ATP7B cDNA ORF clone, Danio rerio(Zebrafish)

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
ODa143026 XM_009302193.3
Latest version!
Danio rerio ATPase, Cu++ transporting, beta polypeptide (Wilson disease) (atp7b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa42365 XM_009302193.2
Latest version!
Danio rerio ATPase, Cu++ transporting, beta polypeptide (Wilson disease) (atp7b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa11546 XM_679323.8
Latest version!
Danio rerio ATPase, Cu++ transporting, beta polypeptide (Wilson disease) (atp7b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa11546 XM_679323.7 Danio rerio ATPase, Cu++ transporting, beta polypeptide (Wilson disease) (atp7b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
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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 ODa143026
    Clone ID Related Accession (Same CDS sequence) XM_009302193.3
    Accession Version XM_009302193.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3999bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product copper-transporting ATPase 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007117.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009302193.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAGAAATC AGACACGACA TAACAACGGG GTCTGCTTCT CGCGATGCGA TGTATGGATC 
    CATCTAGTGT ACAATATGGG CAAGGAGAAT GGAAGTCAAC AGGAGGGTTG GATCCCTACA
    AAACATGCTT TTGATAATTT TGGTTATGAA CCAGATGGAC TGAAGCACAA CTTAGTCCAC
    CAGTTGCCCT CCGAGGAGGG CATGGTGAAG ATCCAGGTGG AGGGAATGAC CTGTCAGTCA
    TGTGTCCGGT CTATTGAAGA ACAAATTGGT CGTCTTGAAG GTGTCATTGG AGTCCAGGTG
    TCTTTGAGCG ATAAAGAAGC CATTTTGAGG TTTAACCCTG CAAAGGTAAC ACCAGAGGAT
    ATGAGAAAGC GTATTGAAGA CATGGGGTTT GATGCTTTAA TTCTGGCTTT GCAAGGTCAA
    ATACAGCCTT TGTCGACTGA TTGGTCTGAG GTGACGTTAG GAGTTGAAGG GATGCATTGC
    GGGTCATGTG TGAAGAACAT AACCGAGACC TTGTCGGGAA TGTTGGGTGT CAACTCTGTA
    TTTGTCTCAT TGGAAAAAGG AAGTGTGGAC CTTAGGTTTG ACCCATCCCT GCTGACACTA
    GAGACGGTTA AAGGGTTCCT GGAGGAGATT CCGCCAGGCA ATTTTAGGGT TTCCATTCCT
    GGTTGGAGCT CTAGATTAAA TTCTGCCAGT ACTCCGACCC AGAGTGTCAC CATTGGAATA
    GAAGGAATGA CATGCAACTC TTGTGTTCAA GCCATTGAGG GGATGATGTC CCAGAGAGCT
    GGGGTATGCT CCATAAAAGT TTACTTACAG GAAAAGAAGG GAATTGTAAC ATTTGACTCC
    ACTGTGACCT GTCCGGAAGA ACTGCGGGCA GAGATTGAAG ACATGGGATT TGAAGCGTGG
    CTGAATCAAG ATTCAGAAAT TTGTGAAGTT TCATCGGTCA GTCAGATGCC AAGTGGTCTG
    AAACACCTGC CCTCACAAAG ACACCCGTCC AAACCTTCAC CAAGCCCAAT CACCAAAGAA
    AACGCTGACG GTACAGGGGA AAGAGAGCTG CGGAAATGTT TCGTTCATGT GACAGGGATG
    ACTTGCGCAT CCTGTGTGTC CAACATTGAA AGAAACCTGG TGAAACATGA AGGTATTAAA
    TCTGTGTTGG TTGCCCTGAT GGCTGGTAAG GCAGAGGTGA AGTATGATCC AGGGCTTCTG
    GACCCAGCAC AGATCGTCCA GCTTATCTCT CACTTAGGGT TTGGTGCTTC AGTGATGGAA
    GAACATTCAG TCCAGGACGG TGTGCTGGAT CTCTCTGTCA CCGGTATGAC ATGTGCATCT
    TGTGTCCACA ACATCGAGAG CAAACTCTTG AGGACAAAGG GAATACAGGA AGCATCCGTC
    GCGCTGGCCA CAAACAAAGC CCATGTGAAG TTTGACTCGG ATTTGGTAGG CTCTCGAGAC
    ATCGTCCGAA TTATTGAGGG TTTGGGTTTT GGTGTGTCTT TAATAAAAAA CGAGGGATTG
    AACAACACGC TGGATCACCA AGAGGAAATT CGGCAATGGA AGCATTCGTT TCTGTTCAGC
    CTTGTGTTTG GGATCCCAGT GATGGGTCTG ATGATCTACA TGATGGTGAT GGACAGTCAG
    CACAAGGAAC ATGGAGGCTC CATGCCTGCG GACCAGAACA TCCTCCCTGG TCTTTCCATT
    ATTAACCTGG CCTTTTTCCT GCTCTGCACT CCTGTTCAGT TTCTAGGTGG TCGGTACTTC
    TACATACAAG CATACCGGTC ACTCAGACAT GGTGTGGCCA ACATGGACGT GCTCATCGTT
    TTGGCCACCA CCATTGCATA TGTGTATTCA TTCACAGTGC TGATCGTAGC CATGATTGAA
    GGAGCCAAAC AGAGTCCTCT GACGTTTTTT GATACGCCGC CGATGCTTTT TGTGTTCATT
    GCTCTTGGAC GCTGGCTGGA GCATGTTGCT AAGAGTAAGA CTTCGGAGGC TCTGGCTAAA
    CTCATGTCTC TTCAGGCTAC AGACGCCACT ATAGTGTCCC TGGGTCCCGA CAACACCATT
    ATCAGAGAGG AGCAGGTGTC TGTGGATCTG GTGCAGAGGG GTGATGTGGT GAAGGTGGCA
    CCCGGGGGAA AGTTCCCTGT CGACGGGAAG GTCATTGAAG GCACGTCTAT GGCAGACGAG
    TCTCTGATCA CAGGAGAGCC GATGCCGGTG ATTAAGAAAG CAGGCAGTTG TGTGATCGCA
    GGCTCGATTA ATGCTCATGG AGCTCTGCTG GTGGAAGCCA CACATGTCGG ATCAGAGACC
    ACACTCAGCC AGATCGTCAA ACTAGTGGAA GAGGCCCAGA CATCAAAGGC ACCCATTCAA
    CAGTTAGCAG ACAAACTGAG TGGCTACTTT GTTCCCTTCA TAGTGGTGAT CTCTATCCTA
    ACAGTGACAG CATGGCTCAT CATTGGCTTT CTGGACTTTG ACGTTGTGTC AAAAAATTTC
    CCTGGTTACA ACCAAAACAT CTCGCGAACA GAGGTGATCG TTCGCTTTGC CTTCCAGGCC
    TCCATCACCG TTTTGTCCAT TGCCTGCCCC TGTTCACTGG GTCTGGCCAC CCCGACTGCT
    GTGATGGTGG GCACAGGGGT GGGGGCACAG AACGGCATCC TCATAAAGGG AGGAGAACCC
    CTGGAAATGG CCCACAAGGT TGGAGCTGTT ATGTTTGATA AGACGGGCAC CATCACTAAT
    GGTGTGCCGC AGGTGACCCG CGTGCTGGTG TTGTGGGACC GAGCGAGGCT TCCTCTGCGG
    ACGGTTCTGG CAGTGGTGGG CACCGCTGAG GCCAGCAGTG AGCACCCGCT GGGCATGGCT
    GTCGCAAAGC ACTGCAAAGA GGAGTTGGGA GCAGAGACTC TGGGCTTCTG CCACGACTTC
    CAGGCTGTTC CCGGCTGTGG AATCAGCTGT AAAGTGTCCA GCGTTGAGGA TCTGCTGCAG
    AACAGCCCAA AGACACAAGA AACAAAAGCA TCCGCTGTGA AACAAACACC ACTCCTCGTC
    ACCCTCCAAG GAGTCACAAC AGATGAGAGC AGCCTGGTGG CAGACACCGA TTCAGGGTCA
    GACAGTCCCT CATACTCTGT GCTGATCGGG AACAGACAGT GGATGCTGAG GAACGGGCTG
    GAGGTCACAG CTGATGTGGA TAATGCTATG AGCAGCCATG AGACTAAAGG ACAGACGGCC
    ATACTTGTGG CCATTGATGG TGTGTTGTGT GCTATGATAG CTGTGGCGGA TACAGTGAAG
    GCAGAGTCGG CTCTGGCTGT TCACACTCTG AGCAGTATGG GAATAGAAGT CTACATGATC
    ACAGGAGACA ACAGACGCAC TGCCCGCGCC ATCGCCACAC AGGTGGGCAT CAGGAAGGTG
    TTTGCTGAAG TCTTGCCCTC TCATAAAGTG GCGAAGGTTC AGGAGTTGCA GGAAAGAGGT
    CTGAAAGTGG CAATGGTGGG TGACGGGGTC AATGACTCGC CCGCTCTTGC CCATGCTGAT
    CTGGGCATCG CCATAGGAAC AGGCACAGAT GTTGCCATTG AGGCAGCAGA TATTGTGCTT
    ATACGGAATG ATTTGCTGGA TGTGGTGGCC AGTATTGAGC TGTCTAAAAA GACAGTCCAA
    AGAATCCGGA TTAATTTTGT GTTCGCTCTC ATTTACAACT TGCTTGGCAT CCCTTTTGCG
    GCAGGTGTGT TCATGCCTCT GGGGCTGGTG CTGCAGCCGT GGATGGGCTC TGCTGCGATG
    GCAGCTTCAT CAGTCTCTGT GGTGCTGTCT TCTCTACTGC TGCGACTTTT CAAGAAGACG
    TCAGTAGAAG AGTACGAGTC CAGAGCTCAG AGTCATAAGC TCAGCCTGAG CCCGTCACAG
    GTCAGCACGC ATGTAGGACT GGAGAGCCGG CGCTGCAGCC CTCTTTCAGA CAGAAAGAGG
    CGGAGCCGAT CAGCCTCAGG CTCCTCCTCC TTCATATCAG GCTCCTTCCA CCCATCCACA
    ACACAACCAT ACAACACCTC AGGAAGGAGC ATTGTGTAG

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

    RefSeq XP_009300468.2
    CDS174..4172
    Translation

    Target ORF information:

    RefSeq Version XM_009302193.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ATPase, Cu++ transporting, beta polypeptide (Wilson disease) (atp7b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009302193.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGAGAAATC AGACACGACA TAACAACGGG GTCTGCTTCT CGCGATGCGA TGTATGGATC 
    CATCTAGTGT ACAATATGGG CAAGGAGAAT GGAAGTCAAC AGGAGGGTTG GATCCCTACA
    AAACATGCTT TTGATAATTT TGGTTATGAA CCAGATGGAC TGAAGCACAA CTTAGTCCAC
    CAGTTGCCCT CCGAGGAGGG CATGGTGAAG ATCCAGGTGG AGGGAATGAC CTGTCAGTCA
    TGTGTCCGGT CTATTGAAGA ACAAATTGGT CGTCTTGAAG GTGTCATTGG AGTCCAGGTG
    TCTTTGAGCG ATAAAGAAGC CATTTTGAGG TTTAACCCTG CAAAGGTAAC ACCAGAGGAT
    ATGAGAAAGC GTATTGAAGA CATGGGGTTT GATGCTTTAA TTCTGGCTTT GCAAGGTCAA
    ATACAGCCTT TGTCGACTGA TTGGTCTGAG GTGACGTTAG GAGTTGAAGG GATGCATTGC
    GGGTCATGTG TGAAGAACAT AACCGAGACC TTGTCGGGAA TGTTGGGTGT CAACTCTGTA
    TTTGTCTCAT TGGAAAAAGG AAGTGTGGAC CTTAGGTTTG ACCCATCCCT GCTGACACTA
    GAGACGGTTA AAGGGTTCCT GGAGGAGATT CCGCCAGGCA ATTTTAGGGT TTCCATTCCT
    GGTTGGAGCT CTAGATTAAA TTCTGCCAGT ACTCCGACCC AGAGTGTCAC CATTGGAATA
    GAAGGAATGA CATGCAACTC TTGTGTTCAA GCCATTGAGG GGATGATGTC CCAGAGAGCT
    GGGGTATGCT CCATAAAAGT TTACTTACAG GAAAAGAAGG GAATTGTAAC ATTTGACTCC
    ACTGTGACCT GTCCGGAAGA ACTGCGGGCA GAGATTGAAG ACATGGGATT TGAAGCGTGG
    CTGAATCAAG ATTCAGAAAT TTGTGAAGTT TCATCGGTCA GTCAGATGCC AAGTGGTCTG
    AAACACCTGC CCTCACAAAG ACACCCGTCC AAACCTTCAC CAAGCCCAAT CACCAAAGAA
    AACGCTGACG GTACAGGGGA AAGAGAGCTG CGGAAATGTT TCGTTCATGT GACAGGGATG
    ACTTGCGCAT CCTGTGTGTC CAACATTGAA AGAAACCTGG TGAAACATGA AGGTATTAAA
    TCTGTGTTGG TTGCCCTGAT GGCTGGTAAG GCAGAGGTGA AGTATGATCC AGGGCTTCTG
    GACCCAGCAC AGATCGTCCA GCTTATCTCT CACTTAGGGT TTGGTGCTTC AGTGATGGAA
    GAACATTCAG TCCAGGACGG TGTGCTGGAT CTCTCTGTCA CCGGTATGAC ATGTGCATCT
    TGTGTCCACA ACATCGAGAG CAAACTCTTG AGGACAAAGG GAATACAGGA AGCATCCGTC
    GCGCTGGCCA CAAACAAAGC CCATGTGAAG TTTGACTCGG ATTTGGTAGG CTCTCGAGAC
    ATCGTCCGAA TTATTGAGGG TTTGGGTTTT GGTGTGTCTT TAATAAAAAA CGAGGGATTG
    AACAACACGC TGGATCACCA AGAGGAAATT CGGCAATGGA AGCATTCGTT TCTGTTCAGC
    CTTGTGTTTG GGATCCCAGT GATGGGTCTG ATGATCTACA TGATGGTGAT GGACAGTCAG
    CACAAGGAAC ATGGAGGCTC CATGCCTGCG GACCAGAACA TCCTCCCTGG TCTTTCCATT
    ATTAACCTGG CCTTTTTCCT GCTCTGCACT CCTGTTCAGT TTCTAGGTGG TCGGTACTTC
    TACATACAAG CATACCGGTC ACTCAGACAT GGTGTGGCCA ACATGGACGT GCTCATCGTT
    TTGGCCACCA CCATTGCATA TGTGTATTCA TTCACAGTGC TGATCGTAGC CATGATTGAA
    GGAGCCAAAC AGAGTCCTCT GACGTTTTTT GATACGCCGC CGATGCTTTT TGTGTTCATT
    GCTCTTGGAC GCTGGCTGGA GCATGTTGCT AAGAGTAAGA CTTCGGAGGC TCTGGCTAAA
    CTCATGTCTC TTCAGGCTAC AGACGCCACT ATAGTGTCCC TGGGTCCCGA CAACACCATT
    ATCAGAGAGG AGCAGGTGTC TGTGGATCTG GTGCAGAGGG GTGATGTGGT GAAGGTGGCA
    CCCGGGGGAA AGTTCCCTGT CGACGGGAAG GTCATTGAAG GCACGTCTAT GGCAGACGAG
    TCTCTGATCA CAGGAGAGCC GATGCCGGTG ATTAAGAAAG CAGGCAGTTG TGTGATCGCA
    GGCTCGATTA ATGCTCATGG AGCTCTGCTG GTGGAAGCCA CACATGTCGG ATCAGAGACC
    ACACTCAGCC AGATCGTCAA ACTAGTGGAA GAGGCCCAGA CATCAAAGGC ACCCATTCAA
    CAGTTAGCAG ACAAACTGAG TGGCTACTTT GTTCCCTTCA TAGTGGTGAT CTCTATCCTA
    ACAGTGACAG CATGGCTCAT CATTGGCTTT CTGGACTTTG ACGTTGTGTC AAAAAATTTC
    CCTGGTTACA ACCAAAACAT CTCGCGAACA GAGGTGATCG TTCGCTTTGC CTTCCAGGCC
    TCCATCACCG TTTTGTCCAT TGCCTGCCCC TGTTCACTGG GTCTGGCCAC CCCGACTGCT
    GTGATGGTGG GCACAGGGGT GGGGGCACAG AACGGCATCC TCATAAAGGG AGGAGAACCC
    CTGGAAATGG CCCACAAGGT TGGAGCTGTT ATGTTTGATA AGACGGGCAC CATCACTAAT
    GGTGTGCCGC AGGTGACCCG CGTGCTGGTG TTGTGGGACC GAGCGAGGCT TCCTCTGCGG
    ACGGTTCTGG CAGTGGTGGG CACCGCTGAG GCCAGCAGTG AGCACCCGCT GGGCATGGCT
    GTCGCAAAGC ACTGCAAAGA GGAGTTGGGA GCAGAGACTC TGGGCTTCTG CCACGACTTC
    CAGGCTGTTC CCGGCTGTGG AATCAGCTGT AAAGTGTCCA GCGTTGAGGA TCTGCTGCAG
    AACAGCCCAA AGACACAAGA AACAAAAGCA TCCGCTGTGA AACAAACACC ACTCCTCGTC
    ACCCTCCAAG GAGTCACAAC AGATGAGAGC AGCCTGGTGG CAGACACCGA TTCAGGGTCA
    GACAGTCCCT CATACTCTGT GCTGATCGGG AACAGACAGT GGATGCTGAG GAACGGGCTG
    GAGGTCACAG CTGATGTGGA TAATGCTATG AGCAGCCATG AGACTAAAGG ACAGACGGCC
    ATACTTGTGG CCATTGATGG TGTGTTGTGT GCTATGATAG CTGTGGCGGA TACAGTGAAG
    GCAGAGTCGG CTCTGGCTGT TCACACTCTG AGCAGTATGG GAATAGAAGT CTACATGATC
    ACAGGAGACA ACAGACGCAC TGCCCGCGCC ATCGCCACAC AGGTGGGCAT CAGGAAGGTG
    TTTGCTGAAG TCTTGCCCTC TCATAAAGTG GCGAAGGTTC AGGAGTTGCA GGAAAGAGGT
    CTGAAAGTGG CAATGGTGGG TGACGGGGTC AATGACTCGC CCGCTCTTGC CCATGCTGAT
    CTGGGCATCG CCATAGGAAC AGGCACAGAT GTTGCCATTG AGGCAGCAGA TATTGTGCTT
    ATACGGAATG ATTTGCTGGA TGTGGTGGCC AGTATTGAGC TGTCTAAAAA GACAGTCCAA
    AGAATCCGGA TTAATTTTGT GTTCGCTCTC ATTTACAACT TGCTTGGCAT CCCTTTTGCG
    GCAGGTGTGT TCATGCCTCT GGGGCTGGTG CTGCAGCCGT GGATGGGCTC TGCTGCGATG
    GCAGCTTCAT CAGTCTCTGT GGTGCTGTCT TCTCTACTGC TGCGACTTTT CAAGAAGACG
    TCAGTAGAAG AGTACGAGTC CAGAGCTCAG AGTCATAAGC TCAGCCTGAG CCCGTCACAG
    GTCAGCACGC ATGTAGGACT GGAGAGCCGG CGCTGCAGCC CTCTTTCAGA CAGAAAGAGG
    CGGAGCCGAT CAGCCTCAGG CTCCTCCTCC TTCATATCAG GCTCCTTCCA CCCATCCACA
    ACACAACCAT ACAACACCTC AGGAAGGAGC ATTGTGTAG

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

    CloneID ODa42365
    Clone ID Related Accession (Same CDS sequence) XM_009302193.2
    Accession Version XM_009302193.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3924bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    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 (NC_007117.6) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009302193.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    ATGGGCAAGG AGAATGGAAG TCAACAGGAG GGTTGGATCC CTACAAAACA TGCTTTTGAT 
    AATTTTGGTT ATGAACCAGA TGGACTGAAG CACAACTTAG TCCACCAGTT GCCCTCCGAG
    GAGGGCATGG TGAAGATCCA GGTGGAGGGA ATGACCTGTC AGTCATGTGT CCGGTCTATT
    GAAGAACAAA TTGGTCGTCT TGAAGGTGTC ATTGGAGTCC AGGTGTCTTT GAGCGATAAA
    GAAGCCATTT TGAGGTTTAA CCCTGCAAAG GTAACACCAG AGGATATGAG AAAGCGTATT
    GAAGACATGG GGTTTGATGC TTTAATTCTG GCTTTGCAAG GTCAAATACA GCCTTTGTCG
    ACTGATTGGT CTGAGGTGAC GTTAGGAGTT GAAGGGATGC ATTGCGGGTC ATGTGTGAAG
    AACATAACCG AGACCTTGTC GGGAATGTTG GGTGTCAACT CTGTATTTGT CTCATTGGAA
    AAAGGAAGTG TGGACCTTAG GTTTGACCCA TCCCTGCTGA CACTAGAGAC GGTTAAAGGG
    TTCCTGGAGG AGATTCCGCC AGGCAATTTT AGGGTTTCCA TTCCTGGTTG GAGCTCTAGA
    TTAAATTCTG CCAGTACTCC GACCCAGAGT GTCACCATTG GAATAGAAGG AATGACATGC
    AACTCTTGTG TTCAAGCCAT TGAGGGGATG ATGTCCCAGA GAGCTGGGGT ATGCTCCATA
    AAAGTTTACT TACAGGAAAA GAAGGGAATT GTAACATTTG ACTCCACTGT GACCTGTCCG
    GAAGAACTGC GGGCAGAGAT TGAAGACATG GGATTTGAAG CGTGGCTGAA TCAAGATTCA
    GAAATTTGTG AAGTTTCATC GGTCAGTCAG ATGCCAAGTG GTCTGAAACA CCTGCCCTCA
    CAAAGACACC CGTCCAAACC TTCACCAAGC CCAATCACCA AAGAAAACGC TGACGGTACA
    GGGGAAAGAG AGCTGCGGAA ATGTTTCGTT CATGTGACAG GGATGACTTG CGCATCCTGT
    GTGTCCAACA TTGAAAGAAA CCTGGTGAAA CATGAAGGTA TTAAATCTGT GTTGGTTGCC
    CTGATGGCTG GTAAGGCAGA GGTGAAGTAT GATCCAGGGC TTCTGGACCC AGCACAGATC
    GTCCAGCTTA TCTCTCACTT AGGGTTTGGT GCTTCAGTGA TGGAAGAACA TTCAGTCCAG
    GACGGTGTGC TGGATCTCTC TGTCACCGGT ATGACATGTG CATCTTGTGT CCACAACATC
    GAGAGCAAAC TCTTGAGGAC AAAGGGAATA CAGGAAGCAT CCGTCGCGCT GGCCACAAAC
    AAAGCCCATG TGAAGTTTGA CTCGGATTTG GTAGGCTCTC GAGACATCGT CCGAATTATT
    GAGGGTTTGG GTTTTGGTGT GTCTTTAATA AAAAACGAGG GATTGAACAA CACGCTGGAT
    CACCAAGAGG AAATTCGGCA ATGGAAGCAT TCGTTTCTGT TCAGCCTTGT GTTTGGGATC
    CCAGTGATGG GTCTGATGAT CTACATGATG GTGATGGACA GTCAGCACAA GGAACATGGA
    GGCTCCATGC CTGCGGACCA GAACATCCTC CCTGGTCTTT CCATTATTAA CCTGGCCTTT
    TTCCTGCTCT GCACTCCTGT TCAGTTTCTA GGTGGTCGGT ACTTCTACAT ACAAGCATAC
    CGGTCACTCA GACATGGTGT GGCCAACATG GACGTGCTCA TCGTTTTGGC CACCACCATT
    GCATATGTGT ATTCATTCAC AGTGCTGATC GTAGCCATGA TTGAAGGAGC CAAACAGAGT
    CCTCTGACGT TTTTTGATAC GCCGCCGATG CTTTTTGTGT TCATTGCTCT TGGACGCTGG
    CTGGAGCATG TTGCTAAGAG TAAGACTTCG GAGGCTCTGG CTAAACTCAT GTCTCTTCAG
    GCTACAGACG CCACTATAGT GTCCCTGGGT CCCGACAACA CCATTATCAG AGAGGAGCAG
    GTGTCTGTGG ATCTGGTGCA GAGGGGTGAT GTGGTGAAGG TGGCACCCGG GGGAAAGTTC
    CCTGTCGACG GGAAGGTCAT TGAAGGCACG TCTATGGCAG ACGAGTCTCT GATCACAGGA
    GAGCCGATGC CGGTGATTAA GAAAGCAGGC AGTTGTGTGA TCGCAGGCTC GATTAATGCT
    CATGGAGCTC TGCTGGTGGA AGCCACACAT GTCGGATCAG AGACCACACT CAGCCAGATC
    GTCAAACTAG TGGAAGAGGC CCAGACATCA AAGGCACCCA TTCAACAGTT AGCAGACAAA
    CTGAGTGGCT ACTTTGTTCC CTTCATAGTG GTGATCTCTA TCCTAACAGT GACAGCATGG
    CTCATCATTG GCTTTCTGGA CTTTGACGTT GTGTCAAAAA ATTTCCCTGG TTACAACCAA
    AACATCTCGC GAACAGAGGT GATCGTTCGC TTTGCCTTCC AGGCCTCCAT CACCGTTTTG
    TCCATTGCCT GCCCCTGTTC ACTGGGTCTG GCCACCCCGA CTGCTGTGAT GGTGGGCACA
    GGGGTGGGGG CACAGAACGG CATCCTCATA AAGGGAGGAG AACCCCTGGA AATGGCCCAC
    AAGGTTGGAG CTGTTATGTT TGATAAGACG GGCACCATCA CTAATGGTGT GCCGCAGGTG
    ACCCGCGTGC TGGTGTTGTG GGACCGAGCG AGGCTTCCTC TGCGGACGGT TCTGGCAGTG
    GTGGGCACCG CTGAGGCCAG CAGTGAGCAC CCGCTGGGCA TGGCTGTCGC AAAGCACTGC
    AAAGAGGAGT TGGGAGCAGA GACTCTGGGC TTCTGCCACG ACTTCCAGGC TGTTCCCGGC
    TGTGGAATCA GCTGTAAAGT GTCCAGCGTT GAGGATCTGC TGCAGAACAG CCCAAAGACA
    CAAGAAACAA AAGCATCCGC TGTGAAACAA ACACCACTCC TCGTCACCCT CCAAGGAGTC
    ACAACAGATG AGAGCAGCCT GGTGGCAGAC ACCGATTCAG GGTCAGACAG TCCCTCATAC
    TCTGTGCTGA TCGGGAACAG ACAGTGGATG CTGAGGAACG GGCTGGAGGT CACAGCTGAT
    GTGGATAATG CTATGAGCAG CCATGAGACT AAAGGACAGA CGGCCATACT TGTGGCCATT
    GATGGTGTGT TGTGTGCTAT GATAGCTGTG GCGGATACAG TGAAGGCAGA GTCGGCTCTG
    GCTGTTCACA CTCTGAGCAG TATGGGAATA GAAGTCTACA TGATCACAGG AGACAACAGA
    CGCACTGCCC GCGCCATCGC CACACAGGTG GGCATCAGGA AGGTGTTTGC TGAAGTCTTG
    CCCTCTCATA AAGTGGCGAA GGTTCAGGAG TTGCAGGAAA GAGGTCTGAA AGTGGCAATG
    GTGGGTGACG GGGTCAATGA CTCGCCCGCT CTTGCCCATG CTGATCTGGG CATCGCCATA
    GGAACAGGCA CAGATGTTGC CATTGAGGCA GCAGATATTG TGCTTATACG GAATGATTTG
    CTGGATGTGG TGGCCAGTAT TGAGCTGTCT AAAAAGACAG TCCAAAGAAT CCGGATTAAT
    TTTGTGTTCG CTCTCATTTA CAACTTGCTT GGCATCCCTT TTGCGGCAGG TGTGTTCATG
    CCTCTGGGGC TGGTGCTGCA GCCGTGGATG GGCTCTGCTG CGATGGCAGC TTCATCAGTC
    TCTGTGGTGC TGTCTTCTCT ACTGCTGCGA CTTTTCAAGA AGACGTCAGT AGAAGAGTAC
    GAGTCCAGAG CTCAGAGTCA TAAGCTCAGC CTGAGCCCGT CACAGGTCAG CACGCATGTA
    GGACTGGAGA GCCGGCGCTG CAGCCCTCTT TCAGACAGAA AGAGGCGGAG CCGATCAGCC
    TCAGGCTCCT CCTCCTTCAT ATCAGGCTCC TTCCACCCAT CCACAACACA ACCATACAAC
    ACCTCAGGAA GGAGCATTGT GTAG

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

    RefSeq XP_009300468.1
    CDS14..3937
    Translation

    Target ORF information:

    RefSeq Version XM_009302193.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ATPase, Cu++ transporting, beta polypeptide (Wilson disease) (atp7b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009302193.2

    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
    ATGGGCAAGG AGAATGGAAG TCAACAGGAG GGTTGGATCC CTACAAAACA TGCTTTTGAT 
    AATTTTGGTT ATGAACCAGA TGGACTGAAG CACAACTTAG TCCACCAGTT GCCCTCCGAG
    GAGGGCATGG TGAAGATCCA GGTGGAGGGA ATGACCTGTC AGTCATGTGT CCGGTCTATT
    GAAGAACAAA TTGGTCGTCT TGAAGGTGTC ATTGGAGTCC AGGTGTCTTT GAGCGATAAA
    GAAGCCATTT TGAGGTTTAA CCCTGCAAAG GTAACACCAG AGGATATGAG AAAGCGTATT
    GAAGACATGG GGTTTGATGC TTTAATTCTG GCTTTGCAAG GTCAAATACA GCCTTTGTCG
    ACTGATTGGT CTGAGGTGAC GTTAGGAGTT GAAGGGATGC ATTGCGGGTC ATGTGTGAAG
    AACATAACCG AGACCTTGTC GGGAATGTTG GGTGTCAACT CTGTATTTGT CTCATTGGAA
    AAAGGAAGTG TGGACCTTAG GTTTGACCCA TCCCTGCTGA CACTAGAGAC GGTTAAAGGG
    TTCCTGGAGG AGATTCCGCC AGGCAATTTT AGGGTTTCCA TTCCTGGTTG GAGCTCTAGA
    TTAAATTCTG CCAGTACTCC GACCCAGAGT GTCACCATTG GAATAGAAGG AATGACATGC
    AACTCTTGTG TTCAAGCCAT TGAGGGGATG ATGTCCCAGA GAGCTGGGGT ATGCTCCATA
    AAAGTTTACT TACAGGAAAA GAAGGGAATT GTAACATTTG ACTCCACTGT GACCTGTCCG
    GAAGAACTGC GGGCAGAGAT TGAAGACATG GGATTTGAAG CGTGGCTGAA TCAAGATTCA
    GAAATTTGTG AAGTTTCATC GGTCAGTCAG ATGCCAAGTG GTCTGAAACA CCTGCCCTCA
    CAAAGACACC CGTCCAAACC TTCACCAAGC CCAATCACCA AAGAAAACGC TGACGGTACA
    GGGGAAAGAG AGCTGCGGAA ATGTTTCGTT CATGTGACAG GGATGACTTG CGCATCCTGT
    GTGTCCAACA TTGAAAGAAA CCTGGTGAAA CATGAAGGTA TTAAATCTGT GTTGGTTGCC
    CTGATGGCTG GTAAGGCAGA GGTGAAGTAT GATCCAGGGC TTCTGGACCC AGCACAGATC
    GTCCAGCTTA TCTCTCACTT AGGGTTTGGT GCTTCAGTGA TGGAAGAACA TTCAGTCCAG
    GACGGTGTGC TGGATCTCTC TGTCACCGGT ATGACATGTG CATCTTGTGT CCACAACATC
    GAGAGCAAAC TCTTGAGGAC AAAGGGAATA CAGGAAGCAT CCGTCGCGCT GGCCACAAAC
    AAAGCCCATG TGAAGTTTGA CTCGGATTTG GTAGGCTCTC GAGACATCGT CCGAATTATT
    GAGGGTTTGG GTTTTGGTGT GTCTTTAATA AAAAACGAGG GATTGAACAA CACGCTGGAT
    CACCAAGAGG AAATTCGGCA ATGGAAGCAT TCGTTTCTGT TCAGCCTTGT GTTTGGGATC
    CCAGTGATGG GTCTGATGAT CTACATGATG GTGATGGACA GTCAGCACAA GGAACATGGA
    GGCTCCATGC CTGCGGACCA GAACATCCTC CCTGGTCTTT CCATTATTAA CCTGGCCTTT
    TTCCTGCTCT GCACTCCTGT TCAGTTTCTA GGTGGTCGGT ACTTCTACAT ACAAGCATAC
    CGGTCACTCA GACATGGTGT GGCCAACATG GACGTGCTCA TCGTTTTGGC CACCACCATT
    GCATATGTGT ATTCATTCAC AGTGCTGATC GTAGCCATGA TTGAAGGAGC CAAACAGAGT
    CCTCTGACGT TTTTTGATAC GCCGCCGATG CTTTTTGTGT TCATTGCTCT TGGACGCTGG
    CTGGAGCATG TTGCTAAGAG TAAGACTTCG GAGGCTCTGG CTAAACTCAT GTCTCTTCAG
    GCTACAGACG CCACTATAGT GTCCCTGGGT CCCGACAACA CCATTATCAG AGAGGAGCAG
    GTGTCTGTGG ATCTGGTGCA GAGGGGTGAT GTGGTGAAGG TGGCACCCGG GGGAAAGTTC
    CCTGTCGACG GGAAGGTCAT TGAAGGCACG TCTATGGCAG ACGAGTCTCT GATCACAGGA
    GAGCCGATGC CGGTGATTAA GAAAGCAGGC AGTTGTGTGA TCGCAGGCTC GATTAATGCT
    CATGGAGCTC TGCTGGTGGA AGCCACACAT GTCGGATCAG AGACCACACT CAGCCAGATC
    GTCAAACTAG TGGAAGAGGC CCAGACATCA AAGGCACCCA TTCAACAGTT AGCAGACAAA
    CTGAGTGGCT ACTTTGTTCC CTTCATAGTG GTGATCTCTA TCCTAACAGT GACAGCATGG
    CTCATCATTG GCTTTCTGGA CTTTGACGTT GTGTCAAAAA ATTTCCCTGG TTACAACCAA
    AACATCTCGC GAACAGAGGT GATCGTTCGC TTTGCCTTCC AGGCCTCCAT CACCGTTTTG
    TCCATTGCCT GCCCCTGTTC ACTGGGTCTG GCCACCCCGA CTGCTGTGAT GGTGGGCACA
    GGGGTGGGGG CACAGAACGG CATCCTCATA AAGGGAGGAG AACCCCTGGA AATGGCCCAC
    AAGGTTGGAG CTGTTATGTT TGATAAGACG GGCACCATCA CTAATGGTGT GCCGCAGGTG
    ACCCGCGTGC TGGTGTTGTG GGACCGAGCG AGGCTTCCTC TGCGGACGGT TCTGGCAGTG
    GTGGGCACCG CTGAGGCCAG CAGTGAGCAC CCGCTGGGCA TGGCTGTCGC AAAGCACTGC
    AAAGAGGAGT TGGGAGCAGA GACTCTGGGC TTCTGCCACG ACTTCCAGGC TGTTCCCGGC
    TGTGGAATCA GCTGTAAAGT GTCCAGCGTT GAGGATCTGC TGCAGAACAG CCCAAAGACA
    CAAGAAACAA AAGCATCCGC TGTGAAACAA ACACCACTCC TCGTCACCCT CCAAGGAGTC
    ACAACAGATG AGAGCAGCCT GGTGGCAGAC ACCGATTCAG GGTCAGACAG TCCCTCATAC
    TCTGTGCTGA TCGGGAACAG ACAGTGGATG CTGAGGAACG GGCTGGAGGT CACAGCTGAT
    GTGGATAATG CTATGAGCAG CCATGAGACT AAAGGACAGA CGGCCATACT TGTGGCCATT
    GATGGTGTGT TGTGTGCTAT GATAGCTGTG GCGGATACAG TGAAGGCAGA GTCGGCTCTG
    GCTGTTCACA CTCTGAGCAG TATGGGAATA GAAGTCTACA TGATCACAGG AGACAACAGA
    CGCACTGCCC GCGCCATCGC CACACAGGTG GGCATCAGGA AGGTGTTTGC TGAAGTCTTG
    CCCTCTCATA AAGTGGCGAA GGTTCAGGAG TTGCAGGAAA GAGGTCTGAA AGTGGCAATG
    GTGGGTGACG GGGTCAATGA CTCGCCCGCT CTTGCCCATG CTGATCTGGG CATCGCCATA
    GGAACAGGCA CAGATGTTGC CATTGAGGCA GCAGATATTG TGCTTATACG GAATGATTTG
    CTGGATGTGG TGGCCAGTAT TGAGCTGTCT AAAAAGACAG TCCAAAGAAT CCGGATTAAT
    TTTGTGTTCG CTCTCATTTA CAACTTGCTT GGCATCCCTT TTGCGGCAGG TGTGTTCATG
    CCTCTGGGGC TGGTGCTGCA GCCGTGGATG GGCTCTGCTG CGATGGCAGC TTCATCAGTC
    TCTGTGGTGC TGTCTTCTCT ACTGCTGCGA CTTTTCAAGA AGACGTCAGT AGAAGAGTAC
    GAGTCCAGAG CTCAGAGTCA TAAGCTCAGC CTGAGCCCGT CACAGGTCAG CACGCATGTA
    GGACTGGAGA GCCGGCGCTG CAGCCCTCTT TCAGACAGAA AGAGGCGGAG CCGATCAGCC
    TCAGGCTCCT CCTCCTTCAT ATCAGGCTCC TTCCACCCAT CCACAACACA ACCATACAAC
    ACCTCAGGAA GGAGCATTGT GTAG

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

    CloneID ODa11546
    Clone ID Related Accession (Same CDS sequence) XM_679323.8 , XM_679323.7
    Accession Version XM_679323.8 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4095bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    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_007117.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_679323.7. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAATAAAC TCAGTCCTTT CAGTAATCTT GCCAAGTTTA TCTCCAAGTC GCCTGATAAT 
    GGGCCAGTCG GCGGAGAGCA GCTCTGCATG AAGGACTGCA AACCCCTGTG CCACTGCGAC
    CCGGAGCTCT GCGTTTGCTC TTTACCACAG AATAGTAAAG ATGGACCCAC GGAATATAAG
    GAGAATGGAA GTCAACAGGA GGGTTGGATC CCTACAAAAC ATGCTTTTGA TAATTTTGGT
    TATGAACCAG ATGGACTGAA GCACAACTTA GTCCACCAGT TGCCCTCCGA GGAGGGCATG
    GTGAAGATCC AGGTGGAGGG AATGACCTGT CAGTCATGTG TCCGGTCTAT TGAAGAACAA
    ATTGGTCGTC TTGAAGGTGT CATTGGAGTC CAGGTGTCTT TGAGCGATAA AGAAGCCATT
    TTGAGGTTTA ACCCTGCAAA GGTAACACCA GAGGATATGA GAAAGCGTAT TGAAGACATG
    GGGTTTGATG CTTTAATTCT GGCTTTGCAA GGTCAAATAC AGCCTTTGTC GACTGATTGG
    TCTGAGGTGA CGTTAGGAGT TGAAGGGATG CATTGCGGGT CATGTGTGAA GAACATAACC
    GAGACCTTGT CGGGAATGTT GGGTGTCAAC TCTGTATTTG TCTCATTGGA AAAAGGAAGT
    GTGGACCTTA GGTTTGACCC ATCCCTGCTG ACACTAGAGA CGGTTAAAGG GTTCCTGGAG
    GAGATTCCGC CAGGCAATTT TAGGGTTTCC ATTCCTGGTT GGAGCTCTAG ATTAAATTCT
    GCCAGTACTC CGACCCAGAG TGTCACCATT GGAATAGAAG GAATGACATG CAACTCTTGT
    GTTCAAGCCA TTGAGGGGAT GATGTCCCAG AGAGCTGGGG TATGCTCCAT AAAAGTTTAC
    TTACAGGAAA AGAAGGGAAT TGTAACATTT GACTCCACTG TGACCTGTCC GGAAGAACTG
    CGGGCAGAGA TTGAAGACAT GGGATTTGAA GCGTGGCTGA ATCAAGATTC AGAAATTTGT
    GAAGTTTCAT CGGTCAGTCA GATGCCAAGT GGTCTGAAAC ACCTGCCCTC ACAAAGACAC
    CCGTCCAAAC CTTCACCAAG CCCAATCACC AAAGAAAACG CTGACGGTAC AGGGGAAAGA
    GAGCTGCGGA AATGTTTCGT TCATGTGACA GGGATGACTT GCGCATCCTG TGTGTCCAAC
    ATTGAAAGAA ACCTGGTGAA ACATGAAGGT ATTAAATCTG TGTTGGTTGC CCTGATGGCT
    GGTAAGGCAG AGGTGAAGTA TGATCCAGGG CTTCTGGACC CAGCACAGAT CGTCCAGCTT
    ATCTCTCACT TAGGGTTTGG TGCTTCAGTG ATGGAAGAAC ATTCAGTCCA GGACGGTGTG
    CTGGATCTCT CTGTCACCGG TATGACATGT GCATCTTGTG TCCACAACAT CGAGAGCAAA
    CTCTTGAGGA CAAAGGGAAT ACAGGAAGCA TCCGTCGCGC TGGCCACAAA CAAAGCCCAT
    GTGAAGTTTG ACTCGGATTT GGTAGGCTCT CGAGACATCG TCCGAATTAT TGAGGGTTTG
    GGTTTTGGTG TGTCTTTAAT AAAAAACGAG GGATTGAACA ACACGCTGGA TCACCAAGAG
    GAAATTCGGC AATGGAAGCA TTCGTTTCTG TTCAGCCTTG TGTTTGGGAT CCCAGTGATG
    GGTCTGATGA TCTACATGAT GGTGATGGAC AGTCAGCACA AGGAACATGG AGGCTCCATG
    CCTGCGGACC AGAACATCCT CCCTGGTCTT TCCATTATTA ACCTGGCCTT TTTCCTGCTC
    TGCACTCCTG TTCAGTTTCT AGGTGGTCGG TACTTCTACA TACAAGCATA CCGGTCACTC
    AGACATGGTG TGGCCAACAT GGACGTGCTC ATCGTTTTGG CCACCACCAT TGCATATGTG
    TATTCATTCA CAGTGCTGAT CGTAGCCATG ATTGAAGGAG CCAAACAGAG TCCTCTGACG
    TTTTTTGATA CGCCGCCGAT GCTTTTTGTG TTCATTGCTC TTGGACGCTG GCTGGAGCAT
    GTTGCTAAGA GTAAGACTTC GGAGGCTCTG GCTAAACTCA TGTCTCTTCA GGCTACAGAC
    GCCACTATAG TGTCCCTGGG TCCCGACAAC ACCATTATCA GAGAGGAGCA GGTGTCTGTG
    GATCTGGTGC AGAGGGGTGA TGTGGTGAAG GTGGCACCCG GGGGAAAGTT CCCTGTCGAC
    GGGAAGGTCA TTGAAGGCAC GTCTATGGCA GACGAGTCTC TGATCACAGG AGAGCCGATG
    CCGGTGATTA AGAAAGCAGG CAGTTGTGTG ATCGCAGGCT CGATTAATGC TCATGGAGCT
    CTGCTGGTGG AAGCCACACA TGTCGGATCA GAGACCACAC TCAGCCAGAT CGTCAAACTA
    GTGGAAGAGG CCCAGACATC AAAGGCACCC ATTCAACAGT TAGCAGACAA ACTGAGTGGC
    TACTTTGTTC CCTTCATAGT GGTGATCTCT ATCCTAACAG TGACAGCATG GCTCATCATT
    GGCTTTCTGG ACTTTGACGT TGTGTCAAAA AATTTCCCTG GTTACAACCA AAACATCTCG
    CGAACAGAGG TGATCGTTCG CTTTGCCTTC CAGGCCTCCA TCACCGTTTT GTCCATTGCC
    TGCCCCTGTT CACTGGGTCT GGCCACCCCG ACTGCTGTGA TGGTGGGCAC AGGGGTGGGG
    GCACAGAACG GCATCCTCAT AAAGGGAGGA GAACCCCTGG AAATGGCCCA CAAGGTTGGA
    GCTGTTATGT TTGATAAGAC GGGCACCATC ACTAATGGTG TGCCGCAGGT GACCCGCGTG
    CTGGTGTTGT GGGACCGAGC GAGGCTTCCT CTGCGGACGG TTCTGGCAGT GGTGGGCACC
    GCTGAGGCCA GCAGTGAGCA CCCGCTGGGC ATGGCTGTCG CAAAGCACTG CAAAGAGGAG
    TTGGGAGCAG AGACTCTGGG CTTCTGCCAC GACTTCCAGG CTGTTCCCGG CTGTGGAATC
    AGCTGTAAAG TGTCCAGCGT TGAGGATCTG CTGCAGAACA GCCCAAAGAC ACAAGAAACA
    AAAGCATCCG CTGTGAAACA AACACCACTC CTCGTCACCC TCCAAGGAGT CACAACAGAT
    GAGAGCAGCC TGGTGGCAGA CACCGATTCA GGGTCAGACA GTCCCTCATA CTCTGTGCTG
    ATCGGGAACA GACAGTGGAT GCTGAGGAAC GGGCTGGAGG TCACAGCTGA TGTGGATAAT
    GCTATGAGCA GCCATGAGAC TAAAGGACAG ACGGCCATAC TTGTGGCCAT TGATGGTGTG
    TTGTGTGCTA TGATAGCTGT GGCGGATACA GTGAAGGCAG AGTCGGCTCT GGCTGTTCAC
    ACTCTGAGCA GTATGGGAAT AGAAGTCTAC ATGATCACAG GAGACAACAG ACGCACTGCC
    CGCGCCATCG CCACACAGGT GGGCATCAGG AAGGTGTTTG CTGAAGTCTT GCCCTCTCAT
    AAAGTGGCGA AGGTTCAGGA GTTGCAGGAA AGAGGTCTGA AAGTGGCAAT GGTGGGTGAC
    GGGGTCAATG ACTCGCCCGC TCTTGCCCAT GCTGATCTGG GCATCGCCAT AGGAACAGGC
    ACAGATGTTG CCATTGAGGC AGCAGATATT GTGCTTATAC GGAATGATTT GCTGGATGTG
    GTGGCCAGTA TTGAGCTGTC TAAAAAGACA GTCCAAAGAA TCCGGATTAA TTTTGTGTTC
    GCTCTCATTT ACAACTTGCT TGGCATCCCT TTTGCGGCAG GTGTGTTCAT GCCTCTGGGG
    CTGGTGCTGC AGCCGTGGAT GGGCTCTGCT GCGATGGCAG CTTCATCAGT CTCTGTGGTG
    CTGTCTTCTC TACTGCTGCG ACTTTTCAAG AAGACGTCAG TAGAAGAGTA CGAGTCCAGA
    GCTCAGAGTC ATAAGCTCAG CCTGAGCCCG TCACAGGTCA GCACGCATGT AGGACTGGAG
    AGCCGGCGCT GCAGCCCTCT TTCAGACAGA AAGAGGCGGA GCCGATCAGC CTCAGGCTCC
    TCCTCCTTCA TATCAGGCTC CTTCCACCCA TCCACAACAC AACCATACAA CACCTCAGGA
    AGGAGCATTG TGTAG

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

    RefSeq XP_684415.5
    CDS335..4429
    Translation

    Target ORF information:

    RefSeq Version XM_679323.8
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ATPase, Cu++ transporting, beta polypeptide (Wilson disease) (atp7b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_679323.8

    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
    ATGAATAAAC TCAGTCCTTT CAGTAATCTT GCCAAGTTTA TCTCCAAGTC GCCTGATAAT 
    GGGCCAGTCG GCGGAGAGCA GCTCTGCATG AAGGACTGCA AACCCCTGTG CCACTGCGAC
    CCGGAGCTCT GCGTTTGCTC TTTACCACAG AATAGTAAAG ATGGACCCAC GGAATATAAG
    GAGAATGGAA GTCAACAGGA GGGTTGGATC CCTACAAAAC ATGCTTTTGA TAATTTTGGT
    TATGAACCAG ATGGACTGAA GCACAACTTA GTCCACCAGT TGCCCTCCGA GGAGGGCATG
    GTGAAGATCC AGGTGGAGGG AATGACCTGT CAGTCATGTG TCCGGTCTAT TGAAGAACAA
    ATTGGTCGTC TTGAAGGTGT CATTGGAGTC CAGGTGTCTT TGAGCGATAA AGAAGCCATT
    TTGAGGTTTA ACCCTGCAAA GGTAACACCA GAGGATATGA GAAAGCGTAT TGAAGACATG
    GGGTTTGATG CTTTAATTCT GGCTTTGCAA GGTCAAATAC AGCCTTTGTC GACTGATTGG
    TCTGAGGTGA CGTTAGGAGT TGAAGGGATG CATTGCGGGT CATGTGTGAA GAACATAACC
    GAGACCTTGT CGGGAATGTT GGGTGTCAAC TCTGTATTTG TCTCATTGGA AAAAGGAAGT
    GTGGACCTTA GGTTTGACCC ATCCCTGCTG ACACTAGAGA CGGTTAAAGG GTTCCTGGAG
    GAGATTCCGC CAGGCAATTT TAGGGTTTCC ATTCCTGGTT GGAGCTCTAG ATTAAATTCT
    GCCAGTACTC CGACCCAGAG TGTCACCATT GGAATAGAAG GAATGACATG CAACTCTTGT
    GTTCAAGCCA TTGAGGGGAT GATGTCCCAG AGAGCTGGGG TATGCTCCAT AAAAGTTTAC
    TTACAGGAAA AGAAGGGAAT TGTAACATTT GACTCCACTG TGACCTGTCC GGAAGAACTG
    CGGGCAGAGA TTGAAGACAT GGGATTTGAA GCGTGGCTGA ATCAAGATTC AGAAATTTGT
    GAAGTTTCAT CGGTCAGTCA GATGCCAAGT GGTCTGAAAC ACCTGCCCTC ACAAAGACAC
    CCGTCCAAAC CTTCACCAAG CCCAATCACC AAAGAAAACG CTGACGGTAC AGGGGAAAGA
    GAGCTGCGGA AATGTTTCGT TCATGTGACA GGGATGACTT GCGCATCCTG TGTGTCCAAC
    ATTGAAAGAA ACCTGGTGAA ACATGAAGGT ATTAAATCTG TGTTGGTTGC CCTGATGGCT
    GGTAAGGCAG AGGTGAAGTA TGATCCAGGG CTTCTGGACC CAGCACAGAT CGTCCAGCTT
    ATCTCTCACT TAGGGTTTGG TGCTTCAGTG ATGGAAGAAC ATTCAGTCCA GGACGGTGTG
    CTGGATCTCT CTGTCACCGG TATGACATGT GCATCTTGTG TCCACAACAT CGAGAGCAAA
    CTCTTGAGGA CAAAGGGAAT ACAGGAAGCA TCCGTCGCGC TGGCCACAAA CAAAGCCCAT
    GTGAAGTTTG ACTCGGATTT GGTAGGCTCT CGAGACATCG TCCGAATTAT TGAGGGTTTG
    GGTTTTGGTG TGTCTTTAAT AAAAAACGAG GGATTGAACA ACACGCTGGA TCACCAAGAG
    GAAATTCGGC AATGGAAGCA TTCGTTTCTG TTCAGCCTTG TGTTTGGGAT CCCAGTGATG
    GGTCTGATGA TCTACATGAT GGTGATGGAC AGTCAGCACA AGGAACATGG AGGCTCCATG
    CCTGCGGACC AGAACATCCT CCCTGGTCTT TCCATTATTA ACCTGGCCTT TTTCCTGCTC
    TGCACTCCTG TTCAGTTTCT AGGTGGTCGG TACTTCTACA TACAAGCATA CCGGTCACTC
    AGACATGGTG TGGCCAACAT GGACGTGCTC ATCGTTTTGG CCACCACCAT TGCATATGTG
    TATTCATTCA CAGTGCTGAT CGTAGCCATG ATTGAAGGAG CCAAACAGAG TCCTCTGACG
    TTTTTTGATA CGCCGCCGAT GCTTTTTGTG TTCATTGCTC TTGGACGCTG GCTGGAGCAT
    GTTGCTAAGA GTAAGACTTC GGAGGCTCTG GCTAAACTCA TGTCTCTTCA GGCTACAGAC
    GCCACTATAG TGTCCCTGGG TCCCGACAAC ACCATTATCA GAGAGGAGCA GGTGTCTGTG
    GATCTGGTGC AGAGGGGTGA TGTGGTGAAG GTGGCACCCG GGGGAAAGTT CCCTGTCGAC
    GGGAAGGTCA TTGAAGGCAC GTCTATGGCA GACGAGTCTC TGATCACAGG AGAGCCGATG
    CCGGTGATTA AGAAAGCAGG CAGTTGTGTG ATCGCAGGCT CGATTAATGC TCATGGAGCT
    CTGCTGGTGG AAGCCACACA TGTCGGATCA GAGACCACAC TCAGCCAGAT CGTCAAACTA
    GTGGAAGAGG CCCAGACATC AAAGGCACCC ATTCAACAGT TAGCAGACAA ACTGAGTGGC
    TACTTTGTTC CCTTCATAGT GGTGATCTCT ATCCTAACAG TGACAGCATG GCTCATCATT
    GGCTTTCTGG ACTTTGACGT TGTGTCAAAA AATTTCCCTG GTTACAACCA AAACATCTCG
    CGAACAGAGG TGATCGTTCG CTTTGCCTTC CAGGCCTCCA TCACCGTTTT GTCCATTGCC
    TGCCCCTGTT CACTGGGTCT GGCCACCCCG ACTGCTGTGA TGGTGGGCAC AGGGGTGGGG
    GCACAGAACG GCATCCTCAT AAAGGGAGGA GAACCCCTGG AAATGGCCCA CAAGGTTGGA
    GCTGTTATGT TTGATAAGAC GGGCACCATC ACTAATGGTG TGCCGCAGGT GACCCGCGTG
    CTGGTGTTGT GGGACCGAGC GAGGCTTCCT CTGCGGACGG TTCTGGCAGT GGTGGGCACC
    GCTGAGGCCA GCAGTGAGCA CCCGCTGGGC ATGGCTGTCG CAAAGCACTG CAAAGAGGAG
    TTGGGAGCAG AGACTCTGGG CTTCTGCCAC GACTTCCAGG CTGTTCCCGG CTGTGGAATC
    AGCTGTAAAG TGTCCAGCGT TGAGGATCTG CTGCAGAACA GCCCAAAGAC ACAAGAAACA
    AAAGCATCCG CTGTGAAACA AACACCACTC CTCGTCACCC TCCAAGGAGT CACAACAGAT
    GAGAGCAGCC TGGTGGCAGA CACCGATTCA GGGTCAGACA GTCCCTCATA CTCTGTGCTG
    ATCGGGAACA GACAGTGGAT GCTGAGGAAC GGGCTGGAGG TCACAGCTGA TGTGGATAAT
    GCTATGAGCA GCCATGAGAC TAAAGGACAG ACGGCCATAC TTGTGGCCAT TGATGGTGTG
    TTGTGTGCTA TGATAGCTGT GGCGGATACA GTGAAGGCAG AGTCGGCTCT GGCTGTTCAC
    ACTCTGAGCA GTATGGGAAT AGAAGTCTAC ATGATCACAG GAGACAACAG ACGCACTGCC
    CGCGCCATCG CCACACAGGT GGGCATCAGG AAGGTGTTTG CTGAAGTCTT GCCCTCTCAT
    AAAGTGGCGA AGGTTCAGGA GTTGCAGGAA AGAGGTCTGA AAGTGGCAAT GGTGGGTGAC
    GGGGTCAATG ACTCGCCCGC TCTTGCCCAT GCTGATCTGG GCATCGCCAT AGGAACAGGC
    ACAGATGTTG CCATTGAGGC AGCAGATATT GTGCTTATAC GGAATGATTT GCTGGATGTG
    GTGGCCAGTA TTGAGCTGTC TAAAAAGACA GTCCAAAGAA TCCGGATTAA TTTTGTGTTC
    GCTCTCATTT ACAACTTGCT TGGCATCCCT TTTGCGGCAG GTGTGTTCAT GCCTCTGGGG
    CTGGTGCTGC AGCCGTGGAT GGGCTCTGCT GCGATGGCAG CTTCATCAGT CTCTGTGGTG
    CTGTCTTCTC TACTGCTGCG ACTTTTCAAG AAGACGTCAG TAGAAGAGTA CGAGTCCAGA
    GCTCAGAGTC ATAAGCTCAG CCTGAGCCCG TCACAGGTCA GCACGCATGT AGGACTGGAG
    AGCCGGCGCT GCAGCCCTCT TTCAGACAGA AAGAGGCGGA GCCGATCAGC CTCAGGCTCC
    TCCTCCTTCA TATCAGGCTC CTTCCACCCA TCCACAACAC AACCATACAA CACCTCAGGA
    AGGAGCATTG TGTAG

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

    CloneID ODa11546
    Clone ID Related Accession (Same CDS sequence) XM_679323.8 , XM_679323.7
    Accession Version XM_679323.7 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4095bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    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 (NC_007117.6) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_679323.6. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    ATGAATAAAC TCAGTCCTTT CAGTAATCTT GCCAAGTTTA TCTCCAAGTC GCCTGATAAT 
    GGGCCAGTCG GCGGAGAGCA GCTCTGCATG AAGGACTGCA AACCCCTGTG CCACTGCGAC
    CCGGAGCTCT GCGTTTGCTC TTTACCACAG AATAGTAAAG ATGGACCCAC GGAATATAAG
    GAGAATGGAA GTCAACAGGA GGGTTGGATC CCTACAAAAC ATGCTTTTGA TAATTTTGGT
    TATGAACCAG ATGGACTGAA GCACAACTTA GTCCACCAGT TGCCCTCCGA GGAGGGCATG
    GTGAAGATCC AGGTGGAGGG AATGACCTGT CAGTCATGTG TCCGGTCTAT TGAAGAACAA
    ATTGGTCGTC TTGAAGGTGT CATTGGAGTC CAGGTGTCTT TGAGCGATAA AGAAGCCATT
    TTGAGGTTTA ACCCTGCAAA GGTAACACCA GAGGATATGA GAAAGCGTAT TGAAGACATG
    GGGTTTGATG CTTTAATTCT GGCTTTGCAA GGTCAAATAC AGCCTTTGTC GACTGATTGG
    TCTGAGGTGA CGTTAGGAGT TGAAGGGATG CATTGCGGGT CATGTGTGAA GAACATAACC
    GAGACCTTGT CGGGAATGTT GGGTGTCAAC TCTGTATTTG TCTCATTGGA AAAAGGAAGT
    GTGGACCTTA GGTTTGACCC ATCCCTGCTG ACACTAGAGA CGGTTAAAGG GTTCCTGGAG
    GAGATTCCGC CAGGCAATTT TAGGGTTTCC ATTCCTGGTT GGAGCTCTAG ATTAAATTCT
    GCCAGTACTC CGACCCAGAG TGTCACCATT GGAATAGAAG GAATGACATG CAACTCTTGT
    GTTCAAGCCA TTGAGGGGAT GATGTCCCAG AGAGCTGGGG TATGCTCCAT AAAAGTTTAC
    TTACAGGAAA AGAAGGGAAT TGTAACATTT GACTCCACTG TGACCTGTCC GGAAGAACTG
    CGGGCAGAGA TTGAAGACAT GGGATTTGAA GCGTGGCTGA ATCAAGATTC AGAAATTTGT
    GAAGTTTCAT CGGTCAGTCA GATGCCAAGT GGTCTGAAAC ACCTGCCCTC ACAAAGACAC
    CCGTCCAAAC CTTCACCAAG CCCAATCACC AAAGAAAACG CTGACGGTAC AGGGGAAAGA
    GAGCTGCGGA AATGTTTCGT TCATGTGACA GGGATGACTT GCGCATCCTG TGTGTCCAAC
    ATTGAAAGAA ACCTGGTGAA ACATGAAGGT ATTAAATCTG TGTTGGTTGC CCTGATGGCT
    GGTAAGGCAG AGGTGAAGTA TGATCCAGGG CTTCTGGACC CAGCACAGAT CGTCCAGCTT
    ATCTCTCACT TAGGGTTTGG TGCTTCAGTG ATGGAAGAAC ATTCAGTCCA GGACGGTGTG
    CTGGATCTCT CTGTCACCGG TATGACATGT GCATCTTGTG TCCACAACAT CGAGAGCAAA
    CTCTTGAGGA CAAAGGGAAT ACAGGAAGCA TCCGTCGCGC TGGCCACAAA CAAAGCCCAT
    GTGAAGTTTG ACTCGGATTT GGTAGGCTCT CGAGACATCG TCCGAATTAT TGAGGGTTTG
    GGTTTTGGTG TGTCTTTAAT AAAAAACGAG GGATTGAACA ACACGCTGGA TCACCAAGAG
    GAAATTCGGC AATGGAAGCA TTCGTTTCTG TTCAGCCTTG TGTTTGGGAT CCCAGTGATG
    GGTCTGATGA TCTACATGAT GGTGATGGAC AGTCAGCACA AGGAACATGG AGGCTCCATG
    CCTGCGGACC AGAACATCCT CCCTGGTCTT TCCATTATTA ACCTGGCCTT TTTCCTGCTC
    TGCACTCCTG TTCAGTTTCT AGGTGGTCGG TACTTCTACA TACAAGCATA CCGGTCACTC
    AGACATGGTG TGGCCAACAT GGACGTGCTC ATCGTTTTGG CCACCACCAT TGCATATGTG
    TATTCATTCA CAGTGCTGAT CGTAGCCATG ATTGAAGGAG CCAAACAGAG TCCTCTGACG
    TTTTTTGATA CGCCGCCGAT GCTTTTTGTG TTCATTGCTC TTGGACGCTG GCTGGAGCAT
    GTTGCTAAGA GTAAGACTTC GGAGGCTCTG GCTAAACTCA TGTCTCTTCA GGCTACAGAC
    GCCACTATAG TGTCCCTGGG TCCCGACAAC ACCATTATCA GAGAGGAGCA GGTGTCTGTG
    GATCTGGTGC AGAGGGGTGA TGTGGTGAAG GTGGCACCCG GGGGAAAGTT CCCTGTCGAC
    GGGAAGGTCA TTGAAGGCAC GTCTATGGCA GACGAGTCTC TGATCACAGG AGAGCCGATG
    CCGGTGATTA AGAAAGCAGG CAGTTGTGTG ATCGCAGGCT CGATTAATGC TCATGGAGCT
    CTGCTGGTGG AAGCCACACA TGTCGGATCA GAGACCACAC TCAGCCAGAT CGTCAAACTA
    GTGGAAGAGG CCCAGACATC AAAGGCACCC ATTCAACAGT TAGCAGACAA ACTGAGTGGC
    TACTTTGTTC CCTTCATAGT GGTGATCTCT ATCCTAACAG TGACAGCATG GCTCATCATT
    GGCTTTCTGG ACTTTGACGT TGTGTCAAAA AATTTCCCTG GTTACAACCA AAACATCTCG
    CGAACAGAGG TGATCGTTCG CTTTGCCTTC CAGGCCTCCA TCACCGTTTT GTCCATTGCC
    TGCCCCTGTT CACTGGGTCT GGCCACCCCG ACTGCTGTGA TGGTGGGCAC AGGGGTGGGG
    GCACAGAACG GCATCCTCAT AAAGGGAGGA GAACCCCTGG AAATGGCCCA CAAGGTTGGA
    GCTGTTATGT TTGATAAGAC GGGCACCATC ACTAATGGTG TGCCGCAGGT GACCCGCGTG
    CTGGTGTTGT GGGACCGAGC GAGGCTTCCT CTGCGGACGG TTCTGGCAGT GGTGGGCACC
    GCTGAGGCCA GCAGTGAGCA CCCGCTGGGC ATGGCTGTCG CAAAGCACTG CAAAGAGGAG
    TTGGGAGCAG AGACTCTGGG CTTCTGCCAC GACTTCCAGG CTGTTCCCGG CTGTGGAATC
    AGCTGTAAAG TGTCCAGCGT TGAGGATCTG CTGCAGAACA GCCCAAAGAC ACAAGAAACA
    AAAGCATCCG CTGTGAAACA AACACCACTC CTCGTCACCC TCCAAGGAGT CACAACAGAT
    GAGAGCAGCC TGGTGGCAGA CACCGATTCA GGGTCAGACA GTCCCTCATA CTCTGTGCTG
    ATCGGGAACA GACAGTGGAT GCTGAGGAAC GGGCTGGAGG TCACAGCTGA TGTGGATAAT
    GCTATGAGCA GCCATGAGAC TAAAGGACAG ACGGCCATAC TTGTGGCCAT TGATGGTGTG
    TTGTGTGCTA TGATAGCTGT GGCGGATACA GTGAAGGCAG AGTCGGCTCT GGCTGTTCAC
    ACTCTGAGCA GTATGGGAAT AGAAGTCTAC ATGATCACAG GAGACAACAG ACGCACTGCC
    CGCGCCATCG CCACACAGGT GGGCATCAGG AAGGTGTTTG CTGAAGTCTT GCCCTCTCAT
    AAAGTGGCGA AGGTTCAGGA GTTGCAGGAA AGAGGTCTGA AAGTGGCAAT GGTGGGTGAC
    GGGGTCAATG ACTCGCCCGC TCTTGCCCAT GCTGATCTGG GCATCGCCAT AGGAACAGGC
    ACAGATGTTG CCATTGAGGC AGCAGATATT GTGCTTATAC GGAATGATTT GCTGGATGTG
    GTGGCCAGTA TTGAGCTGTC TAAAAAGACA GTCCAAAGAA TCCGGATTAA TTTTGTGTTC
    GCTCTCATTT ACAACTTGCT TGGCATCCCT TTTGCGGCAG GTGTGTTCAT GCCTCTGGGG
    CTGGTGCTGC AGCCGTGGAT GGGCTCTGCT GCGATGGCAG CTTCATCAGT CTCTGTGGTG
    CTGTCTTCTC TACTGCTGCG ACTTTTCAAG AAGACGTCAG TAGAAGAGTA CGAGTCCAGA
    GCTCAGAGTC ATAAGCTCAG CCTGAGCCCG TCACAGGTCA GCACGCATGT AGGACTGGAG
    AGCCGGCGCT GCAGCCCTCT TTCAGACAGA AAGAGGCGGA GCCGATCAGC CTCAGGCTCC
    TCCTCCTTCA TATCAGGCTC CTTCCACCCA TCCACAACAC AACCATACAA CACCTCAGGA
    AGGAGCATTG TGTAG

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

    RefSeq XP_684415.5
    CDS336..4430
    Translation

    Target ORF information:

    RefSeq Version XM_679323.7
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ATPase, Cu++ transporting, beta polypeptide (Wilson disease) (atp7b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_679323.7

    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
    ATGAATAAAC TCAGTCCTTT CAGTAATCTT GCCAAGTTTA TCTCCAAGTC GCCTGATAAT 
    GGGCCAGTCG GCGGAGAGCA GCTCTGCATG AAGGACTGCA AACCCCTGTG CCACTGCGAC
    CCGGAGCTCT GCGTTTGCTC TTTACCACAG AATAGTAAAG ATGGACCCAC GGAATATAAG
    GAGAATGGAA GTCAACAGGA GGGTTGGATC CCTACAAAAC ATGCTTTTGA TAATTTTGGT
    TATGAACCAG ATGGACTGAA GCACAACTTA GTCCACCAGT TGCCCTCCGA GGAGGGCATG
    GTGAAGATCC AGGTGGAGGG AATGACCTGT CAGTCATGTG TCCGGTCTAT TGAAGAACAA
    ATTGGTCGTC TTGAAGGTGT CATTGGAGTC CAGGTGTCTT TGAGCGATAA AGAAGCCATT
    TTGAGGTTTA ACCCTGCAAA GGTAACACCA GAGGATATGA GAAAGCGTAT TGAAGACATG
    GGGTTTGATG CTTTAATTCT GGCTTTGCAA GGTCAAATAC AGCCTTTGTC GACTGATTGG
    TCTGAGGTGA CGTTAGGAGT TGAAGGGATG CATTGCGGGT CATGTGTGAA GAACATAACC
    GAGACCTTGT CGGGAATGTT GGGTGTCAAC TCTGTATTTG TCTCATTGGA AAAAGGAAGT
    GTGGACCTTA GGTTTGACCC ATCCCTGCTG ACACTAGAGA CGGTTAAAGG GTTCCTGGAG
    GAGATTCCGC CAGGCAATTT TAGGGTTTCC ATTCCTGGTT GGAGCTCTAG ATTAAATTCT
    GCCAGTACTC CGACCCAGAG TGTCACCATT GGAATAGAAG GAATGACATG CAACTCTTGT
    GTTCAAGCCA TTGAGGGGAT GATGTCCCAG AGAGCTGGGG TATGCTCCAT AAAAGTTTAC
    TTACAGGAAA AGAAGGGAAT TGTAACATTT GACTCCACTG TGACCTGTCC GGAAGAACTG
    CGGGCAGAGA TTGAAGACAT GGGATTTGAA GCGTGGCTGA ATCAAGATTC AGAAATTTGT
    GAAGTTTCAT CGGTCAGTCA GATGCCAAGT GGTCTGAAAC ACCTGCCCTC ACAAAGACAC
    CCGTCCAAAC CTTCACCAAG CCCAATCACC AAAGAAAACG CTGACGGTAC AGGGGAAAGA
    GAGCTGCGGA AATGTTTCGT TCATGTGACA GGGATGACTT GCGCATCCTG TGTGTCCAAC
    ATTGAAAGAA ACCTGGTGAA ACATGAAGGT ATTAAATCTG TGTTGGTTGC CCTGATGGCT
    GGTAAGGCAG AGGTGAAGTA TGATCCAGGG CTTCTGGACC CAGCACAGAT CGTCCAGCTT
    ATCTCTCACT TAGGGTTTGG TGCTTCAGTG ATGGAAGAAC ATTCAGTCCA GGACGGTGTG
    CTGGATCTCT CTGTCACCGG TATGACATGT GCATCTTGTG TCCACAACAT CGAGAGCAAA
    CTCTTGAGGA CAAAGGGAAT ACAGGAAGCA TCCGTCGCGC TGGCCACAAA CAAAGCCCAT
    GTGAAGTTTG ACTCGGATTT GGTAGGCTCT CGAGACATCG TCCGAATTAT TGAGGGTTTG
    GGTTTTGGTG TGTCTTTAAT AAAAAACGAG GGATTGAACA ACACGCTGGA TCACCAAGAG
    GAAATTCGGC AATGGAAGCA TTCGTTTCTG TTCAGCCTTG TGTTTGGGAT CCCAGTGATG
    GGTCTGATGA TCTACATGAT GGTGATGGAC AGTCAGCACA AGGAACATGG AGGCTCCATG
    CCTGCGGACC AGAACATCCT CCCTGGTCTT TCCATTATTA ACCTGGCCTT TTTCCTGCTC
    TGCACTCCTG TTCAGTTTCT AGGTGGTCGG TACTTCTACA TACAAGCATA CCGGTCACTC
    AGACATGGTG TGGCCAACAT GGACGTGCTC ATCGTTTTGG CCACCACCAT TGCATATGTG
    TATTCATTCA CAGTGCTGAT CGTAGCCATG ATTGAAGGAG CCAAACAGAG TCCTCTGACG
    TTTTTTGATA CGCCGCCGAT GCTTTTTGTG TTCATTGCTC TTGGACGCTG GCTGGAGCAT
    GTTGCTAAGA GTAAGACTTC GGAGGCTCTG GCTAAACTCA TGTCTCTTCA GGCTACAGAC
    GCCACTATAG TGTCCCTGGG TCCCGACAAC ACCATTATCA GAGAGGAGCA GGTGTCTGTG
    GATCTGGTGC AGAGGGGTGA TGTGGTGAAG GTGGCACCCG GGGGAAAGTT CCCTGTCGAC
    GGGAAGGTCA TTGAAGGCAC GTCTATGGCA GACGAGTCTC TGATCACAGG AGAGCCGATG
    CCGGTGATTA AGAAAGCAGG CAGTTGTGTG ATCGCAGGCT CGATTAATGC TCATGGAGCT
    CTGCTGGTGG AAGCCACACA TGTCGGATCA GAGACCACAC TCAGCCAGAT CGTCAAACTA
    GTGGAAGAGG CCCAGACATC AAAGGCACCC ATTCAACAGT TAGCAGACAA ACTGAGTGGC
    TACTTTGTTC CCTTCATAGT GGTGATCTCT ATCCTAACAG TGACAGCATG GCTCATCATT
    GGCTTTCTGG ACTTTGACGT TGTGTCAAAA AATTTCCCTG GTTACAACCA AAACATCTCG
    CGAACAGAGG TGATCGTTCG CTTTGCCTTC CAGGCCTCCA TCACCGTTTT GTCCATTGCC
    TGCCCCTGTT CACTGGGTCT GGCCACCCCG ACTGCTGTGA TGGTGGGCAC AGGGGTGGGG
    GCACAGAACG GCATCCTCAT AAAGGGAGGA GAACCCCTGG AAATGGCCCA CAAGGTTGGA
    GCTGTTATGT TTGATAAGAC GGGCACCATC ACTAATGGTG TGCCGCAGGT GACCCGCGTG
    CTGGTGTTGT GGGACCGAGC GAGGCTTCCT CTGCGGACGG TTCTGGCAGT GGTGGGCACC
    GCTGAGGCCA GCAGTGAGCA CCCGCTGGGC ATGGCTGTCG CAAAGCACTG CAAAGAGGAG
    TTGGGAGCAG AGACTCTGGG CTTCTGCCAC GACTTCCAGG CTGTTCCCGG CTGTGGAATC
    AGCTGTAAAG TGTCCAGCGT TGAGGATCTG CTGCAGAACA GCCCAAAGAC ACAAGAAACA
    AAAGCATCCG CTGTGAAACA AACACCACTC CTCGTCACCC TCCAAGGAGT CACAACAGAT
    GAGAGCAGCC TGGTGGCAGA CACCGATTCA GGGTCAGACA GTCCCTCATA CTCTGTGCTG
    ATCGGGAACA GACAGTGGAT GCTGAGGAAC GGGCTGGAGG TCACAGCTGA TGTGGATAAT
    GCTATGAGCA GCCATGAGAC TAAAGGACAG ACGGCCATAC TTGTGGCCAT TGATGGTGTG
    TTGTGTGCTA TGATAGCTGT GGCGGATACA GTGAAGGCAG AGTCGGCTCT GGCTGTTCAC
    ACTCTGAGCA GTATGGGAAT AGAAGTCTAC ATGATCACAG GAGACAACAG ACGCACTGCC
    CGCGCCATCG CCACACAGGT GGGCATCAGG AAGGTGTTTG CTGAAGTCTT GCCCTCTCAT
    AAAGTGGCGA AGGTTCAGGA GTTGCAGGAA AGAGGTCTGA AAGTGGCAAT GGTGGGTGAC
    GGGGTCAATG ACTCGCCCGC TCTTGCCCAT GCTGATCTGG GCATCGCCAT AGGAACAGGC
    ACAGATGTTG CCATTGAGGC AGCAGATATT GTGCTTATAC GGAATGATTT GCTGGATGTG
    GTGGCCAGTA TTGAGCTGTC TAAAAAGACA GTCCAAAGAA TCCGGATTAA TTTTGTGTTC
    GCTCTCATTT ACAACTTGCT TGGCATCCCT TTTGCGGCAG GTGTGTTCAT GCCTCTGGGG
    CTGGTGCTGC AGCCGTGGAT GGGCTCTGCT GCGATGGCAG CTTCATCAGT CTCTGTGGTG
    CTGTCTTCTC TACTGCTGCG ACTTTTCAAG AAGACGTCAG TAGAAGAGTA CGAGTCCAGA
    GCTCAGAGTC ATAAGCTCAG CCTGAGCCCG TCACAGGTCA GCACGCATGT AGGACTGGAG
    AGCCGGCGCT GCAGCCCTCT TTCAGACAGA AAGAGGCGGA GCCGATCAGC CTCAGGCTCC
    TCCTCCTTCA TATCAGGCTC CTTCCACCCA TCCACAACAC AACCATACAA CACCTCAGGA
    AGGAGCATTG TGTAG

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