LOC106599575 cDNA ORF clone, Salmo salar(Atlantic salmon)

The following LOC106599575 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106599575 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
OAt12231 XM_014190864.1
Latest version!
Salmo salar 5'-3' exoribonuclease 1-like (LOC106599575), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAt12232 XM_014190865.1
Latest version!
Salmo salar 5'-3' exoribonuclease 1-like (LOC106599575), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAt12233 XM_014190866.1
Latest version!
Salmo salar 5'-3' exoribonuclease 1-like (LOC106599575), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OAt12231
    Clone ID Related Accession (Same CDS sequence) XM_014190864.1
    Accession Version XM_014190864.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5106bp)
    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 5'-3' exoribonuclease 1-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012333553.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGGGAGTGC CGAAATTCTA CCGATGGATT TCAGAGCGAT ACCCTTGCCT GAGTGAAGTT 
    GTCAAGGAAC ATCAGATTCC GGAGTTTGAC AACCTCTACC TGGATATGAA TGGCATCATC
    CACCAGTGCT CCCACCCCAA CGACGAGGAC GTCCACTTCC GTATCTCGGA GGAGAAGATC
    TTTGCGGACA TCTTCCACTA CCTGGAGGTG CTGTTCAGGA TCATCAAGCC CAGGAAGGTG
    TTCTTCATGG CCGTGGACGG AGTGGCTCCC CGGGCCAAGA TGAACCAGCA GAGAGGCAGG
    AGATTCAGGT CGGCCAAAGA AGCAGAGGAC AAGATAAAGA AGGCTCTAGA GAAAGGAGAG
    GTCCTACCCT CTGAGGCCCG CTTTGACTCT AACTGCATCA CACCTGGGAC GGACTTCATG
    GCCAGGTTAC AGGAGCAGCT CAAGTACTTT GTCAACAGTA AACTGTCCAC AGACAATGCC
    TGGAAAGGAG TCAACGTCTA CCTTTCTGGA CACGAGACTC CAGGAGAAGG AGAACATAAG
    ATCATGGAGT TTATCCGCTG GGAAAACACC AAGCCAGACC ACGACCCAAA CACACGCCAC
    TGTCTCTATG GCCTGGACGC TGACCTGATG ATGTTAGGTC TGACCAGCCA CGAGCCACAC
    TTCTCCCTAC TCAGAGAAGA GGTCCGCTTT GGAGGGAAGA AAAACCAGAA AAGAATAACT
    GCTCCAGAGG AGACAACCTT CCACCTACTG CATCTGTCAC TATTTAGGGA GTACATAGAC
    TACGAGTTCT CTGAAGTTAA GAATAAGATC TCATTTGAGT ACGACCTGGA GCGAATCATA
    GATGACTGGA TCCTGATGGG CTTTCTTGTT GGAAATGACT TCATCCCTCA TCTTCCTCAT
    CTTCACATAA ACCACGACGC CCTGCCTCTT CTCTACCGCA CCTACATCAG TGTGCTGCCA
    ACACTAGGAG GATACCTGAA TGAGAATGGC CACCTGAACC TGGGTAACTT TGAGAAGTAC
    CTGGAGAAAC TGTCAGAGTT TGACAGGGAG CACTTCAATG AGGTGTTTGT GGATCTGAAG
    TGGTTTGAGA GTAAGGTGGG GAACAAGTAC TTGAACGAGG CAGCAGGGCT GGCAGCAGAG
    GAGGCTCACT GCAAGGATTC CAGGAAGAAA GACCTGAAAG ACTCTCTGTG TCTGGCTGCA
    CTGGATGAGG GCAAGGACAG AGGCCCCAGC AGAGGTTTTG AGGAGGATGG GGAGGAAGAA
    GACATGTTTG AAGCAGAGTT CCGACAGTAC AAACGCACCT ACTACATGAC CAAGATGGGA
    GTGGAGGTGG TCTCAGATGA GTTTCTAGCC AACCAGGCAT TGTGCTATGT GGAGGGAATC
    CAGTGGATCT TACATTACTA CTACCATGGA GTCCAATCCT GGAGCTGGTA TTACCCGCAC
    CACTATGCCC CCTTCCTGTC AGATGTGCGG AACATAGCCC ATCTGAAGTT GACCTTTGAC
    ATGGGCAAGC CCTTCATGCC CTTCCAGCAG CTGCTGGGAG TCCTGCCTTC TGCCAGCAAA
    GACCTGCTGC CCCAGAGCTA TAGGCACCTG ATGACATCAG AGAATTCTAG CATCATTGAG
    TATTACCCTC TAGACTTCAA GACAGACCTT AATGGGAAAC AGCAGGAGTG GGAGGCTGTG
    GTGCTCATCC CCTTCATCGA CGAGAGATGT TTGCTTGCTG CGATGGAGCC TTATAACGAT
    CACATGACCA AGGCTGAGAA GGCCCGCAAC CGCCACACAC AGTGTGCTGT GTACAGCTAC
    GACGCTGAGC TAGACTACCT CTCTACCTCC ACCCTGCCTG ACCTGTTCCC CAACATCATG
    CACTGCCATG TCAGAGTGAC ACCGGTTCCC ATGGACGCGT GGCACGTGTC GTTGAGCCAC
    GTGGGGCGCA GCATCAACAG CAGCCAGCTC TACTTCTGTG GCTTCCCCAC CTTAAAGCAC
    ATCAGACACA AGTTCTATAA GAAGAAACAT GGAGTGGTGG TGTTCCAGCA GAGCAGCCGA
    GGAGAGAACA TGATGCTGGA GATAATACCT AGCAAAGAGG AACCAGTGTG TGACAATGTG
    GCCTCTCTGG TCCTGGGTCG GTCTGTCTTT GTCAACTGGC CCCACCTAGA GGAGGCCAGG
    GTGGTAGCAG TGTCTGACGG GGAAAGCAAG TTCTTCCTGG AGGAGCCGGC AGGGATGCAG
    AAGCTGTACG ACAGGGACTC TCCTCCCCCC ACTAAGGTCA CCTACCTCAG TGACAAGGAA
    CAGAAGGACT GGGTTAAGGA CGTACAGGGC ATCACTGAGC ATTTCGGTAA GCGTAAGGGC
    ATCACGGTGA ATGAGACGGC GGTGGTTTTG TATACCCAGC TGCTGACAGG CAGGAAGTAT
    GTACCTGGGC AGAGCGGACA GGTGCACCTG GAGAAACAGT GGGCCAAGCA GACACTGCCC
    TTCCCCTACC AGACCATCGT CAAGGACATC AAAGCCTTTG ACTCGTCGTC CACTCGCTTC
    AAGACTCTGG AGGAGCTGTT TCCCCCGACG ACCACGGTTT TCATGGTGGG GAACCCCTAC
    TACGGTGCCA TGGGAGAGGT GCAGGAGTCC AGTGATGTCA TCAAAGAGGG ACGGGTGCGG
    GTGGTGTTCA CGGTGCCCTG TGAACCACCG ATGGAATCCT TAATACAGAA CCAGCATAAA
    TACTGTGTAA AGTACAGTCC TGGCTACGTT CTGGCCTCAC GCCTCGGCAT CACCGGCTAC
    CTCGTCTCCA GATTCTCTGG CAGCATCTTC GTCGGCAGAG GATCCAAGAA AAATCCCCAT
    GGGGAGCAGA AGGCTAACGT GGGTCTGAAC CTGAAGTTCA ATAAGAAGAA TGAGGAGGTG
    CCAGGTTACA CCAAGAGAAC CGAGAAGGAG TGGCTCTATT CTGTCGCTGT GGAGGATCTG
    ATGGCTGAGT ACTTGGATAG GTTTTCTGAG GTGTTTGACC TGGTGTCCAG GAACAGTCAC
    GACGATGTCT TCTACGAGGA CGACATCTGG CCCGGAGTGG ACCAAAACGG GGCTGAGAGG
    GTGAAGGAGA TCACTTCCTG GTTGAAGACC CACCCAGTCG CCGACATCGC CCGGGCGTCA
    TGTGACCTGC AGATCCTGGA CACGGCCATC GTGGAGCAGA TCGAGGAGGA GGTGGCTAAG
    GTCAAGAAGA GCACCAAGAA AGTGCGTGTG ACCGTGAAGC CACATTTACT CTTCAGGCCC
    TTAGAGCAGC AGCACGGTGT GGTCCCTGAC CCGGATGCAG AGTACCACCT GTTTGACCGG
    GTGGTCAACG TCAGAGAGAG CTTCTCTGTC CCCCTCGGCC TCAGAGGAAC CATCATCGGC
    ATCAAGGGAG CTGATCGGGA GGCTGAGGTG TTGTATGAGG TAGTGTTTGA TGAAGAGTTT
    GCTGGGGGAC TTACTATCAG GTGTGCGTCG GGCCGTGGCT ACAGGCTGCC TCCGTGTGCC
    TTAATCAACT TGAGCCATGG ATGCCGCTTT GAGCAGGGTT CCCACAAACT GACCGCCATC
    GTCAAGCCCC AGCCCGCCGC CGCCTCCCAC CACTCACACA ACAAGGAACA GCTGTCTGGG
    CTCAACCACT CACCACGCTC ACCCTTCATA CCCACACAGC AGCAGAACGG CAGACAAAAC
    AACATTCTCA GGGCAGAAAC TCAGGGGAAC AAAAATGTGC ACCACAATGC CCTCAGCCAG
    AAACACCAGC CGACGGGTAA AGATGAGGAG TTCAGTAATG TGTGGCAGTC TCTGCAGAGT
    TCTGGAATGC CCCAGAAACC ACCAGCCCAC TGGCAACAAA ACAATGCGTG TAATTCTGCC
    TGGGGTCCAG GGTCTCCTGG ACAGGAAGGG CAGTTCCAGG GGCAACAGGG CAGGAACCAA
    CCCCATAGTC AACAACAACA ACCCCCCAAA CCTGGCCCAG CAGGAAGTAT CAGACTGCTG
    AAGAGAAATG AAGATGTCAA CACTCTGTTT CCTGCTCAGA ACGCCACAAA GAAGCAAACA
    GAGTTTGAGG AGTTGATCGC CAACCTGAAG ATCACCAAGG GCAACGAGCC AACGAGCCAA
    TCGGAGGAGC CGCTGTCTCC ACAGTCATTC GCTATGAAGG GGACTCTGGC CCTGAAGGAG
    ATGCTGAACA TTGGCTCTGC CCCTGACTCC ACTAGTCTCT CCTCCTCCAA CACACAGCAG
    CAGAACAGGA GAAGACCCAC CAAGAAACTG GCGGCGAGGA TGGGAGACTT AGTGTTACCT
    GTGGCTGCAG CAGCAGTCCC TCCCCTGCAG GCCCACCAGC CCTCCTCCAT GTGTCCCAGT
    GTGGCCTCAG AGCTGGCTAG GATCTGTATA GGTCTGGGCA TGGCCCCACC TGACTTCACC
    TTCATACGCA GCAGACAGGG TTTGATGGTG TGCCAGGTGA AGCTCTCCAG TGGTCTGCTT
    GTCCACGGTC CTCAGAGTCA CTCTGAGAAC GAAGCCAAAG AGAAGGCAGC TCTCTTCGCC
    CTGCAGCGCC TTGTGAGTGT GAATTCGGTG GGATCTGGGT TCCCCATGCC TCCGCCTCTG
    TTCTCCGGGG TCGGCCAGAT AAGAGGACCG CCCATGGGAC CCATGCCTAA CGTATTCGGC
    CAATCAGGTG GTCTGTTAAT CCCTCCTCAG GGGTATGGTC CTCTCCACTG GGGCATGCCC
    CTCCCGCCCC ACCAGGGACA GCCCTTCTAC GGGGGCACCT TCCCTGGCGC CCGGCCCCAG
    GCACCCTCCG TCCCCATCGG CTCACACAAC CAGTTTGTCC CCCTGCAGGT GACTAAGAAG
    CGCGTGTCAT CAGGCAAGAA GCCACAAGAG TTCTACAATG CGGCTCACAT GGCGAGGAAC
    CAAGCCCCAA GTAACAAAGC CCAGTCTGAC TCCCAACCGT CCCTATCCCC GGCCCCCTCG
    GCACCCCCTG CAGCCCCCAT CACACCCCCA AAGACCACCC AGGACCCCCC TGAGATGGCT
    GGGACCCCCT CCACGCCACA GACACCACGC CAGAACCCAG GCCATGGCCA CACCCCCAGC
    TCTGCCTCCA AGAGGAAACA CAGGAAACTG GCGGTCAACT TCGAAGTGGC CAAAGTCCAA
    GAATGA

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

    RefSeq XP_014046339.1
    CDS161..5266
    Translation

    Target ORF information:

    RefSeq Version XM_014190864.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar 5'-3' exoribonuclease 1-like (LOC106599575), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014190864.1

    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
    ATGGGAGTGC CGAAATTCTA CCGATGGATT TCAGAGCGAT ACCCTTGCCT GAGTGAAGTT 
    GTCAAGGAAC ATCAGATTCC GGAGTTTGAC AACCTCTACC TGGATATGAA TGGCATCATC
    CACCAGTGCT CCCACCCCAA CGACGAGGAC GTCCACTTCC GTATCTCGGA GGAGAAGATC
    TTTGCGGACA TCTTCCACTA CCTGGAGGTG CTGTTCAGGA TCATCAAGCC CAGGAAGGTG
    TTCTTCATGG CCGTGGACGG AGTGGCTCCC CGGGCCAAGA TGAACCAGCA GAGAGGCAGG
    AGATTCAGGT CGGCCAAAGA AGCAGAGGAC AAGATAAAGA AGGCTCTAGA GAAAGGAGAG
    GTCCTACCCT CTGAGGCCCG CTTTGACTCT AACTGCATCA CACCTGGGAC GGACTTCATG
    GCCAGGTTAC AGGAGCAGCT CAAGTACTTT GTCAACAGTA AACTGTCCAC AGACAATGCC
    TGGAAAGGAG TCAACGTCTA CCTTTCTGGA CACGAGACTC CAGGAGAAGG AGAACATAAG
    ATCATGGAGT TTATCCGCTG GGAAAACACC AAGCCAGACC ACGACCCAAA CACACGCCAC
    TGTCTCTATG GCCTGGACGC TGACCTGATG ATGTTAGGTC TGACCAGCCA CGAGCCACAC
    TTCTCCCTAC TCAGAGAAGA GGTCCGCTTT GGAGGGAAGA AAAACCAGAA AAGAATAACT
    GCTCCAGAGG AGACAACCTT CCACCTACTG CATCTGTCAC TATTTAGGGA GTACATAGAC
    TACGAGTTCT CTGAAGTTAA GAATAAGATC TCATTTGAGT ACGACCTGGA GCGAATCATA
    GATGACTGGA TCCTGATGGG CTTTCTTGTT GGAAATGACT TCATCCCTCA TCTTCCTCAT
    CTTCACATAA ACCACGACGC CCTGCCTCTT CTCTACCGCA CCTACATCAG TGTGCTGCCA
    ACACTAGGAG GATACCTGAA TGAGAATGGC CACCTGAACC TGGGTAACTT TGAGAAGTAC
    CTGGAGAAAC TGTCAGAGTT TGACAGGGAG CACTTCAATG AGGTGTTTGT GGATCTGAAG
    TGGTTTGAGA GTAAGGTGGG GAACAAGTAC TTGAACGAGG CAGCAGGGCT GGCAGCAGAG
    GAGGCTCACT GCAAGGATTC CAGGAAGAAA GACCTGAAAG ACTCTCTGTG TCTGGCTGCA
    CTGGATGAGG GCAAGGACAG AGGCCCCAGC AGAGGTTTTG AGGAGGATGG GGAGGAAGAA
    GACATGTTTG AAGCAGAGTT CCGACAGTAC AAACGCACCT ACTACATGAC CAAGATGGGA
    GTGGAGGTGG TCTCAGATGA GTTTCTAGCC AACCAGGCAT TGTGCTATGT GGAGGGAATC
    CAGTGGATCT TACATTACTA CTACCATGGA GTCCAATCCT GGAGCTGGTA TTACCCGCAC
    CACTATGCCC CCTTCCTGTC AGATGTGCGG AACATAGCCC ATCTGAAGTT GACCTTTGAC
    ATGGGCAAGC CCTTCATGCC CTTCCAGCAG CTGCTGGGAG TCCTGCCTTC TGCCAGCAAA
    GACCTGCTGC CCCAGAGCTA TAGGCACCTG ATGACATCAG AGAATTCTAG CATCATTGAG
    TATTACCCTC TAGACTTCAA GACAGACCTT AATGGGAAAC AGCAGGAGTG GGAGGCTGTG
    GTGCTCATCC CCTTCATCGA CGAGAGATGT TTGCTTGCTG CGATGGAGCC TTATAACGAT
    CACATGACCA AGGCTGAGAA GGCCCGCAAC CGCCACACAC AGTGTGCTGT GTACAGCTAC
    GACGCTGAGC TAGACTACCT CTCTACCTCC ACCCTGCCTG ACCTGTTCCC CAACATCATG
    CACTGCCATG TCAGAGTGAC ACCGGTTCCC ATGGACGCGT GGCACGTGTC GTTGAGCCAC
    GTGGGGCGCA GCATCAACAG CAGCCAGCTC TACTTCTGTG GCTTCCCCAC CTTAAAGCAC
    ATCAGACACA AGTTCTATAA GAAGAAACAT GGAGTGGTGG TGTTCCAGCA GAGCAGCCGA
    GGAGAGAACA TGATGCTGGA GATAATACCT AGCAAAGAGG AACCAGTGTG TGACAATGTG
    GCCTCTCTGG TCCTGGGTCG GTCTGTCTTT GTCAACTGGC CCCACCTAGA GGAGGCCAGG
    GTGGTAGCAG TGTCTGACGG GGAAAGCAAG TTCTTCCTGG AGGAGCCGGC AGGGATGCAG
    AAGCTGTACG ACAGGGACTC TCCTCCCCCC ACTAAGGTCA CCTACCTCAG TGACAAGGAA
    CAGAAGGACT GGGTTAAGGA CGTACAGGGC ATCACTGAGC ATTTCGGTAA GCGTAAGGGC
    ATCACGGTGA ATGAGACGGC GGTGGTTTTG TATACCCAGC TGCTGACAGG CAGGAAGTAT
    GTACCTGGGC AGAGCGGACA GGTGCACCTG GAGAAACAGT GGGCCAAGCA GACACTGCCC
    TTCCCCTACC AGACCATCGT CAAGGACATC AAAGCCTTTG ACTCGTCGTC CACTCGCTTC
    AAGACTCTGG AGGAGCTGTT TCCCCCGACG ACCACGGTTT TCATGGTGGG GAACCCCTAC
    TACGGTGCCA TGGGAGAGGT GCAGGAGTCC AGTGATGTCA TCAAAGAGGG ACGGGTGCGG
    GTGGTGTTCA CGGTGCCCTG TGAACCACCG ATGGAATCCT TAATACAGAA CCAGCATAAA
    TACTGTGTAA AGTACAGTCC TGGCTACGTT CTGGCCTCAC GCCTCGGCAT CACCGGCTAC
    CTCGTCTCCA GATTCTCTGG CAGCATCTTC GTCGGCAGAG GATCCAAGAA AAATCCCCAT
    GGGGAGCAGA AGGCTAACGT GGGTCTGAAC CTGAAGTTCA ATAAGAAGAA TGAGGAGGTG
    CCAGGTTACA CCAAGAGAAC CGAGAAGGAG TGGCTCTATT CTGTCGCTGT GGAGGATCTG
    ATGGCTGAGT ACTTGGATAG GTTTTCTGAG GTGTTTGACC TGGTGTCCAG GAACAGTCAC
    GACGATGTCT TCTACGAGGA CGACATCTGG CCCGGAGTGG ACCAAAACGG GGCTGAGAGG
    GTGAAGGAGA TCACTTCCTG GTTGAAGACC CACCCAGTCG CCGACATCGC CCGGGCGTCA
    TGTGACCTGC AGATCCTGGA CACGGCCATC GTGGAGCAGA TCGAGGAGGA GGTGGCTAAG
    GTCAAGAAGA GCACCAAGAA AGTGCGTGTG ACCGTGAAGC CACATTTACT CTTCAGGCCC
    TTAGAGCAGC AGCACGGTGT GGTCCCTGAC CCGGATGCAG AGTACCACCT GTTTGACCGG
    GTGGTCAACG TCAGAGAGAG CTTCTCTGTC CCCCTCGGCC TCAGAGGAAC CATCATCGGC
    ATCAAGGGAG CTGATCGGGA GGCTGAGGTG TTGTATGAGG TAGTGTTTGA TGAAGAGTTT
    GCTGGGGGAC TTACTATCAG GTGTGCGTCG GGCCGTGGCT ACAGGCTGCC TCCGTGTGCC
    TTAATCAACT TGAGCCATGG ATGCCGCTTT GAGCAGGGTT CCCACAAACT GACCGCCATC
    GTCAAGCCCC AGCCCGCCGC CGCCTCCCAC CACTCACACA ACAAGGAACA GCTGTCTGGG
    CTCAACCACT CACCACGCTC ACCCTTCATA CCCACACAGC AGCAGAACGG CAGACAAAAC
    AACATTCTCA GGGCAGAAAC TCAGGGGAAC AAAAATGTGC ACCACAATGC CCTCAGCCAG
    AAACACCAGC CGACGGGTAA AGATGAGGAG TTCAGTAATG TGTGGCAGTC TCTGCAGAGT
    TCTGGAATGC CCCAGAAACC ACCAGCCCAC TGGCAACAAA ACAATGCGTG TAATTCTGCC
    TGGGGTCCAG GGTCTCCTGG ACAGGAAGGG CAGTTCCAGG GGCAACAGGG CAGGAACCAA
    CCCCATAGTC AACAACAACA ACCCCCCAAA CCTGGCCCAG CAGGAAGTAT CAGACTGCTG
    AAGAGAAATG AAGATGTCAA CACTCTGTTT CCTGCTCAGA ACGCCACAAA GAAGCAAACA
    GAGTTTGAGG AGTTGATCGC CAACCTGAAG ATCACCAAGG GCAACGAGCC AACGAGCCAA
    TCGGAGGAGC CGCTGTCTCC ACAGTCATTC GCTATGAAGG GGACTCTGGC CCTGAAGGAG
    ATGCTGAACA TTGGCTCTGC CCCTGACTCC ACTAGTCTCT CCTCCTCCAA CACACAGCAG
    CAGAACAGGA GAAGACCCAC CAAGAAACTG GCGGCGAGGA TGGGAGACTT AGTGTTACCT
    GTGGCTGCAG CAGCAGTCCC TCCCCTGCAG GCCCACCAGC CCTCCTCCAT GTGTCCCAGT
    GTGGCCTCAG AGCTGGCTAG GATCTGTATA GGTCTGGGCA TGGCCCCACC TGACTTCACC
    TTCATACGCA GCAGACAGGG TTTGATGGTG TGCCAGGTGA AGCTCTCCAG TGGTCTGCTT
    GTCCACGGTC CTCAGAGTCA CTCTGAGAAC GAAGCCAAAG AGAAGGCAGC TCTCTTCGCC
    CTGCAGCGCC TTGTGAGTGT GAATTCGGTG GGATCTGGGT TCCCCATGCC TCCGCCTCTG
    TTCTCCGGGG TCGGCCAGAT AAGAGGACCG CCCATGGGAC CCATGCCTAA CGTATTCGGC
    CAATCAGGTG GTCTGTTAAT CCCTCCTCAG GGGTATGGTC CTCTCCACTG GGGCATGCCC
    CTCCCGCCCC ACCAGGGACA GCCCTTCTAC GGGGGCACCT TCCCTGGCGC CCGGCCCCAG
    GCACCCTCCG TCCCCATCGG CTCACACAAC CAGTTTGTCC CCCTGCAGGT GACTAAGAAG
    CGCGTGTCAT CAGGCAAGAA GCCACAAGAG TTCTACAATG CGGCTCACAT GGCGAGGAAC
    CAAGCCCCAA GTAACAAAGC CCAGTCTGAC TCCCAACCGT CCCTATCCCC GGCCCCCTCG
    GCACCCCCTG CAGCCCCCAT CACACCCCCA AAGACCACCC AGGACCCCCC TGAGATGGCT
    GGGACCCCCT CCACGCCACA GACACCACGC CAGAACCCAG GCCATGGCCA CACCCCCAGC
    TCTGCCTCCA AGAGGAAACA CAGGAAACTG GCGGTCAACT TCGAAGTGGC CAAAGTCCAA
    GAATGA

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

    CloneID OAt12232
    Clone ID Related Accession (Same CDS sequence) XM_014190865.1
    Accession Version XM_014190865.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5103bp)
    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 5'-3' exoribonuclease 1-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012333553.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGGGAGTGC CGAAATTCTA CCGATGGATT TCAGAGCGAT ACCCTTGCCT GAGTGAAGTT 
    GTCAAGGAAC ATCAGATTCC GGAGTTTGAC AACCTCTACC TGGATATGAA TGGCATCATC
    CACCAGTGCT CCCACCCCAA CGACGAGGAC GTCCACTTCC GTATCTCGGA GGAGAAGATC
    TTTGCGGACA TCTTCCACTA CCTGGAGGTG CTGTTCAGGA TCATCAAGCC CAGGAAGGTG
    TTCTTCATGG CCGTGGACGG AGTGGCTCCC CGGGCCAAGA TGAACCAGCA GAGAGGCAGG
    AGATTCAGGT CGGCCAAAGA AGCAGAGGAC AAGATAAAGA AGGCTCTAGA GAAAGGAGAG
    GTCCTACCCT CTGAGGCCCG CTTTGACTCT AACTGCATCA CACCTGGGAC GGACTTCATG
    GCCAGGTTAC AGGAGCAGCT CAAGTACTTT GTCAACAGTA AACTGTCCAC AGACAATGCC
    TGGAAAGGAG TCAACGTCTA CCTTTCTGGA CACGAGACTC CAGGAGAAGG AGAACATAAG
    ATCATGGAGT TTATCCGCTG GGAAAACACC AAGCCAGACC ACGACCCAAA CACACGCCAC
    TGTCTCTATG GCCTGGACGC TGACCTGATG ATGTTAGGTC TGACCAGCCA CGAGCCACAC
    TTCTCCCTAC TCAGAGAAGA GGTCCGCTTT GGAGGGAAGA AAAACCAGAA AAGAATAACT
    GCTCCAGAGG AGACAACCTT CCACCTACTG CATCTGTCAC TATTTAGGGA GTACATAGAC
    TACGAGTTCT CTGAAGTTAA GAATAAGATC TCATTTGAGT ACGACCTGGA GCGAATCATA
    GATGACTGGA TCCTGATGGG CTTTCTTGTT GGAAATGACT TCATCCCTCA TCTTCCTCAT
    CTTCACATAA ACCACGACGC CCTGCCTCTT CTCTACCGCA CCTACATCAG TGTGCTGCCA
    ACACTAGGAG GATACCTGAA TGAGAATGGC CACCTGAACC TGGGTAACTT TGAGAAGTAC
    CTGGAGAAAC TGTCAGAGTT TGACAGGGAG CACTTCAATG AGGTGTTTGT GGATCTGAAG
    TGGTTTGAGA GTAAGGTGGG GAACAAGTAC TTGAACGAGG CAGCAGGGCT GGCAGCAGAG
    GAGGCTCACT GCAAGGATTC CAGGAAGAAA GACCTGAAAG ACTCTCTGTG TCTGGCTGCA
    CTGGATGAGG GCAAGGACAG AGGCCCCAGC AGAGGTTTTG AGGAGGATGG GGAGGAAGAA
    GACATGTTTG AAGCAGAGTT CCGACAGTAC AAACGCACCT ACTACATGAC CAAGATGGGA
    GTGGAGGTGG TCTCAGATGA GTTTCTAGCC AACCAGGCAT TGTGCTATGT GGAGGGAATC
    CAGTGGATCT TACATTACTA CTACCATGGA GTCCAATCCT GGAGCTGGTA TTACCCGCAC
    CACTATGCCC CCTTCCTGTC AGATGTGCGG AACATAGCCC ATCTGAAGTT GACCTTTGAC
    ATGGGCAAGC CCTTCATGCC CTTCCAGCAG CTGCTGGGAG TCCTGCCTTC TGCCAGCAAA
    GACCTGCTGC CCCAGAGCTA TAGGCACCTG ATGACATCAG AGAATTCTAG CATCATTGAG
    TATTACCCTC TAGACTTCAA GACAGACCTT AATGGGAAAC AGCAGGAGTG GGAGGCTGTG
    GTGCTCATCC CCTTCATCGA CGAGAGATGT TTGCTTGCTG CGATGGAGCC TTATAACGAT
    CACATGACCA AGGCTGAGAA GGCCCGCAAC CGCCACACAC AGTGTGCTGT GTACAGCTAC
    GACGCTGAGC TAGACTACCT CTCTACCTCC ACCCTGCCTG ACCTGTTCCC CAACATCATG
    CACTGCCATG TCAGAGTGAC ACCGGTTCCC ATGGACGCGT GGCACGTGTC GTTGAGCCAC
    GTGGGGCGCA GCATCAACAG CAGCCAGCTC TACTTCTGTG GCTTCCCCAC CTTAAAGCAC
    ATCAGACACA AGTTCTATAA GAAGAAACAT GGAGTGGTGG TGTTCCAGCA GAGCAGCCGA
    GGAGAGAACA TGATGCTGGA GATAATACCT AGCAAAGAGG AACCAGTGTG TGACAATGTG
    GCCTCTCTGG TCCTGGGTCG GTCTGTCTTT GTCAACTGGC CCCACCTAGA GGAGGCCAGG
    GTGGTAGCAG TGTCTGACGG GGAAAGCAAG TTCTTCCTGG AGGAGCCGGC AGGGATGCAG
    AAGCTGTACG ACAGGGACTC TCCTCCCCCC ACTAAGGTCA CCTACCTCAG TGACAAGGAA
    CAGAAGGACT GGGTTAAGGA CGTACAGGGC ATCACTGAGC ATTTCGGTAA GCGTAAGGGC
    ATCACGGTGA ATGAGACGGC GGTGGTTTTG TATACCCAGC TGCTGACAGG CAGGAAGTAT
    GTACCTGGGC AGAGCGGACA GGTGCACCTG GAGAAACAGT GGGCCAAGCA GACACTGCCC
    TTCCCCTACC AGACCATCGT CAAGGACATC AAAGCCTTTG ACTCGTCGTC CACTCGCTTC
    AAGACTCTGG AGGAGCTGTT TCCCCCGACG ACCACGGTTT TCATGGTGGG GAACCCCTAC
    TACGGTGCCA TGGGAGAGGT GCAGGAGTCC AGTGATGTCA TCAAAGAGGG ACGGGTGCGG
    GTGGTGTTCA CGGTGCCCTG TGAACCACCG ATGGAATCCT TAATACAGAA CCAGCATAAA
    TACTGTGTAA AGTACAGTCC TGGCTACGTT CTGGCCTCAC GCCTCGGCAT CACCGGCTAC
    CTCGTCTCCA GATTCTCTGG CAGCATCTTC GTCGGCAGAG GATCCAAGAA AAATCCCCAT
    GGGGAGCAGA AGGCTAACGT GGGTCTGAAC CTGAAGTTCA ATAAGAAGAA TGAGGAGGTG
    CCAGGTTACA CCAAGAGAAC CGAGAAGGAG TGGCTCTATT CTGTCGCTGT GGAGGATCTG
    ATGGCTGAGT ACTTGGATAG GTTTTCTGAG GTGTTTGACC TGGTGTCCAG GAACAGTCAC
    GACGATGTCT TCTACGAGGA CGACATCTGG CCCGGAGTGG ACCAAAACGG GGCTGAGAGG
    GTGAAGGAGA TCACTTCCTG GTTGAAGACC CACCCAGTCG CCGACATCGC CCGGGCGTCA
    TGTGACCTGC AGATCCTGGA CACGGCCATC GTGGAGCAGA TCGAGGAGGA GGTGGCTAAG
    GTCAAGAAGA GCACCAAGAA AGTGCGTGTG ACCGTGAAGC CACATTTACT CTTCAGGCCC
    TTAGAGCAGC AGCACGGTGT GGTCCCTGAC CCGGATGCAG AGTACCACCT GTTTGACCGG
    GTGGTCAACG TCAGAGAGAG CTTCTCTGTC CCCCTCGGCC TCAGAGGAAC CATCATCGGC
    ATCAAGGGAG CTGATCGGGA GGCTGAGGTG TTGTATGAGG TAGTGTTTGA TGAAGAGTTT
    GCTGGGGGAC TTACTATCAG GTGTGCGTCG GGCCGTGGCT ACAGGCTGCC TCCGTGTGCC
    TTAATCAACT TGAGCCATGG ATGCCGCTTT GAGCAGGGTT CCCACAAACT GACCGCCATC
    GTCAAGCCCC AGCCCGCCGC CGCCTCCCAC CACTCACACA ACAAGGAACA GCTGTCTGGG
    CTCAACCACT CACCACGCTC ACCCTTCATA CCCACACAGC AGAACGGCAG ACAAAACAAC
    ATTCTCAGGG CAGAAACTCA GGGGAACAAA AATGTGCACC ACAATGCCCT CAGCCAGAAA
    CACCAGCCGA CGGGTAAAGA TGAGGAGTTC AGTAATGTGT GGCAGTCTCT GCAGAGTTCT
    GGAATGCCCC AGAAACCACC AGCCCACTGG CAACAAAACA ATGCGTGTAA TTCTGCCTGG
    GGTCCAGGGT CTCCTGGACA GGAAGGGCAG TTCCAGGGGC AACAGGGCAG GAACCAACCC
    CATAGTCAAC AACAACAACC CCCCAAACCT GGCCCAGCAG GAAGTATCAG ACTGCTGAAG
    AGAAATGAAG ATGTCAACAC TCTGTTTCCT GCTCAGAACG CCACAAAGAA GCAAACAGAG
    TTTGAGGAGT TGATCGCCAA CCTGAAGATC ACCAAGGGCA ACGAGCCAAC GAGCCAATCG
    GAGGAGCCGC TGTCTCCACA GTCATTCGCT ATGAAGGGGA CTCTGGCCCT GAAGGAGATG
    CTGAACATTG GCTCTGCCCC TGACTCCACT AGTCTCTCCT CCTCCAACAC ACAGCAGCAG
    AACAGGAGAA GACCCACCAA GAAACTGGCG GCGAGGATGG GAGACTTAGT GTTACCTGTG
    GCTGCAGCAG CAGTCCCTCC CCTGCAGGCC CACCAGCCCT CCTCCATGTG TCCCAGTGTG
    GCCTCAGAGC TGGCTAGGAT CTGTATAGGT CTGGGCATGG CCCCACCTGA CTTCACCTTC
    ATACGCAGCA GACAGGGTTT GATGGTGTGC CAGGTGAAGC TCTCCAGTGG TCTGCTTGTC
    CACGGTCCTC AGAGTCACTC TGAGAACGAA GCCAAAGAGA AGGCAGCTCT CTTCGCCCTG
    CAGCGCCTTG TGAGTGTGAA TTCGGTGGGA TCTGGGTTCC CCATGCCTCC GCCTCTGTTC
    TCCGGGGTCG GCCAGATAAG AGGACCGCCC ATGGGACCCA TGCCTAACGT ATTCGGCCAA
    TCAGGTGGTC TGTTAATCCC TCCTCAGGGG TATGGTCCTC TCCACTGGGG CATGCCCCTC
    CCGCCCCACC AGGGACAGCC CTTCTACGGG GGCACCTTCC CTGGCGCCCG GCCCCAGGCA
    CCCTCCGTCC CCATCGGCTC ACACAACCAG TTTGTCCCCC TGCAGGTGAC TAAGAAGCGC
    GTGTCATCAG GCAAGAAGCC ACAAGAGTTC TACAATGCGG CTCACATGGC GAGGAACCAA
    GCCCCAAGTA ACAAAGCCCA GTCTGACTCC CAACCGTCCC TATCCCCGGC CCCCTCGGCA
    CCCCCTGCAG CCCCCATCAC ACCCCCAAAG ACCACCCAGG ACCCCCCTGA GATGGCTGGG
    ACCCCCTCCA CGCCACAGAC ACCACGCCAG AACCCAGGCC ATGGCCACAC CCCCAGCTCT
    GCCTCCAAGA GGAAACACAG GAAACTGGCG GTCAACTTCG AAGTGGCCAA AGTCCAAGAA
    TGA

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

    RefSeq XP_014046340.1
    CDS161..5263
    Translation

    Target ORF information:

    RefSeq Version XM_014190865.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar 5'-3' exoribonuclease 1-like (LOC106599575), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014190865.1

    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
    ATGGGAGTGC CGAAATTCTA CCGATGGATT TCAGAGCGAT ACCCTTGCCT GAGTGAAGTT 
    GTCAAGGAAC ATCAGATTCC GGAGTTTGAC AACCTCTACC TGGATATGAA TGGCATCATC
    CACCAGTGCT CCCACCCCAA CGACGAGGAC GTCCACTTCC GTATCTCGGA GGAGAAGATC
    TTTGCGGACA TCTTCCACTA CCTGGAGGTG CTGTTCAGGA TCATCAAGCC CAGGAAGGTG
    TTCTTCATGG CCGTGGACGG AGTGGCTCCC CGGGCCAAGA TGAACCAGCA GAGAGGCAGG
    AGATTCAGGT CGGCCAAAGA AGCAGAGGAC AAGATAAAGA AGGCTCTAGA GAAAGGAGAG
    GTCCTACCCT CTGAGGCCCG CTTTGACTCT AACTGCATCA CACCTGGGAC GGACTTCATG
    GCCAGGTTAC AGGAGCAGCT CAAGTACTTT GTCAACAGTA AACTGTCCAC AGACAATGCC
    TGGAAAGGAG TCAACGTCTA CCTTTCTGGA CACGAGACTC CAGGAGAAGG AGAACATAAG
    ATCATGGAGT TTATCCGCTG GGAAAACACC AAGCCAGACC ACGACCCAAA CACACGCCAC
    TGTCTCTATG GCCTGGACGC TGACCTGATG ATGTTAGGTC TGACCAGCCA CGAGCCACAC
    TTCTCCCTAC TCAGAGAAGA GGTCCGCTTT GGAGGGAAGA AAAACCAGAA AAGAATAACT
    GCTCCAGAGG AGACAACCTT CCACCTACTG CATCTGTCAC TATTTAGGGA GTACATAGAC
    TACGAGTTCT CTGAAGTTAA GAATAAGATC TCATTTGAGT ACGACCTGGA GCGAATCATA
    GATGACTGGA TCCTGATGGG CTTTCTTGTT GGAAATGACT TCATCCCTCA TCTTCCTCAT
    CTTCACATAA ACCACGACGC CCTGCCTCTT CTCTACCGCA CCTACATCAG TGTGCTGCCA
    ACACTAGGAG GATACCTGAA TGAGAATGGC CACCTGAACC TGGGTAACTT TGAGAAGTAC
    CTGGAGAAAC TGTCAGAGTT TGACAGGGAG CACTTCAATG AGGTGTTTGT GGATCTGAAG
    TGGTTTGAGA GTAAGGTGGG GAACAAGTAC TTGAACGAGG CAGCAGGGCT GGCAGCAGAG
    GAGGCTCACT GCAAGGATTC CAGGAAGAAA GACCTGAAAG ACTCTCTGTG TCTGGCTGCA
    CTGGATGAGG GCAAGGACAG AGGCCCCAGC AGAGGTTTTG AGGAGGATGG GGAGGAAGAA
    GACATGTTTG AAGCAGAGTT CCGACAGTAC AAACGCACCT ACTACATGAC CAAGATGGGA
    GTGGAGGTGG TCTCAGATGA GTTTCTAGCC AACCAGGCAT TGTGCTATGT GGAGGGAATC
    CAGTGGATCT TACATTACTA CTACCATGGA GTCCAATCCT GGAGCTGGTA TTACCCGCAC
    CACTATGCCC CCTTCCTGTC AGATGTGCGG AACATAGCCC ATCTGAAGTT GACCTTTGAC
    ATGGGCAAGC CCTTCATGCC CTTCCAGCAG CTGCTGGGAG TCCTGCCTTC TGCCAGCAAA
    GACCTGCTGC CCCAGAGCTA TAGGCACCTG ATGACATCAG AGAATTCTAG CATCATTGAG
    TATTACCCTC TAGACTTCAA GACAGACCTT AATGGGAAAC AGCAGGAGTG GGAGGCTGTG
    GTGCTCATCC CCTTCATCGA CGAGAGATGT TTGCTTGCTG CGATGGAGCC TTATAACGAT
    CACATGACCA AGGCTGAGAA GGCCCGCAAC CGCCACACAC AGTGTGCTGT GTACAGCTAC
    GACGCTGAGC TAGACTACCT CTCTACCTCC ACCCTGCCTG ACCTGTTCCC CAACATCATG
    CACTGCCATG TCAGAGTGAC ACCGGTTCCC ATGGACGCGT GGCACGTGTC GTTGAGCCAC
    GTGGGGCGCA GCATCAACAG CAGCCAGCTC TACTTCTGTG GCTTCCCCAC CTTAAAGCAC
    ATCAGACACA AGTTCTATAA GAAGAAACAT GGAGTGGTGG TGTTCCAGCA GAGCAGCCGA
    GGAGAGAACA TGATGCTGGA GATAATACCT AGCAAAGAGG AACCAGTGTG TGACAATGTG
    GCCTCTCTGG TCCTGGGTCG GTCTGTCTTT GTCAACTGGC CCCACCTAGA GGAGGCCAGG
    GTGGTAGCAG TGTCTGACGG GGAAAGCAAG TTCTTCCTGG AGGAGCCGGC AGGGATGCAG
    AAGCTGTACG ACAGGGACTC TCCTCCCCCC ACTAAGGTCA CCTACCTCAG TGACAAGGAA
    CAGAAGGACT GGGTTAAGGA CGTACAGGGC ATCACTGAGC ATTTCGGTAA GCGTAAGGGC
    ATCACGGTGA ATGAGACGGC GGTGGTTTTG TATACCCAGC TGCTGACAGG CAGGAAGTAT
    GTACCTGGGC AGAGCGGACA GGTGCACCTG GAGAAACAGT GGGCCAAGCA GACACTGCCC
    TTCCCCTACC AGACCATCGT CAAGGACATC AAAGCCTTTG ACTCGTCGTC CACTCGCTTC
    AAGACTCTGG AGGAGCTGTT TCCCCCGACG ACCACGGTTT TCATGGTGGG GAACCCCTAC
    TACGGTGCCA TGGGAGAGGT GCAGGAGTCC AGTGATGTCA TCAAAGAGGG ACGGGTGCGG
    GTGGTGTTCA CGGTGCCCTG TGAACCACCG ATGGAATCCT TAATACAGAA CCAGCATAAA
    TACTGTGTAA AGTACAGTCC TGGCTACGTT CTGGCCTCAC GCCTCGGCAT CACCGGCTAC
    CTCGTCTCCA GATTCTCTGG CAGCATCTTC GTCGGCAGAG GATCCAAGAA AAATCCCCAT
    GGGGAGCAGA AGGCTAACGT GGGTCTGAAC CTGAAGTTCA ATAAGAAGAA TGAGGAGGTG
    CCAGGTTACA CCAAGAGAAC CGAGAAGGAG TGGCTCTATT CTGTCGCTGT GGAGGATCTG
    ATGGCTGAGT ACTTGGATAG GTTTTCTGAG GTGTTTGACC TGGTGTCCAG GAACAGTCAC
    GACGATGTCT TCTACGAGGA CGACATCTGG CCCGGAGTGG ACCAAAACGG GGCTGAGAGG
    GTGAAGGAGA TCACTTCCTG GTTGAAGACC CACCCAGTCG CCGACATCGC CCGGGCGTCA
    TGTGACCTGC AGATCCTGGA CACGGCCATC GTGGAGCAGA TCGAGGAGGA GGTGGCTAAG
    GTCAAGAAGA GCACCAAGAA AGTGCGTGTG ACCGTGAAGC CACATTTACT CTTCAGGCCC
    TTAGAGCAGC AGCACGGTGT GGTCCCTGAC CCGGATGCAG AGTACCACCT GTTTGACCGG
    GTGGTCAACG TCAGAGAGAG CTTCTCTGTC CCCCTCGGCC TCAGAGGAAC CATCATCGGC
    ATCAAGGGAG CTGATCGGGA GGCTGAGGTG TTGTATGAGG TAGTGTTTGA TGAAGAGTTT
    GCTGGGGGAC TTACTATCAG GTGTGCGTCG GGCCGTGGCT ACAGGCTGCC TCCGTGTGCC
    TTAATCAACT TGAGCCATGG ATGCCGCTTT GAGCAGGGTT CCCACAAACT GACCGCCATC
    GTCAAGCCCC AGCCCGCCGC CGCCTCCCAC CACTCACACA ACAAGGAACA GCTGTCTGGG
    CTCAACCACT CACCACGCTC ACCCTTCATA CCCACACAGC AGAACGGCAG ACAAAACAAC
    ATTCTCAGGG CAGAAACTCA GGGGAACAAA AATGTGCACC ACAATGCCCT CAGCCAGAAA
    CACCAGCCGA CGGGTAAAGA TGAGGAGTTC AGTAATGTGT GGCAGTCTCT GCAGAGTTCT
    GGAATGCCCC AGAAACCACC AGCCCACTGG CAACAAAACA ATGCGTGTAA TTCTGCCTGG
    GGTCCAGGGT CTCCTGGACA GGAAGGGCAG TTCCAGGGGC AACAGGGCAG GAACCAACCC
    CATAGTCAAC AACAACAACC CCCCAAACCT GGCCCAGCAG GAAGTATCAG ACTGCTGAAG
    AGAAATGAAG ATGTCAACAC TCTGTTTCCT GCTCAGAACG CCACAAAGAA GCAAACAGAG
    TTTGAGGAGT TGATCGCCAA CCTGAAGATC ACCAAGGGCA ACGAGCCAAC GAGCCAATCG
    GAGGAGCCGC TGTCTCCACA GTCATTCGCT ATGAAGGGGA CTCTGGCCCT GAAGGAGATG
    CTGAACATTG GCTCTGCCCC TGACTCCACT AGTCTCTCCT CCTCCAACAC ACAGCAGCAG
    AACAGGAGAA GACCCACCAA GAAACTGGCG GCGAGGATGG GAGACTTAGT GTTACCTGTG
    GCTGCAGCAG CAGTCCCTCC CCTGCAGGCC CACCAGCCCT CCTCCATGTG TCCCAGTGTG
    GCCTCAGAGC TGGCTAGGAT CTGTATAGGT CTGGGCATGG CCCCACCTGA CTTCACCTTC
    ATACGCAGCA GACAGGGTTT GATGGTGTGC CAGGTGAAGC TCTCCAGTGG TCTGCTTGTC
    CACGGTCCTC AGAGTCACTC TGAGAACGAA GCCAAAGAGA AGGCAGCTCT CTTCGCCCTG
    CAGCGCCTTG TGAGTGTGAA TTCGGTGGGA TCTGGGTTCC CCATGCCTCC GCCTCTGTTC
    TCCGGGGTCG GCCAGATAAG AGGACCGCCC ATGGGACCCA TGCCTAACGT ATTCGGCCAA
    TCAGGTGGTC TGTTAATCCC TCCTCAGGGG TATGGTCCTC TCCACTGGGG CATGCCCCTC
    CCGCCCCACC AGGGACAGCC CTTCTACGGG GGCACCTTCC CTGGCGCCCG GCCCCAGGCA
    CCCTCCGTCC CCATCGGCTC ACACAACCAG TTTGTCCCCC TGCAGGTGAC TAAGAAGCGC
    GTGTCATCAG GCAAGAAGCC ACAAGAGTTC TACAATGCGG CTCACATGGC GAGGAACCAA
    GCCCCAAGTA ACAAAGCCCA GTCTGACTCC CAACCGTCCC TATCCCCGGC CCCCTCGGCA
    CCCCCTGCAG CCCCCATCAC ACCCCCAAAG ACCACCCAGG ACCCCCCTGA GATGGCTGGG
    ACCCCCTCCA CGCCACAGAC ACCACGCCAG AACCCAGGCC ATGGCCACAC CCCCAGCTCT
    GCCTCCAAGA GGAAACACAG GAAACTGGCG GTCAACTTCG AAGTGGCCAA AGTCCAAGAA
    TGA

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

    CloneID OAt12233
    Clone ID Related Accession (Same CDS sequence) XM_014190866.1
    Accession Version XM_014190866.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5097bp)
    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 5'-3' exoribonuclease 1-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012333553.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGGGAGTGC CGAAATTCTA CCGATGGATT TCAGAGCGAT ACCCTTGCCT GAGTGAAGTT 
    GTCAAGGAAC ATCAGATTCC GGAGTTTGAC AACCTCTACC TGGATATGAA TGGCATCATC
    CACCAGTGCT CCCACCCCAA CGACGAGGAC GTCCACTTCC GTATCTCGGA GGAGAAGATC
    TTTGCGGACA TCTTCCACTA CCTGGAGGTG CTGTTCAGGA TCATCAAGCC CAGGAAGGTG
    TTCTTCATGG CCGTGGACGG AGTGGCTCCC CGGGCCAAGA TGAACCAGCA GAGAGGCAGG
    AGATTCAGGT CGGCCAAAGA AGCAGAGGAC AAGATAAAGA AGGCTCTAGA GAAAGGAGAG
    GTCCTACCCT CTGAGGCCCG CTTTGACTCT AACTGCATCA CACCTGGGAC GGACTTCATG
    GCCAGGTTAC AGGAGCAGCT CAAGTACTTT GTCAACAGTA AACTGTCCAC AGACAATGCC
    TGGAAAGGAG TCAACGTCTA CCTTTCTGGA CACGAGACTC CAGGAGAAGG AGAACATAAG
    ATCATGGAGT TTATCCGCTG GGAAAACACC AAGCCAGACC ACGACCCAAA CACACGCCAC
    TGTCTCTATG GCCTGGACGC TGACCTGATG ATGTTAGGTC TGACCAGCCA CGAGCCACAC
    TTCTCCCTAC TCAGAGAAGA GGTCCGCTTT GGAGGGAAGA AAAACCAGAA AAGAATAACT
    GCTCCAGAGG AGACAACCTT CCACCTACTG CATCTGTCAC TATTTAGGGA GTACATAGAC
    TACGAGTTCT CTGAAGTTAA GAATAAGATC TCATTTGAGT ACGACCTGGA GCGAATCATA
    GATGACTGGA TCCTGATGGG CTTTCTTGTT GGAAATGACT TCATCCCTCA TCTTCCTCAT
    CTTCACATAA ACCACGACGC CCTGCCTCTT CTCTACCGCA CCTACATCAG TGTGCTGCCA
    ACACTAGGAG GATACCTGAA TGAGAATGGC CACCTGAACC TGGGTAACTT TGAGAAGTAC
    CTGGAGAAAC TGTCAGAGTT TGACAGGGAG CACTTCAATG AGGTGTTTGT GGATCTGAAG
    TGGTTTGAGA GTAAGGTGGG GAACAAGTAC TTGAACGAGG CAGCAGGGCT GGCAGCAGAG
    GAGGCTCACT GCAAGGATTC CAGGAAGAAA GACCTGAAAG ACTCTCTGTG TCTGGCTGCA
    CTGGATGAGG GCAAGGACAG AGGCCCCAGC AGAGGTTTTG AGGAGGATGG GGAGGAAGAA
    GACATGTTTG AAGCAGAGTT CCGACAGTAC AAACGCACCT ACTACATGAC CAAGATGGGA
    GTGGAGGTGG TCTCAGATGA GTTTCTAGCC AACCAGGCAT TGTGCTATGT GGAGGGAATC
    CAGTGGATCT TACATTACTA CTACCATGGA GTCCAATCCT GGAGCTGGTA TTACCCGCAC
    CACTATGCCC CCTTCCTGTC AGATGTGCGG AACATAGCCC ATCTGAAGTT GACCTTTGAC
    ATGGGCAAGC CCTTCATGCC CTTCCAGCAG CTGCTGGGAG TCCTGCCTTC TGCCAGCAAA
    GACCTGCTGC CCCAGAGCTA TAGGCACCTG ATGACATCAG AGAATTCTAG CATCATTGAG
    TATTACCCTC TAGACTTCAA GACAGACCTT AATGGGAAAC AGCAGGAGTG GGAGGCTGTG
    GTGCTCATCC CCTTCATCGA CGAGAGATGT TTGCTTGCTG CGATGGAGCC TTATAACGAT
    CACATGACCA AGGCTGAGAA GGCCCGCAAC CGCCACACAC AGTGTGCTGT GTACAGCTAC
    GACGCTGAGC TAGACTACCT CTCTACCTCC ACCCTGCCTG ACCTGTTCCC CAACATCATG
    CACTGCCATG TCAGAGTGAC ACCGGTTCCC ATGGACGCGT GGCACGTGTC GTTGAGCCAC
    GTGGGGCGCA GCATCAACAG CAGCCAGCTC TACTTCTGTG GCTTCCCCAC CTTAAAGCAC
    ATCAGACACA AGTTCTATAA GAAGAAACAT GGAGTGGTGG TGTTCCAGCA GAGCAGCCGA
    GGAGAGAACA TGATGCTGGA GATAATACCT AGCAAAGAGG AACCAGTGTG TGACAATGTG
    GCCTCTCTGG TCCTGGGTCG GTCTGTCTTT GTCAACTGGC CCCACCTAGA GGAGGCCAGG
    GTGGTAGCAG TGTCTGACGG GGAAAGCAAG TTCTTCCTGG AGGAGCCGGC AGGGATGCAG
    AAGCTGTACG ACAGGGACTC TCCTCCCCCC ACTAAGGTCA CCTACCTCAG TGACAAGGAA
    CAGAAGGACT GGGTTAAGGA CGTACAGGGC ATCACTGAGC ATTTCGGTAA GCGTAAGGGC
    ATCACGGTGA ATGAGACGGC GGTGGTTTTG TATACCCAGC TGCTGACAGG CAGGAAGTAT
    GTACCTGGGC AGAGCGGACA GGTGCACCTG GAGAAACAGT GGGCCAAGCA GACACTGCCC
    TTCCCCTACC AGACCATCGT CAAGGACATC AAAGCCTTTG ACTCGTCGTC CACTCGCTTC
    AAGACTCTGG AGGAGCTGTT TCCCCCGACG ACCACGGTTT TCATGGTGGG GAACCCCTAC
    TACGGTGCCA TGGGAGAGGT GCAGGAGTCC AGTGATGTCA TCAAAGAGGG ACGGGTGCGG
    GTGGTGTTCA CGGTGCCCTG TGAACCACCG ATGGAATCCT TAATACAGAA CCAGCATAAA
    TACTGTGTAA AGTACAGTCC TGGCTACGTT CTGGCCTCAC GCCTCGGCAT CACCGGCTAC
    CTCGTCTCCA GATTCTCTGG CAGCATCTTC GTCGGCAGAG GATCCAAGAA AAATCCCCAT
    GGGGAGCAGA AGGCTAACGT GGGTCTGAAC CTGAAGTTCA ATAAGAAGAA TGAGGAGGTG
    CCAGGTTACA CCAAGAGAAC CGAGAAGGAG TGGCTCTATT CTGTCGCTGT GGAGGATCTG
    ATGGCTGAGT ACTTGGATAG GTTTTCTGAG GTGTTTGACC TGGTGTCCAG GAACAGTCAC
    GACGATGTCT TCTACGAGGA CGACATCTGG CCCGGAGTGG ACCAAAACGG GGCTGAGAGG
    GTGAAGGAGA TCACTTCCTG GTTGAAGACC CACCCAGTCG CCGACATCGC CCGGGCGTCA
    TGTGACCTGC AGATCCTGGA CACGGCCATC GTGGAGCAGA TCGAGGAGGA GGTGGCTAAG
    GTCAAGAAGA GCACCAAGAA AGTGCGTGTG ACCGTGAAGC CACATTTACT CTTCAGGCCC
    TTAGAGCAGC AGCACGGTGT GGTCCCTGAC CCGGATGCAG AGTACCACCT GTTTGACCGG
    GTGGTCAACG TCAGAGAGAG CTTCTCTGTC CCCCTCGGCC TCAGAGGAAC CATCATCGGC
    ATCAAGGGAG CTGATCGGGA GGCTGAGGTG TTGTATGAGG TAGTGTTTGA TGAAGAGTTT
    GCTGGGGGAC TTACTATCAG GTGTGCGTCG GGCCGTGGCT ACAGGCTGCC TCCGTGTGCC
    TTAATCAACT TGAGCCATGG ATGCCGCTTT GAGCAGGGTT CCCACAAACT GACCGCCATC
    GTCAAGCCCC AGCCCGCCGC CGCCTCCCAC CACTCACACA ACAAGGAACA GCTGTCTGGG
    CTCAACCACT CACCACGCTC ACCCTTCATA CCCACACAGC AGCAGAACGG CAGACAAAAC
    AACATTCTCA GGGCAGAAAC TCAGGGGAAC AAAAATGTGC ACCACAATGC CCTCAGCCAG
    AAACACCAGC CGACGGGTAA AGATGAGGAG TTCAGTAATG TGTGGCAGTC TCTGCAGAGT
    TCTGGAATGC CCCAGAAACC ACCAGCCCAC TGGCAACAAA ACAATGCGTG TAATTCTGCC
    TGGGGTCCAG GGTCTCCTGG ACAGGAAGGG CAGTTCCAGG GGCAACAGGG CAGGAACCAA
    CCCCATAGTC AACAACAACA ACCCCCCAAA CCTGGCCCAG CAGGAAGTAT CAGACTGCTG
    AAGAGAAATG AAGATGTCAA CACTCTGTTT CCTGCTCAGA ACGCCACAAA GAAGCAAACA
    GAGTTTGAGG AGTTGATCGC CAACCTGAAG ATCACCAAGG GCAACGAGCC AACGAGCCAA
    TCGGAGGAGC CGCTGTCTCC ACAGTCATTC GCTATGAAGG GGACTCTGGC CCTGAAGGAG
    ATGCTGAACA TTGGCTCTGC CCCTGACTCC ACTAGTCTCT CCTCCTCCAA CACACAGCAG
    CAGAACAGGA GAAGACCCAC CAAGAAACTG GCGGCGAGGA TGGGAGACTT AGTGTTACCT
    GTGGCTGCAG CAGCAGTCCC TCCCCTGCAG GCCCACCAGC CCTCCTCCAT GTGTCCCAGT
    GTGGCCTCAG AGCTGGCTAG GATCTGTATA GGTCTGGGCA TGGCCCCACC TGACTTCACC
    TTCATACGCA GCAGACAGGG TTTGATGGTG TGCCAGGTGA AGCTCTCCAG TGGTCTGCTT
    GTCCACGGTC CTCAGAGTCA CTCTGAGAAC GAAGCCAAAG AGAAGGCAGC TCTCTTCGCC
    CTGCAGCGCC TTAATTCGGT GGGATCTGGG TTCCCCATGC CTCCGCCTCT GTTCTCCGGG
    GTCGGCCAGA TAAGAGGACC GCCCATGGGA CCCATGCCTA ACGTATTCGG CCAATCAGGT
    GGTCTGTTAA TCCCTCCTCA GGGGTATGGT CCTCTCCACT GGGGCATGCC CCTCCCGCCC
    CACCAGGGAC AGCCCTTCTA CGGGGGCACC TTCCCTGGCG CCCGGCCCCA GGCACCCTCC
    GTCCCCATCG GCTCACACAA CCAGTTTGTC CCCCTGCAGG TGACTAAGAA GCGCGTGTCA
    TCAGGCAAGA AGCCACAAGA GTTCTACAAT GCGGCTCACA TGGCGAGGAA CCAAGCCCCA
    AGTAACAAAG CCCAGTCTGA CTCCCAACCG TCCCTATCCC CGGCCCCCTC GGCACCCCCT
    GCAGCCCCCA TCACACCCCC AAAGACCACC CAGGACCCCC CTGAGATGGC TGGGACCCCC
    TCCACGCCAC AGACACCACG CCAGAACCCA GGCCATGGCC ACACCCCCAG CTCTGCCTCC
    AAGAGGAAAC ACAGGAAACT GGCGGTCAAC TTCGAAGTGG CCAAAGTCCA AGAATGA

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

    RefSeq XP_014046341.1
    CDS161..5257
    Translation

    Target ORF information:

    RefSeq Version XM_014190866.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar 5'-3' exoribonuclease 1-like (LOC106599575), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014190866.1

    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
    ATGGGAGTGC CGAAATTCTA CCGATGGATT TCAGAGCGAT ACCCTTGCCT GAGTGAAGTT 
    GTCAAGGAAC ATCAGATTCC GGAGTTTGAC AACCTCTACC TGGATATGAA TGGCATCATC
    CACCAGTGCT CCCACCCCAA CGACGAGGAC GTCCACTTCC GTATCTCGGA GGAGAAGATC
    TTTGCGGACA TCTTCCACTA CCTGGAGGTG CTGTTCAGGA TCATCAAGCC CAGGAAGGTG
    TTCTTCATGG CCGTGGACGG AGTGGCTCCC CGGGCCAAGA TGAACCAGCA GAGAGGCAGG
    AGATTCAGGT CGGCCAAAGA AGCAGAGGAC AAGATAAAGA AGGCTCTAGA GAAAGGAGAG
    GTCCTACCCT CTGAGGCCCG CTTTGACTCT AACTGCATCA CACCTGGGAC GGACTTCATG
    GCCAGGTTAC AGGAGCAGCT CAAGTACTTT GTCAACAGTA AACTGTCCAC AGACAATGCC
    TGGAAAGGAG TCAACGTCTA CCTTTCTGGA CACGAGACTC CAGGAGAAGG AGAACATAAG
    ATCATGGAGT TTATCCGCTG GGAAAACACC AAGCCAGACC ACGACCCAAA CACACGCCAC
    TGTCTCTATG GCCTGGACGC TGACCTGATG ATGTTAGGTC TGACCAGCCA CGAGCCACAC
    TTCTCCCTAC TCAGAGAAGA GGTCCGCTTT GGAGGGAAGA AAAACCAGAA AAGAATAACT
    GCTCCAGAGG AGACAACCTT CCACCTACTG CATCTGTCAC TATTTAGGGA GTACATAGAC
    TACGAGTTCT CTGAAGTTAA GAATAAGATC TCATTTGAGT ACGACCTGGA GCGAATCATA
    GATGACTGGA TCCTGATGGG CTTTCTTGTT GGAAATGACT TCATCCCTCA TCTTCCTCAT
    CTTCACATAA ACCACGACGC CCTGCCTCTT CTCTACCGCA CCTACATCAG TGTGCTGCCA
    ACACTAGGAG GATACCTGAA TGAGAATGGC CACCTGAACC TGGGTAACTT TGAGAAGTAC
    CTGGAGAAAC TGTCAGAGTT TGACAGGGAG CACTTCAATG AGGTGTTTGT GGATCTGAAG
    TGGTTTGAGA GTAAGGTGGG GAACAAGTAC TTGAACGAGG CAGCAGGGCT GGCAGCAGAG
    GAGGCTCACT GCAAGGATTC CAGGAAGAAA GACCTGAAAG ACTCTCTGTG TCTGGCTGCA
    CTGGATGAGG GCAAGGACAG AGGCCCCAGC AGAGGTTTTG AGGAGGATGG GGAGGAAGAA
    GACATGTTTG AAGCAGAGTT CCGACAGTAC AAACGCACCT ACTACATGAC CAAGATGGGA
    GTGGAGGTGG TCTCAGATGA GTTTCTAGCC AACCAGGCAT TGTGCTATGT GGAGGGAATC
    CAGTGGATCT TACATTACTA CTACCATGGA GTCCAATCCT GGAGCTGGTA TTACCCGCAC
    CACTATGCCC CCTTCCTGTC AGATGTGCGG AACATAGCCC ATCTGAAGTT GACCTTTGAC
    ATGGGCAAGC CCTTCATGCC CTTCCAGCAG CTGCTGGGAG TCCTGCCTTC TGCCAGCAAA
    GACCTGCTGC CCCAGAGCTA TAGGCACCTG ATGACATCAG AGAATTCTAG CATCATTGAG
    TATTACCCTC TAGACTTCAA GACAGACCTT AATGGGAAAC AGCAGGAGTG GGAGGCTGTG
    GTGCTCATCC CCTTCATCGA CGAGAGATGT TTGCTTGCTG CGATGGAGCC TTATAACGAT
    CACATGACCA AGGCTGAGAA GGCCCGCAAC CGCCACACAC AGTGTGCTGT GTACAGCTAC
    GACGCTGAGC TAGACTACCT CTCTACCTCC ACCCTGCCTG ACCTGTTCCC CAACATCATG
    CACTGCCATG TCAGAGTGAC ACCGGTTCCC ATGGACGCGT GGCACGTGTC GTTGAGCCAC
    GTGGGGCGCA GCATCAACAG CAGCCAGCTC TACTTCTGTG GCTTCCCCAC CTTAAAGCAC
    ATCAGACACA AGTTCTATAA GAAGAAACAT GGAGTGGTGG TGTTCCAGCA GAGCAGCCGA
    GGAGAGAACA TGATGCTGGA GATAATACCT AGCAAAGAGG AACCAGTGTG TGACAATGTG
    GCCTCTCTGG TCCTGGGTCG GTCTGTCTTT GTCAACTGGC CCCACCTAGA GGAGGCCAGG
    GTGGTAGCAG TGTCTGACGG GGAAAGCAAG TTCTTCCTGG AGGAGCCGGC AGGGATGCAG
    AAGCTGTACG ACAGGGACTC TCCTCCCCCC ACTAAGGTCA CCTACCTCAG TGACAAGGAA
    CAGAAGGACT GGGTTAAGGA CGTACAGGGC ATCACTGAGC ATTTCGGTAA GCGTAAGGGC
    ATCACGGTGA ATGAGACGGC GGTGGTTTTG TATACCCAGC TGCTGACAGG CAGGAAGTAT
    GTACCTGGGC AGAGCGGACA GGTGCACCTG GAGAAACAGT GGGCCAAGCA GACACTGCCC
    TTCCCCTACC AGACCATCGT CAAGGACATC AAAGCCTTTG ACTCGTCGTC CACTCGCTTC
    AAGACTCTGG AGGAGCTGTT TCCCCCGACG ACCACGGTTT TCATGGTGGG GAACCCCTAC
    TACGGTGCCA TGGGAGAGGT GCAGGAGTCC AGTGATGTCA TCAAAGAGGG ACGGGTGCGG
    GTGGTGTTCA CGGTGCCCTG TGAACCACCG ATGGAATCCT TAATACAGAA CCAGCATAAA
    TACTGTGTAA AGTACAGTCC TGGCTACGTT CTGGCCTCAC GCCTCGGCAT CACCGGCTAC
    CTCGTCTCCA GATTCTCTGG CAGCATCTTC GTCGGCAGAG GATCCAAGAA AAATCCCCAT
    GGGGAGCAGA AGGCTAACGT GGGTCTGAAC CTGAAGTTCA ATAAGAAGAA TGAGGAGGTG
    CCAGGTTACA CCAAGAGAAC CGAGAAGGAG TGGCTCTATT CTGTCGCTGT GGAGGATCTG
    ATGGCTGAGT ACTTGGATAG GTTTTCTGAG GTGTTTGACC TGGTGTCCAG GAACAGTCAC
    GACGATGTCT TCTACGAGGA CGACATCTGG CCCGGAGTGG ACCAAAACGG GGCTGAGAGG
    GTGAAGGAGA TCACTTCCTG GTTGAAGACC CACCCAGTCG CCGACATCGC CCGGGCGTCA
    TGTGACCTGC AGATCCTGGA CACGGCCATC GTGGAGCAGA TCGAGGAGGA GGTGGCTAAG
    GTCAAGAAGA GCACCAAGAA AGTGCGTGTG ACCGTGAAGC CACATTTACT CTTCAGGCCC
    TTAGAGCAGC AGCACGGTGT GGTCCCTGAC CCGGATGCAG AGTACCACCT GTTTGACCGG
    GTGGTCAACG TCAGAGAGAG CTTCTCTGTC CCCCTCGGCC TCAGAGGAAC CATCATCGGC
    ATCAAGGGAG CTGATCGGGA GGCTGAGGTG TTGTATGAGG TAGTGTTTGA TGAAGAGTTT
    GCTGGGGGAC TTACTATCAG GTGTGCGTCG GGCCGTGGCT ACAGGCTGCC TCCGTGTGCC
    TTAATCAACT TGAGCCATGG ATGCCGCTTT GAGCAGGGTT CCCACAAACT GACCGCCATC
    GTCAAGCCCC AGCCCGCCGC CGCCTCCCAC CACTCACACA ACAAGGAACA GCTGTCTGGG
    CTCAACCACT CACCACGCTC ACCCTTCATA CCCACACAGC AGCAGAACGG CAGACAAAAC
    AACATTCTCA GGGCAGAAAC TCAGGGGAAC AAAAATGTGC ACCACAATGC CCTCAGCCAG
    AAACACCAGC CGACGGGTAA AGATGAGGAG TTCAGTAATG TGTGGCAGTC TCTGCAGAGT
    TCTGGAATGC CCCAGAAACC ACCAGCCCAC TGGCAACAAA ACAATGCGTG TAATTCTGCC
    TGGGGTCCAG GGTCTCCTGG ACAGGAAGGG CAGTTCCAGG GGCAACAGGG CAGGAACCAA
    CCCCATAGTC AACAACAACA ACCCCCCAAA CCTGGCCCAG CAGGAAGTAT CAGACTGCTG
    AAGAGAAATG AAGATGTCAA CACTCTGTTT CCTGCTCAGA ACGCCACAAA GAAGCAAACA
    GAGTTTGAGG AGTTGATCGC CAACCTGAAG ATCACCAAGG GCAACGAGCC AACGAGCCAA
    TCGGAGGAGC CGCTGTCTCC ACAGTCATTC GCTATGAAGG GGACTCTGGC CCTGAAGGAG
    ATGCTGAACA TTGGCTCTGC CCCTGACTCC ACTAGTCTCT CCTCCTCCAA CACACAGCAG
    CAGAACAGGA GAAGACCCAC CAAGAAACTG GCGGCGAGGA TGGGAGACTT AGTGTTACCT
    GTGGCTGCAG CAGCAGTCCC TCCCCTGCAG GCCCACCAGC CCTCCTCCAT GTGTCCCAGT
    GTGGCCTCAG AGCTGGCTAG GATCTGTATA GGTCTGGGCA TGGCCCCACC TGACTTCACC
    TTCATACGCA GCAGACAGGG TTTGATGGTG TGCCAGGTGA AGCTCTCCAG TGGTCTGCTT
    GTCCACGGTC CTCAGAGTCA CTCTGAGAAC GAAGCCAAAG AGAAGGCAGC TCTCTTCGCC
    CTGCAGCGCC TTAATTCGGT GGGATCTGGG TTCCCCATGC CTCCGCCTCT GTTCTCCGGG
    GTCGGCCAGA TAAGAGGACC GCCCATGGGA CCCATGCCTA ACGTATTCGG CCAATCAGGT
    GGTCTGTTAA TCCCTCCTCA GGGGTATGGT CCTCTCCACT GGGGCATGCC CCTCCCGCCC
    CACCAGGGAC AGCCCTTCTA CGGGGGCACC TTCCCTGGCG CCCGGCCCCA GGCACCCTCC
    GTCCCCATCG GCTCACACAA CCAGTTTGTC CCCCTGCAGG TGACTAAGAA GCGCGTGTCA
    TCAGGCAAGA AGCCACAAGA GTTCTACAAT GCGGCTCACA TGGCGAGGAA CCAAGCCCCA
    AGTAACAAAG CCCAGTCTGA CTCCCAACCG TCCCTATCCC CGGCCCCCTC GGCACCCCCT
    GCAGCCCCCA TCACACCCCC AAAGACCACC CAGGACCCCC CTGAGATGGC TGGGACCCCC
    TCCACGCCAC AGACACCACG CCAGAACCCA GGCCATGGCC ACACCCCCAG CTCTGCCTCC
    AAGAGGAAAC ACAGGAAACT GGCGGTCAAC TTCGAAGTGG CCAAAGTCCA AGAATGA

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