ORF » Species Summary » Salmo salar » LOC106600688 cDNA ORF clone

LOC106600688 cDNA ORF clone, Salmo salar(Atlantic salmon)

The following LOC106600688 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106600688 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
OAt13009 XM_014192239.1
Latest version!		 Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106600688), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAt13010 XM_014192240.1
Latest version!		 Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106600688), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAt13011 XM_014192241.1
Latest version!		 Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106600688), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    LOC106600688 ( XM_014192239.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014047714.1 Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106600688), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAt13009
    Clone ID Related Accession (Same CDS sequence) XM_014192239.1
    Accession Version XM_014192239.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5601bp)
    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 1442678400000
    Organism Salmo salar(Atlantic salmon)
    Product poly [ADP-ribose] polymerase 14-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012333569.1) 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 :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGCAGAAG CCTACGCATT TTCCCTGCTT GTTGAGTTGG AGGGGAATCC CAATATTCCC 
    AAACTGAAAA ACAAGTTGGT AAAATATTTC CAAAGTAAAA AGTCTAATGG TGGTGATTGT 
    CTTGTGGAAT ACGAAGATGG ACAAGAAGCA GTAGTGCGGT TCAAAACGGA GGAGGTCAGG 
    CATAGAGTTC TTGAGAAGCA GGAGCACGAG ATCAGGTTGG ATCGAGGGGT GCTGAAACTG 
    ATCATTCGTC TGCCATCAGA TGATGTCCCA AAGAGTGCAC AGGAAACACA GTCTCCTATC 
    ACCTCAGCAG GTTATAGGGA GCCAATTGAC AGCCAGCTCA TGGCGTCAGC TAAGAGGAAG 
    GCAGAGGCTG ATGCTCCTCA GCAGGAATTA CTAGGCTTCA AAAAGCAAGC TGTTGCTGCT 
    ACTGATTCAA AAGACTTACC AAAGAGCGGG GTTGGAGATG GACACACTCC CCTTACTGAG 
    CCACAGACAG AGATGGAGAT TGAACCGATG GAAGTCGAGG AAAAGCTGGT GTCCACCTCA 
    GCCGTGTTGG GGAACATTGA GGAGAGCATG AACAAGGAGT TCCTGGAGAT GCTGATAGAG 
    AACATCCTGA GTGCGTATAA CACCTCTGGT TCTGACTCTC CTACTGCAAC ACAGACCTTC 
    AGTTTGGAGA TCCTGACACC TGTCCTAGAC ACCGGCCTGG CTGTGGTGAC TTTCCAAAAT 
    GGAAAAGAGA CTGAGAACTT CATCACCAGC TGCACCAGCA ACAGGATGTT CAGACAGAAA 
    CAACTATCTG TTAAACTCCT GGAACTCACC ACAAAAGTGA AAGTTGAAAA CATAAATCCA 
    AATGTTAGTT CAGACCACCT CCAACTGTTA TTTGGAAAAG GGGGCGAGGA GGTGGAAGAC 
    ACTGAAATGA ATGAAGAGGA CCAATCAGCA ATCCTCACCT TTCAAGATCC TAAAGCTGTT 
    CACAGAGTCC TAGAGAAACC ACATTACATC GAGAAGCAGC CTCTCAAGGC TTTCCCCTTC 
    TATGATTCTC TGGGAACGGC CTTGTATGGC AAAGACAGAC CCACATTGAA ACTCCCTTCT 
    GCTTTCACTG AAAACATAAA CCACGCAATT TGGAGATACC TCTGTGACAA CCAGGAAGCT 
    GCAGAGACCA TCCACAAGGA AATGACCAAA CACTTCTGCA ATGTAGACTT CCAACAACCT 
    ACCATCAAGT TAAGCCCACT GCCATCTCTA CTCAAACAGA CGGGTGTGAA ACCCAAGCAC 
    TTACAACAAT GGAAGGACAC CACCAAAGTT GCCTTAATCC AAGCCTTGTC TAACTTTAAG 
    TCATTGGAGC TCCAGGTTCA GGACACTGCA TGGGAAGAGT CTGAAGGGGA GATCCTCAAG 
    GCGGTGTCTG GGGAGGCCGT GATGGTAGTC CATGAAGAGA CCAGAGGTGT TCTGGCAGTG 
    GTAGGATTGG TAGAAGATGT GGACCGGCTC AGGCAGACAC TGGATGGGAT CATGGACAGG 
    ATTTCTAGAA GAATCGAGAG GGAGAAGACG AGCATAACAG AGGAGTTCCC TCTGGTTCCA 
    TCAATCTACC AGGTACTGTT GCATGGTGGC CTGCTGGACA AGATTGTTGG TGAATTCCCA 
    GACTTGAAGC TGACGTATAA TCAAGAGAGC CAGAGTGTGA CCATCTATGG GTTGATGCAA 
    GAGGTGTTGT GTGCTAACAG AAAGCTTGCA GGTGAAGTAG TAGCCCTGAA ACGAAAGCTG 
    GTGGAATTGG ATGAATACGT CCTTGAGTTC CTGCAGGAAG AAAGCCAGGA AAAGCTAACC 
    AGTTCCCTTC TCACCTTACA GAGCATCAAT GCAGCACTAG AAATAGAGAG AAAAGGAGTG 
    CAGCTTCTGG CTGTCTCTGA GGAGGCCCTG TGCGAAGCAG AACATCAACT GCATACGCTT 
    TTGATTTCTC AATACATAGA TGTAGAAGAC TCCGATCTCC TGAGGATGTC CGAGTGGAAG 
    GATATTGCCA ACCGTTTTGA GGAAGCGTCA AACACTCCTT TCAGGAAAGT TATGGTCCAG 
    ACATCAGGTG CCTATTCAGG ACAACAAGTG GTAGTGTCTG GCTACAAGGA AACTGTTCTC 
    TTAGTCCGAA ATGAATTGGA TGATTTCTTA CACAAAAATG CTCATGTTGA TGAAACTATC 
    GAAGTTAAGC CTGAGGCTAT TGGTAAATTC ATCCAGGAAC AACACAGGGA TGCTTGGTCT 
    GATAAAGTCA AAGATAGTGG AGTTAAAGTT TCTTTCAAGG ATGAGGCTAT TTACCTGAGT 
    GGCACCAGAG TTCACGTAGC AGATTGCAAG GCATTATTCG AAAACTTGGT ATCCTCCACA 
    TTCTTTGACG CCTTGAGAAT CTCCAAGCCT GGAGCAAAGA AGTTCTTCCA GGACAATGAG 
    CCCATGTATG TTGACACAGT CATGAATCAG ACAGGCTGTG TGGTCCAGCT GATTGAAGAA 
    GAGTATGATG CCAATGGCGG ACAAGGCATA AAGCTAGCAG GAGGAGGAAT GAAACCTACC 
    TACCAGCTTC AAACACCTGA TGGGGTGGAG ATAGCCGTTT GCAAAGCAGA CATGTGCAAA 
    TATTCTGTTC ACGCTGTTGT CAATGCTGCC GCCCTGGACC TGAAGCACAG TGGAGGTCTT 
    GCAGGAGCTC TTCTGGATAC TGCTGGCCCT CAACTGCAGG ATGAGTGCAA CCAGATCATC 
    AAGAACAAGG GTCAGCTCAA GCCAGGGGAC AGTGTCATCA CTGGTGCAGG AGGGAAGCTC 
    CGCTGCAAGC ACATCATTCA TGCAGTGGGA CCCAGGTTTG ACCAGGCAAA CCCCCAGAAG 
    GCCATGGGAC AGTTGAGGAG GGCGGTGAAA GGGAGTCTGG ATCTAGCAGA GACCCACAAC 
    TGCCTGTATG TGGCTCTTCC TGCTATTAGC TCTGGGAATC TAGGCTTTCC TCTGACCCTG 
    TGTGCAGACA CCATCGTCAA AGCAGTTAAA GAACACTGTG ACGACAAATT TGGGGACAAT 
    ACTCTGAAGA AGATCCATCT GGTGAACAAT GATGACAAGA CAGTCCAGGC TATGGAGGCA 
    GCGGTGCTGA AGGTGTTTGG GAGCCATGGA ACTAGTCATC CACGAGAGAA TCGACCCACC 
    ATAGCTACAC ACAGCCAGCC TGGTAATCGG GTTCAACGCA CAAGTGGTTC AAGTGGGAAG 
    ACAAAAGAGG GGCTGGCTAT TACCCTGACG AAAGGGAATA TCCAAGATGC TGTGACAGAA 
    GTTGTGGTCA ACACCGTGGG TGATGACCTA GCACTTAACC ATGGTGCAGT CTCCAAGGCC 
    ATCCTCGCCG CTGCTGGCCC CCAACTTCAG ACTCTGGTAA ACCAACAGGG CACAGCCGGA 
    AGGGCTGGGG AAGTCATTGT CACCACTGGC TGCAACCTGA AGTGCAAGCG GGTGTTTCAT 
    ACCATCGCCC CTCACTGGGA CAATGGACAA GGAGCACCAC AGAAGATATT GAGCAGGATC 
    GTGAAAGAGT GCTTGGATGA GGCAGAGGAT CAGGGACTCA TCTCGATCAC CTTCCCTGCC 
    ATCGGCACGG GAAACCTGGG CTTCCCCAAA GACCTGGTGG CCTCTCTGAT GCTGGATGAA 
    GTCCTCAAGT TTAGCAGTAA GAAGAACCCC AAACACCTGA AGGAGGTGGT CTTCATCCTC 
    CACCCAGGTG ATGCACCGAC GATCCAGGCT TTCACTGATG AATTTAACAA AAGGTTCAAA 
    ACCCAGTCGG GAACGTCAAG GGGCTCAGCA GCATCCAGTC AACAGAGTAA AGGCCCTTTC 
    TCTAAAATCA CTTCAAGCTC AGGGATGCAC GAGATGAAGA TGGGAGGGGT GCTTATACAG 
    GTCATCACAG GAGACATCAC CAAGGAGACC ACTGATGTCA TCGTCAACTC CTCCAATGAC 
    ACCTTCAGTC TCCAGTCAGG GGTATCTAAG GCCATTCTGG ATGTGGCTGG TCAGACTGTG 
    GTAGCGGAAT GCCAACAACT CGGAGCCCAG CCTAACAATG GAGTGATACT TACCCAGCCG 
    GGCAACATGC GGTGTAAGAA GATCATCCAC GTGGTTGGTC AGACGGACCC AAAGAAGATC 
    CAGGAGTCGG TCAAAGGAGC ACTGCAAATG TGTGCACAGA ATAACCTCAC ATCCATCTCC 
    TTCCCTGCTC TTGGCACAGG TCAGGGCAAT GTACAGGCGG GCCAGGTGGC TGACGCCATG 
    TTGGATGCTG TTGTGGAGGT GGTGGGTCAG AAGTCCCAAA ACACACTGCA GCTGGTCAGG 
    ATGGTCATCT TCCAGCCTGC CATGCTCACA GAGTTCCACA AATCTATGGT GAAGAAAGAG 
    GGCACAGACG TTGACACTCA AAAGAAGGGG AGCATCTGGG GAAAAATTAA ATCGTTGTTA 
    ACCTGGGGTA AAGCTGACAT GCCACAAAAG GATGAGGATT TTGTCATCGA GGGCCAGCAA 
    GTAGATCCAG CTTTCTTCCA TATCTGCGGT GGATCTCAGG CCAGAGTGGA CCAAGCCAAG 
    CGTTGGATCA AGGACCTGAT CCTGAAGGAG CAAGTCAGCA ACAGCATCAC CGATGACGCC 
    ATCCTCAACT TGTCTGACTC TGACCGTAAG TGCATCCACG AAATCCAGAC CACCATGGGA 
    GTGAGTGTGA GGATAGAATA CAATTCGTCC AGGGAGGAAG CTATGCTCAC GATCGAGGGC 
    CTTAGCAAGG ATGTCCTCAA TGCAGTCAAC GAGATCCAGA AGATGCTGAG GAAGGCCAGG 
    GACAAAGAGA CCTTCAACAG GAACGTGGAA GTGGCCAGCA ACATGGTGGA GTGGCAGTAT 
    CAGCAGCAGC CAGGGGGGCA GTACCAGAGC TTTGACCCCA TCCCCAACTT CCATCTGGAG 
    CAGGCACTGG AGAGGAAGTT GCCCCACGTA GAGGTCTCTT TCCAGGGGAA GATGTACACG 
    GTCACCCTGC CTGACGGGCC TGCTACAGAT ACCAATGGCA ACAGCCTCAA AATTAGACGC 
    ATCGACAAGT TGGCAGCTCA ACCCATTGAC AGTCTCCCTC AGCATTGGGA TGCCATGCCA 
    GCAAACACAT CATGCCATTC CTGCCTCATT CAGCCAGGAA GCCCAGAGCA CAATGAAGTC 
    TTAAACTTGT TCCTAGCCAC CTGCCCCAAC ATCGTTTTAA AGATTGAGAG GATCCAGAAC 
    CCAAGCCTGT GGAGGAACCT CCAGATCAAG AAGAATGAAA TGGAGCTCAG GAATGGTCAT 
    AAGAACAACG AGAAGAGGCT CTTCCATGGA ATGTGCCACA CAACCATTAA TCACATCAAC 
    CACCATGGCT TCAATCGGAG CTATGCTGGA AAAAATGCTG CAGTGTATGG AAATGGCACA 
    TATTTTGCAG TTTGTGCCAG ATACTCTGCC AGTAACACAT ACTCAAGACC AGATCCACAA 
    GGACAGAAGT ATATTTTTCT CTGCCGAGTT CTGACTGGCG ATTTCACAAC AGGACGACAG 
    GGGATGATAG TGCCTCCAGC TAAAAACACT ACATCTGCTC AACTCTACGA CAGCGTGACA 
    GACAACCCAT CAGCGCCATC CATGTTCATT GTATTCAACG ACATTCAGGC ATATCCTGAG 
    TACTTGATCA CTTTCCGCTA G

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

    RefSeq XP_014047714.1
    CDS314..5914
    Translation

    Target ORF information:

    RefSeq Version XM_014192239.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106600688), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014192239.1

    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
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGCAGAAG CCTACGCATT TTCCCTGCTT GTTGAGTTGG AGGGGAATCC CAATATTCCC 
    AAACTGAAAA ACAAGTTGGT AAAATATTTC CAAAGTAAAA AGTCTAATGG TGGTGATTGT 
    CTTGTGGAAT ACGAAGATGG ACAAGAAGCA GTAGTGCGGT TCAAAACGGA GGAGGTCAGG 
    CATAGAGTTC TTGAGAAGCA GGAGCACGAG ATCAGGTTGG ATCGAGGGGT GCTGAAACTG 
    ATCATTCGTC TGCCATCAGA TGATGTCCCA AAGAGTGCAC AGGAAACACA GTCTCCTATC 
    ACCTCAGCAG GTTATAGGGA GCCAATTGAC AGCCAGCTCA TGGCGTCAGC TAAGAGGAAG 
    GCAGAGGCTG ATGCTCCTCA GCAGGAATTA CTAGGCTTCA AAAAGCAAGC TGTTGCTGCT 
    ACTGATTCAA AAGACTTACC AAAGAGCGGG GTTGGAGATG GACACACTCC CCTTACTGAG 
    CCACAGACAG AGATGGAGAT TGAACCGATG GAAGTCGAGG AAAAGCTGGT GTCCACCTCA 
    GCCGTGTTGG GGAACATTGA GGAGAGCATG AACAAGGAGT TCCTGGAGAT GCTGATAGAG 
    AACATCCTGA GTGCGTATAA CACCTCTGGT TCTGACTCTC CTACTGCAAC ACAGACCTTC 
    AGTTTGGAGA TCCTGACACC TGTCCTAGAC ACCGGCCTGG CTGTGGTGAC TTTCCAAAAT 
    GGAAAAGAGA CTGAGAACTT CATCACCAGC TGCACCAGCA ACAGGATGTT CAGACAGAAA 
    CAACTATCTG TTAAACTCCT GGAACTCACC ACAAAAGTGA AAGTTGAAAA CATAAATCCA 
    AATGTTAGTT CAGACCACCT CCAACTGTTA TTTGGAAAAG GGGGCGAGGA GGTGGAAGAC 
    ACTGAAATGA ATGAAGAGGA CCAATCAGCA ATCCTCACCT TTCAAGATCC TAAAGCTGTT 
    CACAGAGTCC TAGAGAAACC ACATTACATC GAGAAGCAGC CTCTCAAGGC TTTCCCCTTC 
    TATGATTCTC TGGGAACGGC CTTGTATGGC AAAGACAGAC CCACATTGAA ACTCCCTTCT 
    GCTTTCACTG AAAACATAAA CCACGCAATT TGGAGATACC TCTGTGACAA CCAGGAAGCT 
    GCAGAGACCA TCCACAAGGA AATGACCAAA CACTTCTGCA ATGTAGACTT CCAACAACCT 
    ACCATCAAGT TAAGCCCACT GCCATCTCTA CTCAAACAGA CGGGTGTGAA ACCCAAGCAC 
    TTACAACAAT GGAAGGACAC CACCAAAGTT GCCTTAATCC AAGCCTTGTC TAACTTTAAG 
    TCATTGGAGC TCCAGGTTCA GGACACTGCA TGGGAAGAGT CTGAAGGGGA GATCCTCAAG 
    GCGGTGTCTG GGGAGGCCGT GATGGTAGTC CATGAAGAGA CCAGAGGTGT TCTGGCAGTG 
    GTAGGATTGG TAGAAGATGT GGACCGGCTC AGGCAGACAC TGGATGGGAT CATGGACAGG 
    ATTTCTAGAA GAATCGAGAG GGAGAAGACG AGCATAACAG AGGAGTTCCC TCTGGTTCCA 
    TCAATCTACC AGGTACTGTT GCATGGTGGC CTGCTGGACA AGATTGTTGG TGAATTCCCA 
    GACTTGAAGC TGACGTATAA TCAAGAGAGC CAGAGTGTGA CCATCTATGG GTTGATGCAA 
    GAGGTGTTGT GTGCTAACAG AAAGCTTGCA GGTGAAGTAG TAGCCCTGAA ACGAAAGCTG 
    GTGGAATTGG ATGAATACGT CCTTGAGTTC CTGCAGGAAG AAAGCCAGGA AAAGCTAACC 
    AGTTCCCTTC TCACCTTACA GAGCATCAAT GCAGCACTAG AAATAGAGAG AAAAGGAGTG 
    CAGCTTCTGG CTGTCTCTGA GGAGGCCCTG TGCGAAGCAG AACATCAACT GCATACGCTT 
    TTGATTTCTC AATACATAGA TGTAGAAGAC TCCGATCTCC TGAGGATGTC CGAGTGGAAG 
    GATATTGCCA ACCGTTTTGA GGAAGCGTCA AACACTCCTT TCAGGAAAGT TATGGTCCAG 
    ACATCAGGTG CCTATTCAGG ACAACAAGTG GTAGTGTCTG GCTACAAGGA AACTGTTCTC 
    TTAGTCCGAA ATGAATTGGA TGATTTCTTA CACAAAAATG CTCATGTTGA TGAAACTATC 
    GAAGTTAAGC CTGAGGCTAT TGGTAAATTC ATCCAGGAAC AACACAGGGA TGCTTGGTCT 
    GATAAAGTCA AAGATAGTGG AGTTAAAGTT TCTTTCAAGG ATGAGGCTAT TTACCTGAGT 
    GGCACCAGAG TTCACGTAGC AGATTGCAAG GCATTATTCG AAAACTTGGT ATCCTCCACA 
    TTCTTTGACG CCTTGAGAAT CTCCAAGCCT GGAGCAAAGA AGTTCTTCCA GGACAATGAG 
    CCCATGTATG TTGACACAGT CATGAATCAG ACAGGCTGTG TGGTCCAGCT GATTGAAGAA 
    GAGTATGATG CCAATGGCGG ACAAGGCATA AAGCTAGCAG GAGGAGGAAT GAAACCTACC 
    TACCAGCTTC AAACACCTGA TGGGGTGGAG ATAGCCGTTT GCAAAGCAGA CATGTGCAAA 
    TATTCTGTTC ACGCTGTTGT CAATGCTGCC GCCCTGGACC TGAAGCACAG TGGAGGTCTT 
    GCAGGAGCTC TTCTGGATAC TGCTGGCCCT CAACTGCAGG ATGAGTGCAA CCAGATCATC 
    AAGAACAAGG GTCAGCTCAA GCCAGGGGAC AGTGTCATCA CTGGTGCAGG AGGGAAGCTC 
    CGCTGCAAGC ACATCATTCA TGCAGTGGGA CCCAGGTTTG ACCAGGCAAA CCCCCAGAAG 
    GCCATGGGAC AGTTGAGGAG GGCGGTGAAA GGGAGTCTGG ATCTAGCAGA GACCCACAAC 
    TGCCTGTATG TGGCTCTTCC TGCTATTAGC TCTGGGAATC TAGGCTTTCC TCTGACCCTG 
    TGTGCAGACA CCATCGTCAA AGCAGTTAAA GAACACTGTG ACGACAAATT TGGGGACAAT 
    ACTCTGAAGA AGATCCATCT GGTGAACAAT GATGACAAGA CAGTCCAGGC TATGGAGGCA 
    GCGGTGCTGA AGGTGTTTGG GAGCCATGGA ACTAGTCATC CACGAGAGAA TCGACCCACC 
    ATAGCTACAC ACAGCCAGCC TGGTAATCGG GTTCAACGCA CAAGTGGTTC AAGTGGGAAG 
    ACAAAAGAGG GGCTGGCTAT TACCCTGACG AAAGGGAATA TCCAAGATGC TGTGACAGAA 
    GTTGTGGTCA ACACCGTGGG TGATGACCTA GCACTTAACC ATGGTGCAGT CTCCAAGGCC 
    ATCCTCGCCG CTGCTGGCCC CCAACTTCAG ACTCTGGTAA ACCAACAGGG CACAGCCGGA 
    AGGGCTGGGG AAGTCATTGT CACCACTGGC TGCAACCTGA AGTGCAAGCG GGTGTTTCAT 
    ACCATCGCCC CTCACTGGGA CAATGGACAA GGAGCACCAC AGAAGATATT GAGCAGGATC 
    GTGAAAGAGT GCTTGGATGA GGCAGAGGAT CAGGGACTCA TCTCGATCAC CTTCCCTGCC 
    ATCGGCACGG GAAACCTGGG CTTCCCCAAA GACCTGGTGG CCTCTCTGAT GCTGGATGAA 
    GTCCTCAAGT TTAGCAGTAA GAAGAACCCC AAACACCTGA AGGAGGTGGT CTTCATCCTC 
    CACCCAGGTG ATGCACCGAC GATCCAGGCT TTCACTGATG AATTTAACAA AAGGTTCAAA 
    ACCCAGTCGG GAACGTCAAG GGGCTCAGCA GCATCCAGTC AACAGAGTAA AGGCCCTTTC 
    TCTAAAATCA CTTCAAGCTC AGGGATGCAC GAGATGAAGA TGGGAGGGGT GCTTATACAG 
    GTCATCACAG GAGACATCAC CAAGGAGACC ACTGATGTCA TCGTCAACTC CTCCAATGAC 
    ACCTTCAGTC TCCAGTCAGG GGTATCTAAG GCCATTCTGG ATGTGGCTGG TCAGACTGTG 
    GTAGCGGAAT GCCAACAACT CGGAGCCCAG CCTAACAATG GAGTGATACT TACCCAGCCG 
    GGCAACATGC GGTGTAAGAA GATCATCCAC GTGGTTGGTC AGACGGACCC AAAGAAGATC 
    CAGGAGTCGG TCAAAGGAGC ACTGCAAATG TGTGCACAGA ATAACCTCAC ATCCATCTCC 
    TTCCCTGCTC TTGGCACAGG TCAGGGCAAT GTACAGGCGG GCCAGGTGGC TGACGCCATG 
    TTGGATGCTG TTGTGGAGGT GGTGGGTCAG AAGTCCCAAA ACACACTGCA GCTGGTCAGG 
    ATGGTCATCT TCCAGCCTGC CATGCTCACA GAGTTCCACA AATCTATGGT GAAGAAAGAG 
    GGCACAGACG TTGACACTCA AAAGAAGGGG AGCATCTGGG GAAAAATTAA ATCGTTGTTA 
    ACCTGGGGTA AAGCTGACAT GCCACAAAAG GATGAGGATT TTGTCATCGA GGGCCAGCAA 
    GTAGATCCAG CTTTCTTCCA TATCTGCGGT GGATCTCAGG CCAGAGTGGA CCAAGCCAAG 
    CGTTGGATCA AGGACCTGAT CCTGAAGGAG CAAGTCAGCA ACAGCATCAC CGATGACGCC 
    ATCCTCAACT TGTCTGACTC TGACCGTAAG TGCATCCACG AAATCCAGAC CACCATGGGA 
    GTGAGTGTGA GGATAGAATA CAATTCGTCC AGGGAGGAAG CTATGCTCAC GATCGAGGGC 
    CTTAGCAAGG ATGTCCTCAA TGCAGTCAAC GAGATCCAGA AGATGCTGAG GAAGGCCAGG 
    GACAAAGAGA CCTTCAACAG GAACGTGGAA GTGGCCAGCA ACATGGTGGA GTGGCAGTAT 
    CAGCAGCAGC CAGGGGGGCA GTACCAGAGC TTTGACCCCA TCCCCAACTT CCATCTGGAG 
    CAGGCACTGG AGAGGAAGTT GCCCCACGTA GAGGTCTCTT TCCAGGGGAA GATGTACACG 
    GTCACCCTGC CTGACGGGCC TGCTACAGAT ACCAATGGCA ACAGCCTCAA AATTAGACGC 
    ATCGACAAGT TGGCAGCTCA ACCCATTGAC AGTCTCCCTC AGCATTGGGA TGCCATGCCA 
    GCAAACACAT CATGCCATTC CTGCCTCATT CAGCCAGGAA GCCCAGAGCA CAATGAAGTC 
    TTAAACTTGT TCCTAGCCAC CTGCCCCAAC ATCGTTTTAA AGATTGAGAG GATCCAGAAC 
    CCAAGCCTGT GGAGGAACCT CCAGATCAAG AAGAATGAAA TGGAGCTCAG GAATGGTCAT 
    AAGAACAACG AGAAGAGGCT CTTCCATGGA ATGTGCCACA CAACCATTAA TCACATCAAC 
    CACCATGGCT TCAATCGGAG CTATGCTGGA AAAAATGCTG CAGTGTATGG AAATGGCACA 
    TATTTTGCAG TTTGTGCCAG ATACTCTGCC AGTAACACAT ACTCAAGACC AGATCCACAA 
    GGACAGAAGT ATATTTTTCT CTGCCGAGTT CTGACTGGCG ATTTCACAAC AGGACGACAG 
    GGGATGATAG TGCCTCCAGC TAAAAACACT ACATCTGCTC AACTCTACGA CAGCGTGACA 
    GACAACCCAT CAGCGCCATC CATGTTCATT GTATTCAACG ACATTCAGGC ATATCCTGAG 
    TACTTGATCA CTTTCCGCTA G

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

    LOC106600688 ( XM_014192240.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014047715.1 Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106600688), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAt13010
    Clone ID Related Accession (Same CDS sequence) XM_014192240.1
    Accession Version XM_014192240.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5493bp)
    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 1442678400000
    Organism Salmo salar(Atlantic salmon)
    Product poly [ADP-ribose] polymerase 14-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012333569.1) 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 :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGGCAGAAG CCTACGCATT TTCCCTGCTT GTTGAGTTGG AGGGGAATCC CAATATTCCC 
    AAACTGAAAA ACAAGTTGGT AAAATATTTC CAAAGTAAAA AGTCTAATGG TGGTGATTGT 
    CTTGTGGAAT ACGAAGATGG ACAAGAAGCA GTAGTGCGGT TCAAAACGGA GGAGGTCAGG 
    CATAGAGTTC TTGAGAAGCA GGAGCACGAG ATCAGGTTGG ATCGAGGGGT GCTGAAACTG 
    ATCATTCGTC TGCCATCAGA TGATGTCCCA AAGAGTGCAC AGGAAACACA GTCTCCTATC 
    ACCTCAGCTG CTACTGATTC AAAAGACTTA CCAAAGAGCG GGGTTGGAGA TGGACACACT 
    CCCCTTACTG AGCCACAGAC AGAGATGGAG ATTGAACCGA TGGAAGTCGA GGAAAAGCTG 
    GTGTCCACCT CAGCCGTGTT GGGGAACATT GAGGAGAGCA TGAACAAGGA GTTCCTGGAG 
    ATGCTGATAG AGAACATCCT GAGTGCGTAT AACACCTCTG GTTCTGACTC TCCTACTGCA 
    ACACAGACCT TCAGTTTGGA GATCCTGACA CCTGTCCTAG ACACCGGCCT GGCTGTGGTG 
    ACTTTCCAAA ATGGAAAAGA GACTGAGAAC TTCATCACCA GCTGCACCAG CAACAGGATG 
    TTCAGACAGA AACAACTATC TGTTAAACTC CTGGAACTCA CCACAAAAGT GAAAGTTGAA 
    AACATAAATC CAAATGTTAG TTCAGACCAC CTCCAACTGT TATTTGGAAA AGGGGGCGAG 
    GAGGTGGAAG ACACTGAAAT GAATGAAGAG GACCAATCAG CAATCCTCAC CTTTCAAGAT 
    CCTAAAGCTG TTCACAGAGT CCTAGAGAAA CCACATTACA TCGAGAAGCA GCCTCTCAAG 
    GCTTTCCCCT TCTATGATTC TCTGGGAACG GCCTTGTATG GCAAAGACAG ACCCACATTG 
    AAACTCCCTT CTGCTTTCAC TGAAAACATA AACCACGCAA TTTGGAGATA CCTCTGTGAC 
    AACCAGGAAG CTGCAGAGAC CATCCACAAG GAAATGACCA AACACTTCTG CAATGTAGAC 
    TTCCAACAAC CTACCATCAA GTTAAGCCCA CTGCCATCTC TACTCAAACA GACGGGTGTG 
    AAACCCAAGC ACTTACAACA ATGGAAGGAC ACCACCAAAG TTGCCTTAAT CCAAGCCTTG 
    TCTAACTTTA AGTCATTGGA GCTCCAGGTT CAGGACACTG CATGGGAAGA GTCTGAAGGG 
    GAGATCCTCA AGGCGGTGTC TGGGGAGGCC GTGATGGTAG TCCATGAAGA GACCAGAGGT 
    GTTCTGGCAG TGGTAGGATT GGTAGAAGAT GTGGACCGGC TCAGGCAGAC ACTGGATGGG 
    ATCATGGACA GGATTTCTAG AAGAATCGAG AGGGAGAAGA CGAGCATAAC AGAGGAGTTC 
    CCTCTGGTTC CATCAATCTA CCAGGTACTG TTGCATGGTG GCCTGCTGGA CAAGATTGTT 
    GGTGAATTCC CAGACTTGAA GCTGACGTAT AATCAAGAGA GCCAGAGTGT GACCATCTAT 
    GGGTTGATGC AAGAGGTGTT GTGTGCTAAC AGAAAGCTTG CAGGTGAAGT AGTAGCCCTG 
    AAACGAAAGC TGGTGGAATT GGATGAATAC GTCCTTGAGT TCCTGCAGGA AGAAAGCCAG 
    GAAAAGCTAA CCAGTTCCCT TCTCACCTTA CAGAGCATCA ATGCAGCACT AGAAATAGAG 
    AGAAAAGGAG TGCAGCTTCT GGCTGTCTCT GAGGAGGCCC TGTGCGAAGC AGAACATCAA 
    CTGCATACGC TTTTGATTTC TCAATACATA GATGTAGAAG ACTCCGATCT CCTGAGGATG 
    TCCGAGTGGA AGGATATTGC CAACCGTTTT GAGGAAGCGT CAAACACTCC TTTCAGGAAA 
    GTTATGGTCC AGACATCAGG TGCCTATTCA GGACAACAAG TGGTAGTGTC TGGCTACAAG 
    GAAACTGTTC TCTTAGTCCG AAATGAATTG GATGATTTCT TACACAAAAA TGCTCATGTT 
    GATGAAACTA TCGAAGTTAA GCCTGAGGCT ATTGGTAAAT TCATCCAGGA ACAACACAGG 
    GATGCTTGGT CTGATAAAGT CAAAGATAGT GGAGTTAAAG TTTCTTTCAA GGATGAGGCT 
    ATTTACCTGA GTGGCACCAG AGTTCACGTA GCAGATTGCA AGGCATTATT CGAAAACTTG 
    GTATCCTCCA CATTCTTTGA CGCCTTGAGA ATCTCCAAGC CTGGAGCAAA GAAGTTCTTC 
    CAGGACAATG AGCCCATGTA TGTTGACACA GTCATGAATC AGACAGGCTG TGTGGTCCAG 
    CTGATTGAAG AAGAGTATGA TGCCAATGGC GGACAAGGCA TAAAGCTAGC AGGAGGAGGA 
    ATGAAACCTA CCTACCAGCT TCAAACACCT GATGGGGTGG AGATAGCCGT TTGCAAAGCA 
    GACATGTGCA AATATTCTGT TCACGCTGTT GTCAATGCTG CCGCCCTGGA CCTGAAGCAC 
    AGTGGAGGTC TTGCAGGAGC TCTTCTGGAT ACTGCTGGCC CTCAACTGCA GGATGAGTGC 
    AACCAGATCA TCAAGAACAA GGGTCAGCTC AAGCCAGGGG ACAGTGTCAT CACTGGTGCA 
    GGAGGGAAGC TCCGCTGCAA GCACATCATT CATGCAGTGG GACCCAGGTT TGACCAGGCA 
    AACCCCCAGA AGGCCATGGG ACAGTTGAGG AGGGCGGTGA AAGGGAGTCT GGATCTAGCA 
    GAGACCCACA ACTGCCTGTA TGTGGCTCTT CCTGCTATTA GCTCTGGGAA TCTAGGCTTT 
    CCTCTGACCC TGTGTGCAGA CACCATCGTC AAAGCAGTTA AAGAACACTG TGACGACAAA 
    TTTGGGGACA ATACTCTGAA GAAGATCCAT CTGGTGAACA ATGATGACAA GACAGTCCAG 
    GCTATGGAGG CAGCGGTGCT GAAGGTGTTT GGGAGCCATG GAACTAGTCA TCCACGAGAG 
    AATCGACCCA CCATAGCTAC ACACAGCCAG CCTGGTAATC GGGTTCAACG CACAAGTGGT 
    TCAAGTGGGA AGACAAAAGA GGGGCTGGCT ATTACCCTGA CGAAAGGGAA TATCCAAGAT 
    GCTGTGACAG AAGTTGTGGT CAACACCGTG GGTGATGACC TAGCACTTAA CCATGGTGCA 
    GTCTCCAAGG CCATCCTCGC CGCTGCTGGC CCCCAACTTC AGACTCTGGT AAACCAACAG 
    GGCACAGCCG GAAGGGCTGG GGAAGTCATT GTCACCACTG GCTGCAACCT GAAGTGCAAG 
    CGGGTGTTTC ATACCATCGC CCCTCACTGG GACAATGGAC AAGGAGCACC ACAGAAGATA 
    TTGAGCAGGA TCGTGAAAGA GTGCTTGGAT GAGGCAGAGG ATCAGGGACT CATCTCGATC 
    ACCTTCCCTG CCATCGGCAC GGGAAACCTG GGCTTCCCCA AAGACCTGGT GGCCTCTCTG 
    ATGCTGGATG AAGTCCTCAA GTTTAGCAGT AAGAAGAACC CCAAACACCT GAAGGAGGTG 
    GTCTTCATCC TCCACCCAGG TGATGCACCG ACGATCCAGG CTTTCACTGA TGAATTTAAC 
    AAAAGGTTCA AAACCCAGTC GGGAACGTCA AGGGGCTCAG CAGCATCCAG TCAACAGAGT 
    AAAGGCCCTT TCTCTAAAAT CACTTCAAGC TCAGGGATGC ACGAGATGAA GATGGGAGGG 
    GTGCTTATAC AGGTCATCAC AGGAGACATC ACCAAGGAGA CCACTGATGT CATCGTCAAC 
    TCCTCCAATG ACACCTTCAG TCTCCAGTCA GGGGTATCTA AGGCCATTCT GGATGTGGCT 
    GGTCAGACTG TGGTAGCGGA ATGCCAACAA CTCGGAGCCC AGCCTAACAA TGGAGTGATA 
    CTTACCCAGC CGGGCAACAT GCGGTGTAAG AAGATCATCC ACGTGGTTGG TCAGACGGAC 
    CCAAAGAAGA TCCAGGAGTC GGTCAAAGGA GCACTGCAAA TGTGTGCACA GAATAACCTC 
    ACATCCATCT CCTTCCCTGC TCTTGGCACA GGTCAGGGCA ATGTACAGGC GGGCCAGGTG 
    GCTGACGCCA TGTTGGATGC TGTTGTGGAG GTGGTGGGTC AGAAGTCCCA AAACACACTG 
    CAGCTGGTCA GGATGGTCAT CTTCCAGCCT GCCATGCTCA CAGAGTTCCA CAAATCTATG 
    GTGAAGAAAG AGGGCACAGA CGTTGACACT CAAAAGAAGG GGAGCATCTG GGGAAAAATT 
    AAATCGTTGT TAACCTGGGG TAAAGCTGAC ATGCCACAAA AGGATGAGGA TTTTGTCATC 
    GAGGGCCAGC AAGTAGATCC AGCTTTCTTC CATATCTGCG GTGGATCTCA GGCCAGAGTG 
    GACCAAGCCA AGCGTTGGAT CAAGGACCTG ATCCTGAAGG AGCAAGTCAG CAACAGCATC 
    ACCGATGACG CCATCCTCAA CTTGTCTGAC TCTGACCGTA AGTGCATCCA CGAAATCCAG 
    ACCACCATGG GAGTGAGTGT GAGGATAGAA TACAATTCGT CCAGGGAGGA AGCTATGCTC 
    ACGATCGAGG GCCTTAGCAA GGATGTCCTC AATGCAGTCA ACGAGATCCA GAAGATGCTG 
    AGGAAGGCCA GGGACAAAGA GACCTTCAAC AGGAACGTGG AAGTGGCCAG CAACATGGTG 
    GAGTGGCAGT ATCAGCAGCA GCCAGGGGGG CAGTACCAGA GCTTTGACCC CATCCCCAAC 
    TTCCATCTGG AGCAGGCACT GGAGAGGAAG TTGCCCCACG TAGAGGTCTC TTTCCAGGGG 
    AAGATGTACA CGGTCACCCT GCCTGACGGG CCTGCTACAG ATACCAATGG CAACAGCCTC 
    AAAATTAGAC GCATCGACAA GTTGGCAGCT CAACCCATTG ACAGTCTCCC TCAGCATTGG 
    GATGCCATGC CAGCAAACAC ATCATGCCAT TCCTGCCTCA TTCAGCCAGG AAGCCCAGAG 
    CACAATGAAG TCTTAAACTT GTTCCTAGCC ACCTGCCCCA ACATCGTTTT AAAGATTGAG 
    AGGATCCAGA ACCCAAGCCT GTGGAGGAAC CTCCAGATCA AGAAGAATGA AATGGAGCTC 
    AGGAATGGTC ATAAGAACAA CGAGAAGAGG CTCTTCCATG GAATGTGCCA CACAACCATT 
    AATCACATCA ACCACCATGG CTTCAATCGG AGCTATGCTG GAAAAAATGC TGCAGTGTAT 
    GGAAATGGCA CATATTTTGC AGTTTGTGCC AGATACTCTG CCAGTAACAC ATACTCAAGA 
    CCAGATCCAC AAGGACAGAA GTATATTTTT CTCTGCCGAG TTCTGACTGG CGATTTCACA 
    ACAGGACGAC AGGGGATGAT AGTGCCTCCA GCTAAAAACA CTACATCTGC TCAACTCTAC 
    GACAGCGTGA CAGACAACCC ATCAGCGCCA TCCATGTTCA TTGTATTCAA CGACATTCAG 
    GCATATCCTG AGTACTTGAT CACTTTCCGC TAG

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

    RefSeq XP_014047715.1
    CDS314..5806
    Translation

    Target ORF information:

    RefSeq Version XM_014192240.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106600688), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014192240.1

    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
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGGCAGAAG CCTACGCATT TTCCCTGCTT GTTGAGTTGG AGGGGAATCC CAATATTCCC 
    AAACTGAAAA ACAAGTTGGT AAAATATTTC CAAAGTAAAA AGTCTAATGG TGGTGATTGT 
    CTTGTGGAAT ACGAAGATGG ACAAGAAGCA GTAGTGCGGT TCAAAACGGA GGAGGTCAGG 
    CATAGAGTTC TTGAGAAGCA GGAGCACGAG ATCAGGTTGG ATCGAGGGGT GCTGAAACTG 
    ATCATTCGTC TGCCATCAGA TGATGTCCCA AAGAGTGCAC AGGAAACACA GTCTCCTATC 
    ACCTCAGCTG CTACTGATTC AAAAGACTTA CCAAAGAGCG GGGTTGGAGA TGGACACACT 
    CCCCTTACTG AGCCACAGAC AGAGATGGAG ATTGAACCGA TGGAAGTCGA GGAAAAGCTG 
    GTGTCCACCT CAGCCGTGTT GGGGAACATT GAGGAGAGCA TGAACAAGGA GTTCCTGGAG 
    ATGCTGATAG AGAACATCCT GAGTGCGTAT AACACCTCTG GTTCTGACTC TCCTACTGCA 
    ACACAGACCT TCAGTTTGGA GATCCTGACA CCTGTCCTAG ACACCGGCCT GGCTGTGGTG 
    ACTTTCCAAA ATGGAAAAGA GACTGAGAAC TTCATCACCA GCTGCACCAG CAACAGGATG 
    TTCAGACAGA AACAACTATC TGTTAAACTC CTGGAACTCA CCACAAAAGT GAAAGTTGAA 
    AACATAAATC CAAATGTTAG TTCAGACCAC CTCCAACTGT TATTTGGAAA AGGGGGCGAG 
    GAGGTGGAAG ACACTGAAAT GAATGAAGAG GACCAATCAG CAATCCTCAC CTTTCAAGAT 
    CCTAAAGCTG TTCACAGAGT CCTAGAGAAA CCACATTACA TCGAGAAGCA GCCTCTCAAG 
    GCTTTCCCCT TCTATGATTC TCTGGGAACG GCCTTGTATG GCAAAGACAG ACCCACATTG 
    AAACTCCCTT CTGCTTTCAC TGAAAACATA AACCACGCAA TTTGGAGATA CCTCTGTGAC 
    AACCAGGAAG CTGCAGAGAC CATCCACAAG GAAATGACCA AACACTTCTG CAATGTAGAC 
    TTCCAACAAC CTACCATCAA GTTAAGCCCA CTGCCATCTC TACTCAAACA GACGGGTGTG 
    AAACCCAAGC ACTTACAACA ATGGAAGGAC ACCACCAAAG TTGCCTTAAT CCAAGCCTTG 
    TCTAACTTTA AGTCATTGGA GCTCCAGGTT CAGGACACTG CATGGGAAGA GTCTGAAGGG 
    GAGATCCTCA AGGCGGTGTC TGGGGAGGCC GTGATGGTAG TCCATGAAGA GACCAGAGGT 
    GTTCTGGCAG TGGTAGGATT GGTAGAAGAT GTGGACCGGC TCAGGCAGAC ACTGGATGGG 
    ATCATGGACA GGATTTCTAG AAGAATCGAG AGGGAGAAGA CGAGCATAAC AGAGGAGTTC 
    CCTCTGGTTC CATCAATCTA CCAGGTACTG TTGCATGGTG GCCTGCTGGA CAAGATTGTT 
    GGTGAATTCC CAGACTTGAA GCTGACGTAT AATCAAGAGA GCCAGAGTGT GACCATCTAT 
    GGGTTGATGC AAGAGGTGTT GTGTGCTAAC AGAAAGCTTG CAGGTGAAGT AGTAGCCCTG 
    AAACGAAAGC TGGTGGAATT GGATGAATAC GTCCTTGAGT TCCTGCAGGA AGAAAGCCAG 
    GAAAAGCTAA CCAGTTCCCT TCTCACCTTA CAGAGCATCA ATGCAGCACT AGAAATAGAG 
    AGAAAAGGAG TGCAGCTTCT GGCTGTCTCT GAGGAGGCCC TGTGCGAAGC AGAACATCAA 
    CTGCATACGC TTTTGATTTC TCAATACATA GATGTAGAAG ACTCCGATCT CCTGAGGATG 
    TCCGAGTGGA AGGATATTGC CAACCGTTTT GAGGAAGCGT CAAACACTCC TTTCAGGAAA 
    GTTATGGTCC AGACATCAGG TGCCTATTCA GGACAACAAG TGGTAGTGTC TGGCTACAAG 
    GAAACTGTTC TCTTAGTCCG AAATGAATTG GATGATTTCT TACACAAAAA TGCTCATGTT 
    GATGAAACTA TCGAAGTTAA GCCTGAGGCT ATTGGTAAAT TCATCCAGGA ACAACACAGG 
    GATGCTTGGT CTGATAAAGT CAAAGATAGT GGAGTTAAAG TTTCTTTCAA GGATGAGGCT 
    ATTTACCTGA GTGGCACCAG AGTTCACGTA GCAGATTGCA AGGCATTATT CGAAAACTTG 
    GTATCCTCCA CATTCTTTGA CGCCTTGAGA ATCTCCAAGC CTGGAGCAAA GAAGTTCTTC 
    CAGGACAATG AGCCCATGTA TGTTGACACA GTCATGAATC AGACAGGCTG TGTGGTCCAG 
    CTGATTGAAG AAGAGTATGA TGCCAATGGC GGACAAGGCA TAAAGCTAGC AGGAGGAGGA 
    ATGAAACCTA CCTACCAGCT TCAAACACCT GATGGGGTGG AGATAGCCGT TTGCAAAGCA 
    GACATGTGCA AATATTCTGT TCACGCTGTT GTCAATGCTG CCGCCCTGGA CCTGAAGCAC 
    AGTGGAGGTC TTGCAGGAGC TCTTCTGGAT ACTGCTGGCC CTCAACTGCA GGATGAGTGC 
    AACCAGATCA TCAAGAACAA GGGTCAGCTC AAGCCAGGGG ACAGTGTCAT CACTGGTGCA 
    GGAGGGAAGC TCCGCTGCAA GCACATCATT CATGCAGTGG GACCCAGGTT TGACCAGGCA 
    AACCCCCAGA AGGCCATGGG ACAGTTGAGG AGGGCGGTGA AAGGGAGTCT GGATCTAGCA 
    GAGACCCACA ACTGCCTGTA TGTGGCTCTT CCTGCTATTA GCTCTGGGAA TCTAGGCTTT 
    CCTCTGACCC TGTGTGCAGA CACCATCGTC AAAGCAGTTA AAGAACACTG TGACGACAAA 
    TTTGGGGACA ATACTCTGAA GAAGATCCAT CTGGTGAACA ATGATGACAA GACAGTCCAG 
    GCTATGGAGG CAGCGGTGCT GAAGGTGTTT GGGAGCCATG GAACTAGTCA TCCACGAGAG 
    AATCGACCCA CCATAGCTAC ACACAGCCAG CCTGGTAATC GGGTTCAACG CACAAGTGGT 
    TCAAGTGGGA AGACAAAAGA GGGGCTGGCT ATTACCCTGA CGAAAGGGAA TATCCAAGAT 
    GCTGTGACAG AAGTTGTGGT CAACACCGTG GGTGATGACC TAGCACTTAA CCATGGTGCA 
    GTCTCCAAGG CCATCCTCGC CGCTGCTGGC CCCCAACTTC AGACTCTGGT AAACCAACAG 
    GGCACAGCCG GAAGGGCTGG GGAAGTCATT GTCACCACTG GCTGCAACCT GAAGTGCAAG 
    CGGGTGTTTC ATACCATCGC CCCTCACTGG GACAATGGAC AAGGAGCACC ACAGAAGATA 
    TTGAGCAGGA TCGTGAAAGA GTGCTTGGAT GAGGCAGAGG ATCAGGGACT CATCTCGATC 
    ACCTTCCCTG CCATCGGCAC GGGAAACCTG GGCTTCCCCA AAGACCTGGT GGCCTCTCTG 
    ATGCTGGATG AAGTCCTCAA GTTTAGCAGT AAGAAGAACC CCAAACACCT GAAGGAGGTG 
    GTCTTCATCC TCCACCCAGG TGATGCACCG ACGATCCAGG CTTTCACTGA TGAATTTAAC 
    AAAAGGTTCA AAACCCAGTC GGGAACGTCA AGGGGCTCAG CAGCATCCAG TCAACAGAGT 
    AAAGGCCCTT TCTCTAAAAT CACTTCAAGC TCAGGGATGC ACGAGATGAA GATGGGAGGG 
    GTGCTTATAC AGGTCATCAC AGGAGACATC ACCAAGGAGA CCACTGATGT CATCGTCAAC 
    TCCTCCAATG ACACCTTCAG TCTCCAGTCA GGGGTATCTA AGGCCATTCT GGATGTGGCT 
    GGTCAGACTG TGGTAGCGGA ATGCCAACAA CTCGGAGCCC AGCCTAACAA TGGAGTGATA 
    CTTACCCAGC CGGGCAACAT GCGGTGTAAG AAGATCATCC ACGTGGTTGG TCAGACGGAC 
    CCAAAGAAGA TCCAGGAGTC GGTCAAAGGA GCACTGCAAA TGTGTGCACA GAATAACCTC 
    ACATCCATCT CCTTCCCTGC TCTTGGCACA GGTCAGGGCA ATGTACAGGC GGGCCAGGTG 
    GCTGACGCCA TGTTGGATGC TGTTGTGGAG GTGGTGGGTC AGAAGTCCCA AAACACACTG 
    CAGCTGGTCA GGATGGTCAT CTTCCAGCCT GCCATGCTCA CAGAGTTCCA CAAATCTATG 
    GTGAAGAAAG AGGGCACAGA CGTTGACACT CAAAAGAAGG GGAGCATCTG GGGAAAAATT 
    AAATCGTTGT TAACCTGGGG TAAAGCTGAC ATGCCACAAA AGGATGAGGA TTTTGTCATC 
    GAGGGCCAGC AAGTAGATCC AGCTTTCTTC CATATCTGCG GTGGATCTCA GGCCAGAGTG 
    GACCAAGCCA AGCGTTGGAT CAAGGACCTG ATCCTGAAGG AGCAAGTCAG CAACAGCATC 
    ACCGATGACG CCATCCTCAA CTTGTCTGAC TCTGACCGTA AGTGCATCCA CGAAATCCAG 
    ACCACCATGG GAGTGAGTGT GAGGATAGAA TACAATTCGT CCAGGGAGGA AGCTATGCTC 
    ACGATCGAGG GCCTTAGCAA GGATGTCCTC AATGCAGTCA ACGAGATCCA GAAGATGCTG 
    AGGAAGGCCA GGGACAAAGA GACCTTCAAC AGGAACGTGG AAGTGGCCAG CAACATGGTG 
    GAGTGGCAGT ATCAGCAGCA GCCAGGGGGG CAGTACCAGA GCTTTGACCC CATCCCCAAC 
    TTCCATCTGG AGCAGGCACT GGAGAGGAAG TTGCCCCACG TAGAGGTCTC TTTCCAGGGG 
    AAGATGTACA CGGTCACCCT GCCTGACGGG CCTGCTACAG ATACCAATGG CAACAGCCTC 
    AAAATTAGAC GCATCGACAA GTTGGCAGCT CAACCCATTG ACAGTCTCCC TCAGCATTGG 
    GATGCCATGC CAGCAAACAC ATCATGCCAT TCCTGCCTCA TTCAGCCAGG AAGCCCAGAG 
    CACAATGAAG TCTTAAACTT GTTCCTAGCC ACCTGCCCCA ACATCGTTTT AAAGATTGAG 
    AGGATCCAGA ACCCAAGCCT GTGGAGGAAC CTCCAGATCA AGAAGAATGA AATGGAGCTC 
    AGGAATGGTC ATAAGAACAA CGAGAAGAGG CTCTTCCATG GAATGTGCCA CACAACCATT 
    AATCACATCA ACCACCATGG CTTCAATCGG AGCTATGCTG GAAAAAATGC TGCAGTGTAT 
    GGAAATGGCA CATATTTTGC AGTTTGTGCC AGATACTCTG CCAGTAACAC ATACTCAAGA 
    CCAGATCCAC AAGGACAGAA GTATATTTTT CTCTGCCGAG TTCTGACTGG CGATTTCACA 
    ACAGGACGAC AGGGGATGAT AGTGCCTCCA GCTAAAAACA CTACATCTGC TCAACTCTAC 
    GACAGCGTGA CAGACAACCC ATCAGCGCCA TCCATGTTCA TTGTATTCAA CGACATTCAG 
    GCATATCCTG AGTACTTGAT CACTTTCCGC TAG

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

    LOC106600688 ( XM_014192241.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014047716.1 Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106600688), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAt13011
    Clone ID Related Accession (Same CDS sequence) XM_014192241.1
    Accession Version XM_014192241.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5262bp)
    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 1442678400000
    Organism Salmo salar(Atlantic salmon)
    Product poly [ADP-ribose] polymerase 14-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012333569.1) 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 :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGGCGTCAG CTAAGAGGAA GGCAGAGGCT GATGCTCCTC AGCAGGAATT ACTAGGCTTC 
    AAAAAGCAAG CTGTTGCTGC TACTGATTCA AAAGACTTAC CAAAGAGCGG GGTTGGAGAT 
    GGACACACTC CCCTTACTGA GCCACAGACA GAGATGGAGA TTGAACCGAT GGAAGTCGAG 
    GAAAAGCTGG TGTCCACCTC AGCCGTGTTG GGGAACATTG AGGAGAGCAT GAACAAGGAG 
    TTCCTGGAGA TGCTGATAGA GAACATCCTG AGTGCGTATA ACACCTCTGG TTCTGACTCT 
    CCTACTGCAA CACAGACCTT CAGTTTGGAG ATCCTGACAC CTGTCCTAGA CACCGGCCTG 
    GCTGTGGTGA CTTTCCAAAA TGGAAAAGAG ACTGAGAACT TCATCACCAG CTGCACCAGC 
    AACAGGATGT TCAGACAGAA ACAACTATCT GTTAAACTCC TGGAACTCAC CACAAAAGTG 
    AAAGTTGAAA ACATAAATCC AAATGTTAGT TCAGACCACC TCCAACTGTT ATTTGGAAAA 
    GGGGGCGAGG AGGTGGAAGA CACTGAAATG AATGAAGAGG ACCAATCAGC AATCCTCACC 
    TTTCAAGATC CTAAAGCTGT TCACAGAGTC CTAGAGAAAC CACATTACAT CGAGAAGCAG 
    CCTCTCAAGG CTTTCCCCTT CTATGATTCT CTGGGAACGG CCTTGTATGG CAAAGACAGA 
    CCCACATTGA AACTCCCTTC TGCTTTCACT GAAAACATAA ACCACGCAAT TTGGAGATAC 
    CTCTGTGACA ACCAGGAAGC TGCAGAGACC ATCCACAAGG AAATGACCAA ACACTTCTGC 
    AATGTAGACT TCCAACAACC TACCATCAAG TTAAGCCCAC TGCCATCTCT ACTCAAACAG 
    ACGGGTGTGA AACCCAAGCA CTTACAACAA TGGAAGGACA CCACCAAAGT TGCCTTAATC 
    CAAGCCTTGT CTAACTTTAA GTCATTGGAG CTCCAGGTTC AGGACACTGC ATGGGAAGAG 
    TCTGAAGGGG AGATCCTCAA GGCGGTGTCT GGGGAGGCCG TGATGGTAGT CCATGAAGAG 
    ACCAGAGGTG TTCTGGCAGT GGTAGGATTG GTAGAAGATG TGGACCGGCT CAGGCAGACA 
    CTGGATGGGA TCATGGACAG GATTTCTAGA AGAATCGAGA GGGAGAAGAC GAGCATAACA 
    GAGGAGTTCC CTCTGGTTCC ATCAATCTAC CAGGTACTGT TGCATGGTGG CCTGCTGGAC 
    AAGATTGTTG GTGAATTCCC AGACTTGAAG CTGACGTATA ATCAAGAGAG CCAGAGTGTG 
    ACCATCTATG GGTTGATGCA AGAGGTGTTG TGTGCTAACA GAAAGCTTGC AGGTGAAGTA 
    GTAGCCCTGA AACGAAAGCT GGTGGAATTG GATGAATACG TCCTTGAGTT CCTGCAGGAA 
    GAAAGCCAGG AAAAGCTAAC CAGTTCCCTT CTCACCTTAC AGAGCATCAA TGCAGCACTA 
    GAAATAGAGA GAAAAGGAGT GCAGCTTCTG GCTGTCTCTG AGGAGGCCCT GTGCGAAGCA 
    GAACATCAAC TGCATACGCT TTTGATTTCT CAATACATAG ATGTAGAAGA CTCCGATCTC 
    CTGAGGATGT CCGAGTGGAA GGATATTGCC AACCGTTTTG AGGAAGCGTC AAACACTCCT 
    TTCAGGAAAG TTATGGTCCA GACATCAGGT GCCTATTCAG GACAACAAGT GGTAGTGTCT 
    GGCTACAAGG AAACTGTTCT CTTAGTCCGA AATGAATTGG ATGATTTCTT ACACAAAAAT 
    GCTCATGTTG ATGAAACTAT CGAAGTTAAG CCTGAGGCTA TTGGTAAATT CATCCAGGAA 
    CAACACAGGG ATGCTTGGTC TGATAAAGTC AAAGATAGTG GAGTTAAAGT TTCTTTCAAG 
    GATGAGGCTA TTTACCTGAG TGGCACCAGA GTTCACGTAG CAGATTGCAA GGCATTATTC 
    GAAAACTTGG TATCCTCCAC ATTCTTTGAC GCCTTGAGAA TCTCCAAGCC TGGAGCAAAG 
    AAGTTCTTCC AGGACAATGA GCCCATGTAT GTTGACACAG TCATGAATCA GACAGGCTGT 
    GTGGTCCAGC TGATTGAAGA AGAGTATGAT GCCAATGGCG GACAAGGCAT AAAGCTAGCA 
    GGAGGAGGAA TGAAACCTAC CTACCAGCTT CAAACACCTG ATGGGGTGGA GATAGCCGTT 
    TGCAAAGCAG ACATGTGCAA ATATTCTGTT CACGCTGTTG TCAATGCTGC CGCCCTGGAC 
    CTGAAGCACA GTGGAGGTCT TGCAGGAGCT CTTCTGGATA CTGCTGGCCC TCAACTGCAG 
    GATGAGTGCA ACCAGATCAT CAAGAACAAG GGTCAGCTCA AGCCAGGGGA CAGTGTCATC 
    ACTGGTGCAG GAGGGAAGCT CCGCTGCAAG CACATCATTC ATGCAGTGGG ACCCAGGTTT 
    GACCAGGCAA ACCCCCAGAA GGCCATGGGA CAGTTGAGGA GGGCGGTGAA AGGGAGTCTG 
    GATCTAGCAG AGACCCACAA CTGCCTGTAT GTGGCTCTTC CTGCTATTAG CTCTGGGAAT 
    CTAGGCTTTC CTCTGACCCT GTGTGCAGAC ACCATCGTCA AAGCAGTTAA AGAACACTGT 
    GACGACAAAT TTGGGGACAA TACTCTGAAG AAGATCCATC TGGTGAACAA TGATGACAAG 
    ACAGTCCAGG CTATGGAGGC AGCGGTGCTG AAGGTGTTTG GGAGCCATGG AACTAGTCAT 
    CCACGAGAGA ATCGACCCAC CATAGCTACA CACAGCCAGC CTGGTAATCG GGTTCAACGC 
    ACAAGTGGTT CAAGTGGGAA GACAAAAGAG GGGCTGGCTA TTACCCTGAC GAAAGGGAAT 
    ATCCAAGATG CTGTGACAGA AGTTGTGGTC AACACCGTGG GTGATGACCT AGCACTTAAC 
    CATGGTGCAG TCTCCAAGGC CATCCTCGCC GCTGCTGGCC CCCAACTTCA GACTCTGGTA 
    AACCAACAGG GCACAGCCGG AAGGGCTGGG GAAGTCATTG TCACCACTGG CTGCAACCTG 
    AAGTGCAAGC GGGTGTTTCA TACCATCGCC CCTCACTGGG ACAATGGACA AGGAGCACCA 
    CAGAAGATAT TGAGCAGGAT CGTGAAAGAG TGCTTGGATG AGGCAGAGGA TCAGGGACTC 
    ATCTCGATCA CCTTCCCTGC CATCGGCACG GGAAACCTGG GCTTCCCCAA AGACCTGGTG 
    GCCTCTCTGA TGCTGGATGA AGTCCTCAAG TTTAGCAGTA AGAAGAACCC CAAACACCTG 
    AAGGAGGTGG TCTTCATCCT CCACCCAGGT GATGCACCGA CGATCCAGGC TTTCACTGAT 
    GAATTTAACA AAAGGTTCAA AACCCAGTCG GGAACGTCAA GGGGCTCAGC AGCATCCAGT 
    CAACAGAGTA AAGGCCCTTT CTCTAAAATC ACTTCAAGCT CAGGGATGCA CGAGATGAAG 
    ATGGGAGGGG TGCTTATACA GGTCATCACA GGAGACATCA CCAAGGAGAC CACTGATGTC 
    ATCGTCAACT CCTCCAATGA CACCTTCAGT CTCCAGTCAG GGGTATCTAA GGCCATTCTG 
    GATGTGGCTG GTCAGACTGT GGTAGCGGAA TGCCAACAAC TCGGAGCCCA GCCTAACAAT 
    GGAGTGATAC TTACCCAGCC GGGCAACATG CGGTGTAAGA AGATCATCCA CGTGGTTGGT 
    CAGACGGACC CAAAGAAGAT CCAGGAGTCG GTCAAAGGAG CACTGCAAAT GTGTGCACAG 
    AATAACCTCA CATCCATCTC CTTCCCTGCT CTTGGCACAG GTCAGGGCAA TGTACAGGCG 
    GGCCAGGTGG CTGACGCCAT GTTGGATGCT GTTGTGGAGG TGGTGGGTCA GAAGTCCCAA 
    AACACACTGC AGCTGGTCAG GATGGTCATC TTCCAGCCTG CCATGCTCAC AGAGTTCCAC 
    AAATCTATGG TGAAGAAAGA GGGCACAGAC GTTGACACTC AAAAGAAGGG GAGCATCTGG 
    GGAAAAATTA AATCGTTGTT AACCTGGGGT AAAGCTGACA TGCCACAAAA GGATGAGGAT 
    TTTGTCATCG AGGGCCAGCA AGTAGATCCA GCTTTCTTCC ATATCTGCGG TGGATCTCAG 
    GCCAGAGTGG ACCAAGCCAA GCGTTGGATC AAGGACCTGA TCCTGAAGGA GCAAGTCAGC 
    AACAGCATCA CCGATGACGC CATCCTCAAC TTGTCTGACT CTGACCGTAA GTGCATCCAC 
    GAAATCCAGA CCACCATGGG AGTGAGTGTG AGGATAGAAT ACAATTCGTC CAGGGAGGAA 
    GCTATGCTCA CGATCGAGGG CCTTAGCAAG GATGTCCTCA ATGCAGTCAA CGAGATCCAG 
    AAGATGCTGA GGAAGGCCAG GGACAAAGAG ACCTTCAACA GGAACGTGGA AGTGGCCAGC 
    AACATGGTGG AGTGGCAGTA TCAGCAGCAG CCAGGGGGGC AGTACCAGAG CTTTGACCCC 
    ATCCCCAACT TCCATCTGGA GCAGGCACTG GAGAGGAAGT TGCCCCACGT AGAGGTCTCT 
    TTCCAGGGGA AGATGTACAC GGTCACCCTG CCTGACGGGC CTGCTACAGA TACCAATGGC 
    AACAGCCTCA AAATTAGACG CATCGACAAG TTGGCAGCTC AACCCATTGA CAGTCTCCCT 
    CAGCATTGGG ATGCCATGCC AGCAAACACA TCATGCCATT CCTGCCTCAT TCAGCCAGGA 
    AGCCCAGAGC ACAATGAAGT CTTAAACTTG TTCCTAGCCA CCTGCCCCAA CATCGTTTTA 
    AAGATTGAGA GGATCCAGAA CCCAAGCCTG TGGAGGAACC TCCAGATCAA GAAGAATGAA 
    ATGGAGCTCA GGAATGGTCA TAAGAACAAC GAGAAGAGGC TCTTCCATGG AATGTGCCAC 
    ACAACCATTA ATCACATCAA CCACCATGGC TTCAATCGGA GCTATGCTGG AAAAAATGCT 
    GCAGTGTATG GAAATGGCAC ATATTTTGCA GTTTGTGCCA GATACTCTGC CAGTAACACA 
    TACTCAAGAC CAGATCCACA AGGACAGAAG TATATTTTTC TCTGCCGAGT TCTGACTGGC 
    GATTTCACAA CAGGACGACA GGGGATGATA GTGCCTCCAG CTAAAAACAC TACATCTGCT 
    CAACTCTACG ACAGCGTGAC AGACAACCCA TCAGCGCCAT CCATGTTCAT TGTATTCAAC 
    GACATTCAGG CATATCCTGA GTACTTGATC ACTTTCCGCT AG

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

    RefSeq XP_014047716.1
    CDS185..5446
    Translation

    Target ORF information:

    RefSeq Version XM_014192241.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106600688), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014192241.1

    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
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGGCGTCAG CTAAGAGGAA GGCAGAGGCT GATGCTCCTC AGCAGGAATT ACTAGGCTTC 
    AAAAAGCAAG CTGTTGCTGC TACTGATTCA AAAGACTTAC CAAAGAGCGG GGTTGGAGAT 
    GGACACACTC CCCTTACTGA GCCACAGACA GAGATGGAGA TTGAACCGAT GGAAGTCGAG 
    GAAAAGCTGG TGTCCACCTC AGCCGTGTTG GGGAACATTG AGGAGAGCAT GAACAAGGAG 
    TTCCTGGAGA TGCTGATAGA GAACATCCTG AGTGCGTATA ACACCTCTGG TTCTGACTCT 
    CCTACTGCAA CACAGACCTT CAGTTTGGAG ATCCTGACAC CTGTCCTAGA CACCGGCCTG 
    GCTGTGGTGA CTTTCCAAAA TGGAAAAGAG ACTGAGAACT TCATCACCAG CTGCACCAGC 
    AACAGGATGT TCAGACAGAA ACAACTATCT GTTAAACTCC TGGAACTCAC CACAAAAGTG 
    AAAGTTGAAA ACATAAATCC AAATGTTAGT TCAGACCACC TCCAACTGTT ATTTGGAAAA 
    GGGGGCGAGG AGGTGGAAGA CACTGAAATG AATGAAGAGG ACCAATCAGC AATCCTCACC 
    TTTCAAGATC CTAAAGCTGT TCACAGAGTC CTAGAGAAAC CACATTACAT CGAGAAGCAG 
    CCTCTCAAGG CTTTCCCCTT CTATGATTCT CTGGGAACGG CCTTGTATGG CAAAGACAGA 
    CCCACATTGA AACTCCCTTC TGCTTTCACT GAAAACATAA ACCACGCAAT TTGGAGATAC 
    CTCTGTGACA ACCAGGAAGC TGCAGAGACC ATCCACAAGG AAATGACCAA ACACTTCTGC 
    AATGTAGACT TCCAACAACC TACCATCAAG TTAAGCCCAC TGCCATCTCT ACTCAAACAG 
    ACGGGTGTGA AACCCAAGCA CTTACAACAA TGGAAGGACA CCACCAAAGT TGCCTTAATC 
    CAAGCCTTGT CTAACTTTAA GTCATTGGAG CTCCAGGTTC AGGACACTGC ATGGGAAGAG 
    TCTGAAGGGG AGATCCTCAA GGCGGTGTCT GGGGAGGCCG TGATGGTAGT CCATGAAGAG 
    ACCAGAGGTG TTCTGGCAGT GGTAGGATTG GTAGAAGATG TGGACCGGCT CAGGCAGACA 
    CTGGATGGGA TCATGGACAG GATTTCTAGA AGAATCGAGA GGGAGAAGAC GAGCATAACA 
    GAGGAGTTCC CTCTGGTTCC ATCAATCTAC CAGGTACTGT TGCATGGTGG CCTGCTGGAC 
    AAGATTGTTG GTGAATTCCC AGACTTGAAG CTGACGTATA ATCAAGAGAG CCAGAGTGTG 
    ACCATCTATG GGTTGATGCA AGAGGTGTTG TGTGCTAACA GAAAGCTTGC AGGTGAAGTA 
    GTAGCCCTGA AACGAAAGCT GGTGGAATTG GATGAATACG TCCTTGAGTT CCTGCAGGAA 
    GAAAGCCAGG AAAAGCTAAC CAGTTCCCTT CTCACCTTAC AGAGCATCAA TGCAGCACTA 
    GAAATAGAGA GAAAAGGAGT GCAGCTTCTG GCTGTCTCTG AGGAGGCCCT GTGCGAAGCA 
    GAACATCAAC TGCATACGCT TTTGATTTCT CAATACATAG ATGTAGAAGA CTCCGATCTC 
    CTGAGGATGT CCGAGTGGAA GGATATTGCC AACCGTTTTG AGGAAGCGTC AAACACTCCT 
    TTCAGGAAAG TTATGGTCCA GACATCAGGT GCCTATTCAG GACAACAAGT GGTAGTGTCT 
    GGCTACAAGG AAACTGTTCT CTTAGTCCGA AATGAATTGG ATGATTTCTT ACACAAAAAT 
    GCTCATGTTG ATGAAACTAT CGAAGTTAAG CCTGAGGCTA TTGGTAAATT CATCCAGGAA 
    CAACACAGGG ATGCTTGGTC TGATAAAGTC AAAGATAGTG GAGTTAAAGT TTCTTTCAAG 
    GATGAGGCTA TTTACCTGAG TGGCACCAGA GTTCACGTAG CAGATTGCAA GGCATTATTC 
    GAAAACTTGG TATCCTCCAC ATTCTTTGAC GCCTTGAGAA TCTCCAAGCC TGGAGCAAAG 
    AAGTTCTTCC AGGACAATGA GCCCATGTAT GTTGACACAG TCATGAATCA GACAGGCTGT 
    GTGGTCCAGC TGATTGAAGA AGAGTATGAT GCCAATGGCG GACAAGGCAT AAAGCTAGCA 
    GGAGGAGGAA TGAAACCTAC CTACCAGCTT CAAACACCTG ATGGGGTGGA GATAGCCGTT 
    TGCAAAGCAG ACATGTGCAA ATATTCTGTT CACGCTGTTG TCAATGCTGC CGCCCTGGAC 
    CTGAAGCACA GTGGAGGTCT TGCAGGAGCT CTTCTGGATA CTGCTGGCCC TCAACTGCAG 
    GATGAGTGCA ACCAGATCAT CAAGAACAAG GGTCAGCTCA AGCCAGGGGA CAGTGTCATC 
    ACTGGTGCAG GAGGGAAGCT CCGCTGCAAG CACATCATTC ATGCAGTGGG ACCCAGGTTT 
    GACCAGGCAA ACCCCCAGAA GGCCATGGGA CAGTTGAGGA GGGCGGTGAA AGGGAGTCTG 
    GATCTAGCAG AGACCCACAA CTGCCTGTAT GTGGCTCTTC CTGCTATTAG CTCTGGGAAT 
    CTAGGCTTTC CTCTGACCCT GTGTGCAGAC ACCATCGTCA AAGCAGTTAA AGAACACTGT 
    GACGACAAAT TTGGGGACAA TACTCTGAAG AAGATCCATC TGGTGAACAA TGATGACAAG 
    ACAGTCCAGG CTATGGAGGC AGCGGTGCTG AAGGTGTTTG GGAGCCATGG AACTAGTCAT 
    CCACGAGAGA ATCGACCCAC CATAGCTACA CACAGCCAGC CTGGTAATCG GGTTCAACGC 
    ACAAGTGGTT CAAGTGGGAA GACAAAAGAG GGGCTGGCTA TTACCCTGAC GAAAGGGAAT 
    ATCCAAGATG CTGTGACAGA AGTTGTGGTC AACACCGTGG GTGATGACCT AGCACTTAAC 
    CATGGTGCAG TCTCCAAGGC CATCCTCGCC GCTGCTGGCC CCCAACTTCA GACTCTGGTA 
    AACCAACAGG GCACAGCCGG AAGGGCTGGG GAAGTCATTG TCACCACTGG CTGCAACCTG 
    AAGTGCAAGC GGGTGTTTCA TACCATCGCC CCTCACTGGG ACAATGGACA AGGAGCACCA 
    CAGAAGATAT TGAGCAGGAT CGTGAAAGAG TGCTTGGATG AGGCAGAGGA TCAGGGACTC 
    ATCTCGATCA CCTTCCCTGC CATCGGCACG GGAAACCTGG GCTTCCCCAA AGACCTGGTG 
    GCCTCTCTGA TGCTGGATGA AGTCCTCAAG TTTAGCAGTA AGAAGAACCC CAAACACCTG 
    AAGGAGGTGG TCTTCATCCT CCACCCAGGT GATGCACCGA CGATCCAGGC TTTCACTGAT 
    GAATTTAACA AAAGGTTCAA AACCCAGTCG GGAACGTCAA GGGGCTCAGC AGCATCCAGT 
    CAACAGAGTA AAGGCCCTTT CTCTAAAATC ACTTCAAGCT CAGGGATGCA CGAGATGAAG 
    ATGGGAGGGG TGCTTATACA GGTCATCACA GGAGACATCA CCAAGGAGAC CACTGATGTC 
    ATCGTCAACT CCTCCAATGA CACCTTCAGT CTCCAGTCAG GGGTATCTAA GGCCATTCTG 
    GATGTGGCTG GTCAGACTGT GGTAGCGGAA TGCCAACAAC TCGGAGCCCA GCCTAACAAT 
    GGAGTGATAC TTACCCAGCC GGGCAACATG CGGTGTAAGA AGATCATCCA CGTGGTTGGT 
    CAGACGGACC CAAAGAAGAT CCAGGAGTCG GTCAAAGGAG CACTGCAAAT GTGTGCACAG 
    AATAACCTCA CATCCATCTC CTTCCCTGCT CTTGGCACAG GTCAGGGCAA TGTACAGGCG 
    GGCCAGGTGG CTGACGCCAT GTTGGATGCT GTTGTGGAGG TGGTGGGTCA GAAGTCCCAA 
    AACACACTGC AGCTGGTCAG GATGGTCATC TTCCAGCCTG CCATGCTCAC AGAGTTCCAC 
    AAATCTATGG TGAAGAAAGA GGGCACAGAC GTTGACACTC AAAAGAAGGG GAGCATCTGG 
    GGAAAAATTA AATCGTTGTT AACCTGGGGT AAAGCTGACA TGCCACAAAA GGATGAGGAT 
    TTTGTCATCG AGGGCCAGCA AGTAGATCCA GCTTTCTTCC ATATCTGCGG TGGATCTCAG 
    GCCAGAGTGG ACCAAGCCAA GCGTTGGATC AAGGACCTGA TCCTGAAGGA GCAAGTCAGC 
    AACAGCATCA CCGATGACGC CATCCTCAAC TTGTCTGACT CTGACCGTAA GTGCATCCAC 
    GAAATCCAGA CCACCATGGG AGTGAGTGTG AGGATAGAAT ACAATTCGTC CAGGGAGGAA 
    GCTATGCTCA CGATCGAGGG CCTTAGCAAG GATGTCCTCA ATGCAGTCAA CGAGATCCAG 
    AAGATGCTGA GGAAGGCCAG GGACAAAGAG ACCTTCAACA GGAACGTGGA AGTGGCCAGC 
    AACATGGTGG AGTGGCAGTA TCAGCAGCAG CCAGGGGGGC AGTACCAGAG CTTTGACCCC 
    ATCCCCAACT TCCATCTGGA GCAGGCACTG GAGAGGAAGT TGCCCCACGT AGAGGTCTCT 
    TTCCAGGGGA AGATGTACAC GGTCACCCTG CCTGACGGGC CTGCTACAGA TACCAATGGC 
    AACAGCCTCA AAATTAGACG CATCGACAAG TTGGCAGCTC AACCCATTGA CAGTCTCCCT 
    CAGCATTGGG ATGCCATGCC AGCAAACACA TCATGCCATT CCTGCCTCAT TCAGCCAGGA 
    AGCCCAGAGC ACAATGAAGT CTTAAACTTG TTCCTAGCCA CCTGCCCCAA CATCGTTTTA 
    AAGATTGAGA GGATCCAGAA CCCAAGCCTG TGGAGGAACC TCCAGATCAA GAAGAATGAA 
    ATGGAGCTCA GGAATGGTCA TAAGAACAAC GAGAAGAGGC TCTTCCATGG AATGTGCCAC 
    ACAACCATTA ATCACATCAA CCACCATGGC TTCAATCGGA GCTATGCTGG AAAAAATGCT 
    GCAGTGTATG GAAATGGCAC ATATTTTGCA GTTTGTGCCA GATACTCTGC CAGTAACACA 
    TACTCAAGAC CAGATCCACA AGGACAGAAG TATATTTTTC TCTGCCGAGT TCTGACTGGC 
    GATTTCACAA CAGGACGACA GGGGATGATA GTGCCTCCAG CTAAAAACAC TACATCTGCT 
    CAACTCTACG ACAGCGTGAC AGACAACCCA TCAGCGCCAT CCATGTTCAT TGTATTCAAC 
    GACATTCAGG CATATCCTGA GTACTTGATC ACTTTCCGCT AG

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

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

ONLINE FORM

Online Quote Submission

ONLINE FORM

Online Quote Submission