCATCTGA

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

    CloneID ORa37508
    Clone ID Related Accession (Same CDS sequence) XM_017599991.1
    Accession Version XM_017599991.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4542bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product copper-transporting ATPase 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005115.4) 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 :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    4441
    4501
    ATGGAGAAAG CTCAGGGCAA GATGCACCAA ACTCCGGAGC AGTCATTCCT GGCAAGTCTG 
    AGTAACCCAC AGGTGACATT GCTGTCCGTG CAGAAGAGGT GCACCTTCAG GAGGAGCTCC
    GGGCTTGGGA GCTTGGCCAG ATCGGACTCT TCAGACGAGA AAGATCCTCC CCAGCCAGAG
    GAAGAATCAT CACCGGGTGT TTTAGCTAGA ACCCCGGAAA GGAGGTCCCA GATCTTATCT
    AAACTTGCTT TGCCCACACG ACCGTGGGGA CAATCAATGA AGCAGAGCTT CGCCTTCGAT
    AATGTTGGCT ATGAAGGGGG CCTGGACAGC ACCTGCTCAT CCTCAACTAC CACCGGTGTG
    GTTAGCATCC TGGGCATGAC TTGTCATTCT TGCGTCAAGT CCATCGAGGA CAGGATCTCC
    AGTCTGAAAG GCATTGTGAG CATCAAGGTT TCTCTGGAGC AGGGCAGCGC CACTGTCAAA
    TATGTACCGT CAGTCTTGAA CCTGCAGCAG ATTTGCCTTC AGATTGAGGA CATGGGCTTT
    GAGGCCAGCG CTGCAGAAGG AAAGGCTGCC TCCTGGCCTT CCAGGTCTTC CCCAGCCCAG
    GAGGCAGTGG TCAAGCTCCG GGTAGAGGGC ATGACCTGTC AGTCCTGTGT CAGCTCCATC
    GAAGGCAAGA TCCGGAAGCT GCAAGGGGTT GTGAGAGTCA AAGTCTCCCT AAGCAACCAA
    GAGGCAGTCA TTACATATCA GCCTTACCTC ATTCAACCCG AAGACCTCAG GGACCACATC
    TGCGACATGG GATTCGAAGC TGCCATCAAG AACAGAACAG CTCCCTTAAG GCTGGGACCA
    ATTGATATCA ACAAGTTAGA AAGCACTAAC CTAAAGAGAG CAGCAGTCCC TCCTATCCAG
    AATTCCAATC ATTTGGAGAC CCCGGGGCAC CAGCAGAACC ACCTGGCCAC CCTCCCACTA
    AGAATAGACG GGATGCACTG TAAATCATGT GTTTTGAATA TCGAAGGAAA TATAGGCCAA
    CTTCCAGGGG TTCAAAATAT TCATGTGTCC TTGGAGAACA AAACCGCCCA AGTACAGTAT
    GACTCTTCTT GTATCACCCC CTTGTTCCTA CAGACAGCCA TCGAGGCACT ACCACCTGGG
    TACTTTAAAG TATCCCTTCC CGATGGCCTA GAGAAGGAGA GTGGATCTTC CAGTGTCCCC
    TCCCTTGGCT CCTCCCAGAG ACAGCAGGAG CCAGGCCCAT GCAGGACTGC GGTACTCACC
    ATCACTGGCA TTCCCCGTGA CTCGTCTGTT CAGCCCATGG AAGACATGCT GTCCCAGATG
    AAGGGTGTGC AGCAAATAGA CATCTCTTTG GCAGAGGGGA CTGGAGCAGT TCTTTACGAT
    CCCTCAGTAG TTAGCTCGGA TGAACTCCGG ACGGCTGTAG AAGACATGGG CTTTGAGGTG
    TCAGTGAATC CCGAAAACAT TACTACTAAC CGTGTCAGCT CTGGGAATTC TGTGCCACAA
    GCCGTGGGTG ATTCACCAGG GTCTGTGCAA AATATGGCTT CTGACACTAG AGGACTCCTC
    ACACACCAAG GCCCTGGCTA CTTGTCAGAC AGCCCACCAT CCCCTGGAGG AACAGCATCA
    CAGAAGTGCT TTGTACAGAT CAAAGGCATG ACCTGTGCGT CCTGTGTGTC TAACATAGAA
    AGGAGTCTGC AGAGACATGC CGGTATTCTC TCCGTGTTGG TCGCCTTGAT GTCGGGAAAG
    GCAGAGGTCA AGTATGACCC AGAGGTCATC CAGTCTCCCA GGATAGCTCA GCTCATCGAG
    GACCTGGGCT TCGAAGCAGC AATCATGGAG GACAACACAG TCTCTGAAGG TGACATCGAA
    CTGATTATCA CAGGGATGAC CTGCGCTTCC TGTGTTCACA ACATAGAATC TAAGCTCACA
    AGGACAAATG GCATCACTTA CGCCTCTGTG GCCCTCGCCA CCAGCAAAGC CCATGTGAAG
    TTTGACCCTG AAATCATTGG TCCACGTGAC ATCATCAAGG TCATCGAGGA AATCGGCTTT
    CATGCTTCCC TGGCCCACAG AAACCCCAAC GCTCATCACT TGGACCACAA GACGGAAATA
    AAACAGTGGA AGAAATCTTT CCTGTGCAGC CTGGTGTTTG GCATCCCCGT CATGGGCTTG
    ATGATCTACA TGCTAATCCC CAGCAGTAAG CCCCACGAGA CCATGGTCCT GGACCACAAC
    ATCATTCCAG GACTGTCCGT TCTAAACCTC ATTTTCTTCA TCTTGTGTAC CTTCGTCCAA
    TTCCTGGGTG GGTGGTACTT CTATGTCCAA GCCTACAAAT CGCTGAGACA CAAGTCAGCC
    AACATGGATG TGCTCATCGT ACTCGCCACG ACCATTGCCT ATGCCTACTC CCTGGTCATC
    CTGGTGGTTG CCATAGCTGA AAAGGCGGAG AAGAGCCCAG TGACCTTCTT TGACACACCC
    CCCATGCTCT TCGTCTTCAT CGCCCTGGGA CGGTGGCTGG AGCACGTGGC AAAGAGCAAA
    ACTTCAGAAG CCCTCGCAAA ACTCATGTCA CTCCAAGCCA CAGAAGCCAC AGTTGTGACC
    CTGGGAGAGG ACAACTTAAT CCTCAGAGAG GAGCAAGTGC CCATGGAGCT GGTGCAGCGA
    GGTGACATCA TCAAGGTTGT CCCTGGGGGC AAGTTCCCAG TGGACGGGAA AGTCCTGGAA
    GGCAACACCA TGGCAGATGA GTCCCTCATC ACAGGAGAGG CCATGCCTGT CACCAAGAAA
    CCCGGGAGCA TAGTGATTGC TGGCTCTATA AATGCTCATG GCTCTGTGCT CATTAAAGCT
    ACCCATGTGG GCAATGACAC TACTTTGGCT CAGATTGTCA AGTTGGTGGA AGAGGCCCAG
    ATGTCAAAGG CTCCCATTCA GCAGCTGGCT GACCGGTTCA GTGGATATTT CGTCCCATTT
    ATCATCATTA TTTCAACCTT AACATTGGTG GTGTGGATCA TCATCGGCTT TGTCGATTTT
    GGTATTGTTC AGAAGTACTT TCCTAGCCCT AGCAAGCATA TCTCACAGAC AGAGGTGATC
    ATCCGCTTTG CCTTCCAGAC GTCCATCACC GTCCTGTGCA TCGCCTGCCC CTGCTCCCTC
    GGGCTGGCCA CACCCACAGC AGTTATGGTG GGCACTGGGG TGGCTGCCCA GAACGGCGTC
    CTAATCAAGG GAGGGAAGCC TCTGGAGATG GCACACAAGA TAAAGACCGT TATGTTTGAC
    AAAACGGGCA CCATTACCCA CGGGGTCCCC AGAGTCATGC GGTTTCTGCT GCTTGTGGAC
    GTGGCTACCC TATCCCTCAG GAAGGTTCTG GCTGTGGTGG GCACCGCAGA GGCCAGCAGT
    GAGCACCCCT TAGGCGTGGC CGTCACTAAA TACTGCAAAG AGGAACTCGG GACGGAGACC
    CTGGGGTACA GCACGGACTT CCAGGCAGTG CCAGGGTGTG GAATTAGCTG CAAAGTTAGC
    AACGTGGAAA GTATCCTGGC TCACAGAGGT CCAACCGCTC ACCCGATTGG GGTTGGCAAC
    CCTCCCATAG GAGAAGGTAC AGGTCCCCAG ACTTTCTCTG TGCTGATTGG AAACCGGGAA
    TGGATGAGGC GCAATGGTTT AACCATCTCC AGTGACATCA GTGACGCCAT GACAGATCAT
    GAAATGAAAG GACAGACGGC CATCCTGGTG GCCATTGATG GTGTGCTGTG CGGGATGATC
    GCCATTGCAG ATGCTGTTAA ACCAGAGGCT GCCCTGGCTA TCTACACCCT GAAAAGCATG
    GGCGTGGATG TGGCTCTGAT CACAGGGGAC AACCGGAAGA CAGCCAGAGC CATTGCCACT
    CAGGTTGGCA TCAACAAAGT CTTTGCTGAG GTACTGCCTT CTCACAAGGT GGCCAAGGTC
    CAGGAGCTTC AGAACAAAGG GAAAAAAGTC GCCATGGTGG GAGACGGGGT GAACGACTCC
    CCAGCCTTGG CCCAGGCTGA CGTGGGCATT GCTATTGGGA CTGGGACAGA TGTCGCCATC
    GAAGCAGCCG ACGTGGTCCT TATAAGAAAT GACTTACTGG ACGTGGTGGC CAGCATTCAT
    CTCTCCAAGA GGACCGTCCG GAGGATCCGG GTCAATCTGG TGCTGGCGTT GATTTATAAC
    ATGGTTGGGA TACCCATTGC TGCAGGTGTC TTCATGCCCA TTGGCATCGT GCTGCAGCCA
    TGGATGGGCT CAGCGGCCAT GGCCGCCTCC TCTGTGTCCG TGGTGCTCTC CTCTCTTCAG
    CTCAAGTGCT ACAGAAAGCC CGACCTAGAG AGATATGAGG CACAGGCCCA TGGACGCATG
    AAGCCTCTGA GTGCATCCCA AGTCAGCGTG CACGTTGGCA TGGATGACCG GCGGCGGGAT
    TCTCCCAGGG CCACACCCTG GGACCAGGTC AGCTACGTGA GCCAAGTCTC TCTGTCTTCC
    CTGACGTCAG ACAGATTGTC TCGGCATGGC GGTATGGCAG AGGATGGTGG AGACAAATGG
    TCCCTGCTCC TGAGTGACAG GGATGAAGAG CAGTGCATCT GA

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

    RefSeq XP_017455480.1
    CDS755..5296
    Translation

    Target ORF information:

    RefSeq Version XM_017599991.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus ATPase copper transporting beta (Atp7b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017599991.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAGAAAG CTCAGGGCAA GATGCACCAA ACTCCGGAGC AGTCATTCCT GGCAAGTCTG 
    AGTAACCCAC AGGTGACATT GCTGTCCGTG CAGAAGAGGT GCACCTTCAG GAGGAGCTCC
    GGGCTTGGGA GCTTGGCCAG ATCGGACTCT TCAGACGAGA AAGATCCTCC CCAGCCAGAG
    GAAGAATCAT CACCGGGTGT TTTAGCTAGA ACCCCGGAAA GGAGGTCCCA GATCTTATCT
    AAACTTGCTT TGCCCACACG ACCGTGGGGA CAATCAATGA AGCAGAGCTT CGCCTTCGAT
    AATGTTGGCT ATGAAGGGGG CCTGGACAGC ACCTGCTCAT CCTCAACTAC CACCGGTGTG
    GTTAGCATCC TGGGCATGAC TTGTCATTCT TGCGTCAAGT CCATCGAGGA CAGGATCTCC
    AGTCTGAAAG GCATTGTGAG CATCAAGGTT TCTCTGGAGC AGGGCAGCGC CACTGTCAAA
    TATGTACCGT CAGTCTTGAA CCTGCAGCAG ATTTGCCTTC AGATTGAGGA CATGGGCTTT
    GAGGCCAGCG CTGCAGAAGG AAAGGCTGCC TCCTGGCCTT CCAGGTCTTC CCCAGCCCAG
    GAGGCAGTGG TCAAGCTCCG GGTAGAGGGC ATGACCTGTC AGTCCTGTGT CAGCTCCATC
    GAAGGCAAGA TCCGGAAGCT GCAAGGGGTT GTGAGAGTCA AAGTCTCCCT AAGCAACCAA
    GAGGCAGTCA TTACATATCA GCCTTACCTC ATTCAACCCG AAGACCTCAG GGACCACATC
    TGCGACATGG GATTCGAAGC TGCCATCAAG AACAGAACAG CTCCCTTAAG GCTGGGACCA
    ATTGATATCA ACAAGTTAGA AAGCACTAAC CTAAAGAGAG CAGCAGTCCC TCCTATCCAG
    AATTCCAATC ATTTGGAGAC CCCGGGGCAC CAGCAGAACC ACCTGGCCAC CCTCCCACTA
    AGAATAGACG GGATGCACTG TAAATCATGT GTTTTGAATA TCGAAGGAAA TATAGGCCAA
    CTTCCAGGGG TTCAAAATAT TCATGTGTCC TTGGAGAACA AAACCGCCCA AGTACAGTAT
    GACTCTTCTT GTATCACCCC CTTGTTCCTA CAGACAGCCA TCGAGGCACT ACCACCTGGG
    TACTTTAAAG TATCCCTTCC CGATGGCCTA GAGAAGGAGA GTGGATCTTC CAGTGTCCCC
    TCCCTTGGCT CCTCCCAGAG ACAGCAGGAG CCAGGCCCAT GCAGGACTGC GGTACTCACC
    ATCACTGGCA TTCCCCGTGA CTCGTCTGTT CAGCCCATGG AAGACATGCT GTCCCAGATG
    AAGGGTGTGC AGCAAATAGA CATCTCTTTG GCAGAGGGGA CTGGAGCAGT TCTTTACGAT
    CCCTCAGTAG TTAGCTCGGA TGAACTCCGG ACGGCTGTAG AAGACATGGG CTTTGAGGTG
    TCAGTGAATC CCGAAAACAT TACTACTAAC CGTGTCAGCT CTGGGAATTC TGTGCCACAA
    GCCGTGGGTG ATTCACCAGG GTCTGTGCAA AATATGGCTT CTGACACTAG AGGACTCCTC
    ACACACCAAG GCCCTGGCTA CTTGTCAGAC AGCCCACCAT CCCCTGGAGG AACAGCATCA
    CAGAAGTGCT TTGTACAGAT CAAAGGCATG ACCTGTGCGT CCTGTGTGTC TAACATAGAA
    AGGAGTCTGC AGAGACATGC CGGTATTCTC TCCGTGTTGG TCGCCTTGAT GTCGGGAAAG
    GCAGAGGTCA AGTATGACCC AGAGGTCATC CAGTCTCCCA GGATAGCTCA GCTCATCGAG
    GACCTGGGCT TCGAAGCAGC AATCATGGAG GACAACACAG TCTCTGAAGG TGACATCGAA
    CTGATTATCA CAGGGATGAC CTGCGCTTCC TGTGTTCACA ACATAGAATC TAAGCTCACA
    AGGACAAATG GCATCACTTA CGCCTCTGTG GCCCTCGCCA CCAGCAAAGC CCATGTGAAG
    TTTGACCCTG AAATCATTGG TCCACGTGAC ATCATCAAGG TCATCGAGGA AATCGGCTTT
    CATGCTTCCC TGGCCCACAG AAACCCCAAC GCTCATCACT TGGACCACAA GACGGAAATA
    AAACAGTGGA AGAAATCTTT CCTGTGCAGC CTGGTGTTTG GCATCCCCGT CATGGGCTTG
    ATGATCTACA TGCTAATCCC CAGCAGTAAG CCCCACGAGA CCATGGTCCT GGACCACAAC
    ATCATTCCAG GACTGTCCGT TCTAAACCTC ATTTTCTTCA TCTTGTGTAC CTTCGTCCAA
    TTCCTGGGTG GGTGGTACTT CTATGTCCAA GCCTACAAAT CGCTGAGACA CAAGTCAGCC
    AACATGGATG TGCTCATCGT ACTCGCCACG ACCATTGCCT ATGCCTACTC CCTGGTCATC
    CTGGTGGTTG CCATAGCTGA AAAGGCGGAG AAGAGCCCAG TGACCTTCTT TGACACACCC
    CCCATGCTCT TCGTCTTCAT CGCCCTGGGA CGGTGGCTGG AGCACGTGGC AAAGAGCAAA
    ACTTCAGAAG CCCTCGCAAA ACTCATGTCA CTCCAAGCCA CAGAAGCCAC AGTTGTGACC
    CTGGGAGAGG ACAACTTAAT CCTCAGAGAG GAGCAAGTGC CCATGGAGCT GGTGCAGCGA
    GGTGACATCA TCAAGGTTGT CCCTGGGGGC AAGTTCCCAG TGGACGGGAA AGTCCTGGAA
    GGCAACACCA TGGCAGATGA GTCCCTCATC ACAGGAGAGG CCATGCCTGT CACCAAGAAA
    CCCGGGAGCA TAGTGATTGC TGGCTCTATA AATGCTCATG GCTCTGTGCT CATTAAAGCT
    ACCCATGTGG GCAATGACAC TACTTTGGCT CAGATTGTCA AGTTGGTGGA AGAGGCCCAG
    ATGTCAAAGG CTCCCATTCA GCAGCTGGCT GACCGGTTCA GTGGATATTT CGTCCCATTT
    ATCATCATTA TTTCAACCTT AACATTGGTG GTGTGGATCA TCATCGGCTT TGTCGATTTT
    GGTATTGTTC AGAAGTACTT TCCTAGCCCT AGCAAGCATA TCTCACAGAC AGAGGTGATC
    ATCCGCTTTG CCTTCCAGAC GTCCATCACC GTCCTGTGCA TCGCCTGCCC CTGCTCCCTC
    GGGCTGGCCA CACCCACAGC AGTTATGGTG GGCACTGGGG TGGCTGCCCA GAACGGCGTC
    CTAATCAAGG GAGGGAAGCC TCTGGAGATG GCACACAAGA TAAAGACCGT TATGTTTGAC
    AAAACGGGCA CCATTACCCA CGGGGTCCCC AGAGTCATGC GGTTTCTGCT GCTTGTGGAC
    GTGGCTACCC TATCCCTCAG GAAGGTTCTG GCTGTGGTGG GCACCGCAGA GGCCAGCAGT
    GAGCACCCCT TAGGCGTGGC CGTCACTAAA TACTGCAAAG AGGAACTCGG GACGGAGACC
    CTGGGGTACA GCACGGACTT CCAGGCAGTG CCAGGGTGTG GAATTAGCTG CAAAGTTAGC
    AACGTGGAAA GTATCCTGGC TCACAGAGGT CCAACCGCTC ACCCGATTGG GGTTGGCAAC
    CCTCCCATAG GAGAAGGTAC AGGTCCCCAG ACTTTCTCTG TGCTGATTGG AAACCGGGAA
    TGGATGAGGC GCAATGGTTT AACCATCTCC AGTGACATCA GTGACGCCAT GACAGATCAT
    GAAATGAAAG GACAGACGGC CATCCTGGTG GCCATTGATG GTGTGCTGTG CGGGATGATC
    GCCATTGCAG ATGCTGTTAA ACCAGAGGCT GCCCTGGCTA TCTACACCCT GAAAAGCATG
    GGCGTGGATG TGGCTCTGAT CACAGGGGAC AACCGGAAGA CAGCCAGAGC CATTGCCACT
    CAGGTTGGCA TCAACAAAGT CTTTGCTGAG GTACTGCCTT CTCACAAGGT GGCCAAGGTC
    CAGGAGCTTC AGAACAAAGG GAAAAAAGTC GCCATGGTGG GAGACGGGGT GAACGACTCC
    CCAGCCTTGG CCCAGGCTGA CGTGGGCATT GCTATTGGGA CTGGGACAGA TGTCGCCATC
    GAAGCAGCCG ACGTGGTCCT TATAAGAAAT GACTTACTGG ACGTGGTGGC CAGCATTCAT
    CTCTCCAAGA GGACCGTCCG GAGGATCCGG GTCAATCTGG TGCTGGCGTT GATTTATAAC
    ATGGTTGGGA TACCCATTGC TGCAGGTGTC TTCATGCCCA TTGGCATCGT GCTGCAGCCA
    TGGATGGGCT CAGCGGCCAT GGCCGCCTCC TCTGTGTCCG TGGTGCTCTC CTCTCTTCAG
    CTCAAGTGCT ACAGAAAGCC CGACCTAGAG AGATATGAGG CACAGGCCCA TGGACGCATG
    AAGCCTCTGA GTGCATCCCA AGTCAGCGTG CACGTTGGCA TGGATGACCG GCGGCGGGAT
    TCTCCCAGGG CCACACCCTG GGACCAGGTC AGCTACGTGA GCCAAGTCTC TCTGTCTTCC
    CTGACGTCAG ACAGATTGTC TCGGCATGGC GGTATGGCAG AGGATGGTGG AGACAAATGG
    TCCCTGCTCC TGAGTGACAG GGATGAAGAG CAGTGCATCT GA

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