LOC106582063 cDNA ORF clone, Salmo salar(Atlantic salmon)

The following LOC106582063 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106582063 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
OAt62125 XM_014164767.1
Latest version!
Salmo salar M-phase phosphoprotein 8-like (LOC106582063), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OAt62124 XM_014164766.1
Latest version!
Salmo salar M-phase phosphoprotein 8-like (LOC106582063), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAt62123 XM_014164765.1
Latest version!
Salmo salar M-phase phosphoprotein 8-like (LOC106582063), transcript variant X1, 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)
    CloneID OAt62125
    Clone ID Related Accession (Same CDS sequence) XM_014164767.1
    Accession Version XM_014164767.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2577bp)
    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 M-phase phosphoprotein 8-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012340351.1) annotated using gene prediction method: Gnomon. 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
    ATGGCGGAAA AGCCAGAGGC TGGAGACAGC GAAGACGAGG TTGAAGATGT TTATGAAGTG 
    GAGAGGATTA TTGACATGCG AACGGAGGAG GGGGAGGTCC TGTACCGCGT TCGCTGGAAG
    AACTACTCAT CTGACGAAGA CACCTGGGAG CCTGAGGCCC ACCTGGAGGA TTGCAGGGAG
    GTGCTGCTGG TCTACAAGAG GGCTCTGGCA GAGGCTAAGG TCAAGAAAGA CCAAGATGCT
    AAGAAGGGCA TGAAGCTGCC CATGAAGAGT GACGTGTTCG ATGCCGACTC TGACAGCGAC
    AGTGATAAAG ACAAGCCCAC AGAGCTGCCT GTCAAGAAAA AGAAAAAAAA GAAGCCCCAA
    GAAGAAGAGG CACTTCTCCC GAAAGAGAAG AGGAAAAAGA AGAAAGACAA GCGCAAGGAG
    GACTTCAGGC CTCGTCCGGC ACCAGAGTCT GATGAAGAGG AGCTTTCCCC TCCCCCGACC
    CCGGGCCGCA ATACCAAGAT GTCCGACTCC AAGAAGAGAT TTGTTGAAAC TGATGATGAG
    GAAGAAGCCC CCGTGCCCTC CAAGAAGCAC AGGAAGGACA AAGCCAAGGA TGGAGGGAAG
    CATAGGAAAA AAGATAACAT CGAGGAAGGG AAGAAGAAAA AGACAAAGAA GGATCAAAGG
    GGTGATCTGG AGTCCACTGA AGATGAGGCC ACCGCCCCCC TAGAAGAGGA GCTTAGCGAG
    GGGCCATCTG AGTCCCAGAC GGATGATACC ACACCAACTG AAAAGTCTCG CACTGATGAC
    AAGCCCAAGA ATAAGAAGGG AAAGTCAGAA CTGAAATTGC AGGGCATCAA GGACTTCCTT
    CAGGACAGGA AAGGTAAGAA GCCGGAAACT ACTTCACCCA CGCTCTCCAC AAGCGGCCTT
    GCAAAACTCA AGAGCCTCGC CTCCTTCAAG AGCCAGAGCC GGGATGAGCC CACACCAACC
    TCTGACTCCA GCGACACCCC AGCCCACGTC CACAAGAAGG CCAAGGGCAA GAGCCAGGAG
    GCCACCTCTG CGCCACCGAA AATCCCCTCA TCCTCCTTTG GTGCAGGGGC CAGCACCAGT
    AAGGCCCGAG AGGAGGAGTC TAAAGAGGAA GTGTGCGGGG ATAAGGAACC AGCCACCTCC
    ACTAACCTGT TTGAGAAGTT CCTGTTGAAC TGCGAGGCCA AGGACCGCGT TCCCCGCAAA
    CAGATGGTCC ACCAGCCCAC CTCTGCAGAG AACACTAAAC CACCGAAGCT CATAGGGAAA
    GTTGAAAAAA GGACCAAGCC GACAAAGGAG TCACCTGCTC GGAAGCCAGA GCCAGACAAG
    ACCAAACATA AAGACGCATT TCGGCCCAGT CAGAGCCCCG CTGCTGTGGA GACTAGTGAC
    AAGGCGGAGG CAGAGGACGA ACCCGCCCAG AAGTCAAAGT TTGGCGGAGA GGAACGGAGG
    GAGGAGGCTC AACGCTTGGA GAGGAGGACC CAAGACGATG ACAGAAGGAG GAGGAGGAGG
    GAAGACAGCG AGCCACGCCT CTTCATTGCC TGCGACGACA ATCAAGATGC CTTGGAGAGC
    GCTGACAAGT CTGACAAAGG ACAAGCCTCT CTTAACCTTG GAATGGACCT CAACTTGGAC
    TGGATGACAC TGGAGGACTT TCAGAAACAT TTGAACGGAG AGGATGAGAT TCTCTCTGCT
    CCACCACTAT CTCCCAGTGA GCTGCGTGAT GCAGTGAAAA GCGGGGATTA CATGTCTGTG
    AAACTTGCAC TCAATTCCAA AGAGGATTAC AATCTAGACC AGGAGGACTC CAGCGGTATG
    TCCCTTAGTA TGTTGGCAGC AGCAGGGGGA CAGGATGACA TCCTGAGGCT GCTGATAAAG
    AAGGGGGTGA AGGGGAACGG ACGGCAGAAG AACGGCACCA CTGCCCTGAT GCACGCTGCA
    GAGAAGAACT TCCTGACCAC AGTTGCTATC CTCCTGGAGG CAGGGTCCTA CGTCAACGCT
    CAGACACTGG GAGGAGAGAC GGCCCTGATG AAGGCATGCA AGAGGGGTAA TGCTGATGTG
    GTGCGCCTCC TACTGGAGTA CGGAGCCGAC TGCAACATCC TGTCCAAACA CAAGAATACG
    GCCATGCACT TTGCCAAGGT CAGCAACAAC CTGCTGGTGT ATGACCTCAT CGAGGACCAC
    ATCAACATGT TGTCAAATGT GGCAGAGGAC ACTATCCGGG CGTACTTTGA GACTCGGCTG
    GCCCTGCTGG AGCCAGTGTT CCCTCTGGCC TGTCACAGAC TGTGTGAGGG ACCAGACTTC
    TCCCTGGAGT TTGCCTACAA ACTATCGCCT CACACACCTG GAGAGGGCTC AGGCATCCTG
    CTCTTCATCT TCCATGCTAA CTTCCTGAGT GAGATCACAG CCAGGCTGTG TGGGCCCTGC
    AGCGTCCACG CAGTGGTACT CAACGACAAG TTCCAGCTGC CTATTTTCCT GGATAGTCAC
    TTCATCTACT CATTCAGCCC AGTGCCAGGC ATCAACAAAC TCTTCATTCG CCTGGCAGAG
    TCACCTACAG CCAAGGTGAA GCTTCTCATC TGTGCATTCC GTGTTCAGCT ACAGTGA

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

    RefSeq XP_014020242.1
    CDS243..2819
    Translation

    Target ORF information:

    RefSeq Version XM_014164767.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar M-phase phosphoprotein 8-like (LOC106582063), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014164767.1

    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
    ATGGCGGAAA AGCCAGAGGC TGGAGACAGC GAAGACGAGG TTGAAGATGT TTATGAAGTG 
    GAGAGGATTA TTGACATGCG AACGGAGGAG GGGGAGGTCC TGTACCGCGT TCGCTGGAAG
    AACTACTCAT CTGACGAAGA CACCTGGGAG CCTGAGGCCC ACCTGGAGGA TTGCAGGGAG
    GTGCTGCTGG TCTACAAGAG GGCTCTGGCA GAGGCTAAGG TCAAGAAAGA CCAAGATGCT
    AAGAAGGGCA TGAAGCTGCC CATGAAGAGT GACGTGTTCG ATGCCGACTC TGACAGCGAC
    AGTGATAAAG ACAAGCCCAC AGAGCTGCCT GTCAAGAAAA AGAAAAAAAA GAAGCCCCAA
    GAAGAAGAGG CACTTCTCCC GAAAGAGAAG AGGAAAAAGA AGAAAGACAA GCGCAAGGAG
    GACTTCAGGC CTCGTCCGGC ACCAGAGTCT GATGAAGAGG AGCTTTCCCC TCCCCCGACC
    CCGGGCCGCA ATACCAAGAT GTCCGACTCC AAGAAGAGAT TTGTTGAAAC TGATGATGAG
    GAAGAAGCCC CCGTGCCCTC CAAGAAGCAC AGGAAGGACA AAGCCAAGGA TGGAGGGAAG
    CATAGGAAAA AAGATAACAT CGAGGAAGGG AAGAAGAAAA AGACAAAGAA GGATCAAAGG
    GGTGATCTGG AGTCCACTGA AGATGAGGCC ACCGCCCCCC TAGAAGAGGA GCTTAGCGAG
    GGGCCATCTG AGTCCCAGAC GGATGATACC ACACCAACTG AAAAGTCTCG CACTGATGAC
    AAGCCCAAGA ATAAGAAGGG AAAGTCAGAA CTGAAATTGC AGGGCATCAA GGACTTCCTT
    CAGGACAGGA AAGGTAAGAA GCCGGAAACT ACTTCACCCA CGCTCTCCAC AAGCGGCCTT
    GCAAAACTCA AGAGCCTCGC CTCCTTCAAG AGCCAGAGCC GGGATGAGCC CACACCAACC
    TCTGACTCCA GCGACACCCC AGCCCACGTC CACAAGAAGG CCAAGGGCAA GAGCCAGGAG
    GCCACCTCTG CGCCACCGAA AATCCCCTCA TCCTCCTTTG GTGCAGGGGC CAGCACCAGT
    AAGGCCCGAG AGGAGGAGTC TAAAGAGGAA GTGTGCGGGG ATAAGGAACC AGCCACCTCC
    ACTAACCTGT TTGAGAAGTT CCTGTTGAAC TGCGAGGCCA AGGACCGCGT TCCCCGCAAA
    CAGATGGTCC ACCAGCCCAC CTCTGCAGAG AACACTAAAC CACCGAAGCT CATAGGGAAA
    GTTGAAAAAA GGACCAAGCC GACAAAGGAG TCACCTGCTC GGAAGCCAGA GCCAGACAAG
    ACCAAACATA AAGACGCATT TCGGCCCAGT CAGAGCCCCG CTGCTGTGGA GACTAGTGAC
    AAGGCGGAGG CAGAGGACGA ACCCGCCCAG AAGTCAAAGT TTGGCGGAGA GGAACGGAGG
    GAGGAGGCTC AACGCTTGGA GAGGAGGACC CAAGACGATG ACAGAAGGAG GAGGAGGAGG
    GAAGACAGCG AGCCACGCCT CTTCATTGCC TGCGACGACA ATCAAGATGC CTTGGAGAGC
    GCTGACAAGT CTGACAAAGG ACAAGCCTCT CTTAACCTTG GAATGGACCT CAACTTGGAC
    TGGATGACAC TGGAGGACTT TCAGAAACAT TTGAACGGAG AGGATGAGAT TCTCTCTGCT
    CCACCACTAT CTCCCAGTGA GCTGCGTGAT GCAGTGAAAA GCGGGGATTA CATGTCTGTG
    AAACTTGCAC TCAATTCCAA AGAGGATTAC AATCTAGACC AGGAGGACTC CAGCGGTATG
    TCCCTTAGTA TGTTGGCAGC AGCAGGGGGA CAGGATGACA TCCTGAGGCT GCTGATAAAG
    AAGGGGGTGA AGGGGAACGG ACGGCAGAAG AACGGCACCA CTGCCCTGAT GCACGCTGCA
    GAGAAGAACT TCCTGACCAC AGTTGCTATC CTCCTGGAGG CAGGGTCCTA CGTCAACGCT
    CAGACACTGG GAGGAGAGAC GGCCCTGATG AAGGCATGCA AGAGGGGTAA TGCTGATGTG
    GTGCGCCTCC TACTGGAGTA CGGAGCCGAC TGCAACATCC TGTCCAAACA CAAGAATACG
    GCCATGCACT TTGCCAAGGT CAGCAACAAC CTGCTGGTGT ATGACCTCAT CGAGGACCAC
    ATCAACATGT TGTCAAATGT GGCAGAGGAC ACTATCCGGG CGTACTTTGA GACTCGGCTG
    GCCCTGCTGG AGCCAGTGTT CCCTCTGGCC TGTCACAGAC TGTGTGAGGG ACCAGACTTC
    TCCCTGGAGT TTGCCTACAA ACTATCGCCT CACACACCTG GAGAGGGCTC AGGCATCCTG
    CTCTTCATCT TCCATGCTAA CTTCCTGAGT GAGATCACAG CCAGGCTGTG TGGGCCCTGC
    AGCGTCCACG CAGTGGTACT CAACGACAAG TTCCAGCTGC CTATTTTCCT GGATAGTCAC
    TTCATCTACT CATTCAGCCC AGTGCCAGGC ATCAACAAAC TCTTCATTCG CCTGGCAGAG
    TCACCTACAG CCAAGGTGAA GCTTCTCATC TGTGCATTCC GTGTTCAGCT ACAGTGA

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

    CloneID OAt62124
    Clone ID Related Accession (Same CDS sequence) XM_014164766.1
    Accession Version XM_014164766.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3603bp)
    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 uncharacterized protein LOC106582063 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012340351.1) annotated using gene prediction method: Gnomon. 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
    ATGATCTTCT CATTTACAGA CAAAGGACAT GATGAGCAAA AGGCATGCAC TGTTGAACAG 
    AAGAGTTTAA GTGGCAAAGA GAAGCATTTA AATGAGGAAA AGAAGAGTTT AAGTGATAAT
    GAAGAGAGGC TTTTATGTGC AGCAGATAAT CCTCACCGCA GAGGAAATCC TCACCGTGAG
    AGGAGTCCTC TATACAAAGG GAATAATTTA CACAAGCAAG AGAATCCTTC AAACAATGAA
    GAGAAGACTT CATGTGATGT GGTGAAGACT TTATGTGACA TGGAGAGAGC TTTATGTGAC
    ATAAAGAATT GTGCTGAAGA GAGCAGTTCA AGTGACGACG AGAACAGTTC AGGTGATGAG
    GTAGAAGGAC AAAGACTGGA TTCAAACGTC CCAAGTGGGT CAGATCCTCT TCCATCTAAA
    GCAGAACGCT CCTGTGATAA TAATGTATCT GAGCAGTCCC TTCAAAAAAC CTCACAAGCT
    AAAAAACCTT GCCGCAAAAA AAGTGTGCCA CGGAAAGGTA CAAGGTCAAA CTTACGTTCT
    AGCACAAAAA TGACAGTCAG CACATGTAGT ACAACAGATG ACGGTAAAAG AAAATGGGAC
    AAAAAGTACT TCTGCCTGTA TTGCAATGAA CCACACCACA AAATTGCAAG ACATTTAGAA
    AGGATGCACG CAGAAGAAGC AGCTGTCGCT CATGCTGTCA GCTTCCCCAA ACTCTCCAAA
    ATCAGGTCTC TCTTGCTTGA CCAACTCCGT AACAAAGGCA ACTATCTACA CAACTTGGAA
    GTTCTTCAAA GTGGAGATGG AGAAATTGTC ACAAAGAAAA GACCCTCTTA CAATGGTGTT
    TCTGTGCGTG ACTACCTGCC CTGCCAACAC TGCTTAGCTT TTTTCAACAA AATAGATTTA
    TGGAAGCATG AGGGCTCATG TAAAGCCAGA AAAGGACAAG ATGAAAAGAG GGGAGGAAAA
    AGAGTGCGGG TCCAGGCTGC GTCCTCTCGA CTTCTTCCAT TGCCTGTCTA CTCTACTGGA
    GGATGTGAAG AAATAATACA CAATATGAAT CAAGATGACA TTCAATGCCA CATCAAAAAT
    GATCCCCTGA TATGTAAATA TGGCAATGCA CTATCTGCAA AGCATGGCCA TGCCAAGTCA
    CAGTTTACTT ACATTAGTTC AAAAATGAGG GAATTGGCTA GATTTGTACT TACTGTAAAT
    GAGATGGACT GTGGTGTCCA ATATCTGCAT GAAGTATGTG TACCATCCAA ATTTAAATTG
    GCTGTTCATG CTGCCAGGAA AATGAGTGGT CATGACCCTA CCTCTGACAG GTATAAGACC
    CCATCTCTTG CTTTAAAGAT TGGCTATTCC TTGAAAAGAG CTACTGAAAT AGCTTTTGGA
    GAGAGTCGTA TGACAGAGGA CCGTGAGGCA GAGGAACAAG CCAAAAGGTT CATTGAGCTG
    CTTGAAAACA ATTGGAATAA CTGTTTTTCC GGTCTGTCCC TGAGCGATGT CCCTCAGTGT
    GATGAAGTTG ATGTGTCTTC ACTTACTGAG GATTTGATTA AACTTCAGAA GTTTCTCAAG
    GTTGCAGAGG ACACAGCAAA GAAAGAATTG CTTGAGAGCC CCACCAACGC TGTCTGGAAA
    AAGCTCAATG AAACTCTTCT TGCCGAAATA GCTCTCTTCA ACAGAAAAAG GACAGGAGAG
    GTTGCGAAAA TGCTGTTGGA AACATACACA AACAGAAAGA AAGCTCCAGC TAGTGCAGAC
    ATTTTCAATA GCCTCTCAAG GCTGGAGCAG GAGCTTGGTG ACGACAAACT AACCAGGGTG
    GAAATAGAAG GCAAAAATGG TAGAACAATG CCAGTCCTAC TAACGGCGAG GATGATCTCA
    TCTCTTGAGA TCCTAATTGC AAACAGAGAC AAAGTTGGTG TGTCAAAGGA CAACCCTTAT
    GTCTTCGCGC GGAGCCCAGA TGCAGCAAGC TACGTCAGAG GCTCTGACTG TCTGAGGAAA
    TTTGCACGTG CGTGTAATGC AAAGAATCCT GAAAGTCTGA TCCATGCGAC AGTGAGGAAA
    GAGGTTGCTA TCCATTGCCA AATACTGAAC TTAAATGAAA GTGAATTGGA TCAGGTGGCA
    AAATTATTGG GACATGACAC CCAGGTCCAC AAAGAGTACT ACAGACTCTC TGAAAATGCA
    GCACATCTAG CAGAAATCAG CAAATTGCTG CTTGCAATGG ATCAGGTTCC AGTTGTAATT
    CCAGGGCCAT CTGAGGAAAG GATTGTTTCA CCTACATATG GGACATATCC AGCAGGGACA
    GATTCTGCGA GGGCGTATCC TTCTGGCACA TATCCCACTG GGTCATCATA TCCTGCAGGG
    ACATATTCAG CGAAGTCATA TACTGTAGGG TCACAGCCTT CAAGGTCATA TCATGCTGGG
    ACATATCCTT CGAAGTCATA TCCTTCAGGA TCACATTCTC CGAGGTCATA TTCTGCGGGG
    ACAGATTCTG CGAGGGCATA TCCTACCGGA ATAAATCCTG CTAGTTCATA TCCTACTGTG
    ACACATCCTG CAGGGACCTA TCGAGTAGGT TCGTATGCTT CAGGGACATA CCTAGCAGAG
    ACGCATGATG CAAGGTCATG TACTGAAAAA ACACAACTTG CAAATGCATG TCCTGCAAGT
    CCTTATGACC TCTCATCTCC TGCTAGATCA TATTCTTCAG GGATGAATCC TGTGAGGACA
    TATCCTGCGG TGACACAACT TTCGACGTCA TATCCTGCTG GAACATATGC TGCGCAGACA
    CTTCCAGCTC AAACACTTCC AGCACGTACA GTTATTACTC AGACACTTCC TGCTCAGACT
    CTTCCAACAC AGATACTTCC TGTCGGGGCA GTGCCTGCGG GTGCAGTTCT TTTGGGGACA
    GGTAAGTCGG GCACAGTGTG GAAACAGAGG CCATGGAGTG ATGCAGCTAA GGCTGCGGTG
    AACCGTCAGA TGGGACACTT CATCTCAATG ATGGAGGTTC CAGGTAAACA GGACTGTGAA
    GTTTGCCTGC ACAATGAACC AGCTCTAAGA GACAGGACAT GGAGGGACAT AAAAAACTAT
    GTGCACAACA CAGTAAAATC TATAAAACGG AAGAATGGCC TTACAAGAGT GGACCCCACA
    AAACAGACAA AGAAAGGATT GGCAAAGAAA GAAAAAGAAA CAATAGAGGC TAAGAGTGCT
    AAGGACTGGG TTGGTGGAAC AATGACAGTA CCTGAACAGG GTCGAGAGGA GGGTCTAGAG
    GCAGGTCCTG TGGCAACACC AAGGAAACCA AAGATATGGA GTAATGAGGC TCAGGCTGCG
    GTGAGGCGGC AGCTAGGAGA CTTCACTAAA CTGATGAAGA TTCCAGGTAA AAAGGAATGT
    GATGCATGTA TTGCAGCTGA ACCAGCTCTA CAAGGCAGGA CATGGAAAGA TGTAAAAAAC
    TATGTGCATA ACACATTAAA GACTATGTGT AGGAGGCATA GTTCAGGCAA ACAAAACATG
    GACCATGAAA AACCAAGTCC ATGGACACAA AATCCAGGGG TGCAACAGAA TCCAGGGGTG
    CATCAGAAAT CAGGGGTGCC GTTGGGACTT CCAGAAGAGC CTCCTGTTTA TCTGTCCTTG
    TGA

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

    RefSeq XP_014020241.1
    CDS423..4025
    Translation

    Target ORF information:

    RefSeq Version XM_014164766.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar M-phase phosphoprotein 8-like (LOC106582063), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014164766.1

    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
    ATGATCTTCT CATTTACAGA CAAAGGACAT GATGAGCAAA AGGCATGCAC TGTTGAACAG 
    AAGAGTTTAA GTGGCAAAGA GAAGCATTTA AATGAGGAAA AGAAGAGTTT AAGTGATAAT
    GAAGAGAGGC TTTTATGTGC AGCAGATAAT CCTCACCGCA GAGGAAATCC TCACCGTGAG
    AGGAGTCCTC TATACAAAGG GAATAATTTA CACAAGCAAG AGAATCCTTC AAACAATGAA
    GAGAAGACTT CATGTGATGT GGTGAAGACT TTATGTGACA TGGAGAGAGC TTTATGTGAC
    ATAAAGAATT GTGCTGAAGA GAGCAGTTCA AGTGACGACG AGAACAGTTC AGGTGATGAG
    GTAGAAGGAC AAAGACTGGA TTCAAACGTC CCAAGTGGGT CAGATCCTCT TCCATCTAAA
    GCAGAACGCT CCTGTGATAA TAATGTATCT GAGCAGTCCC TTCAAAAAAC CTCACAAGCT
    AAAAAACCTT GCCGCAAAAA AAGTGTGCCA CGGAAAGGTA CAAGGTCAAA CTTACGTTCT
    AGCACAAAAA TGACAGTCAG CACATGTAGT ACAACAGATG ACGGTAAAAG AAAATGGGAC
    AAAAAGTACT TCTGCCTGTA TTGCAATGAA CCACACCACA AAATTGCAAG ACATTTAGAA
    AGGATGCACG CAGAAGAAGC AGCTGTCGCT CATGCTGTCA GCTTCCCCAA ACTCTCCAAA
    ATCAGGTCTC TCTTGCTTGA CCAACTCCGT AACAAAGGCA ACTATCTACA CAACTTGGAA
    GTTCTTCAAA GTGGAGATGG AGAAATTGTC ACAAAGAAAA GACCCTCTTA CAATGGTGTT
    TCTGTGCGTG ACTACCTGCC CTGCCAACAC TGCTTAGCTT TTTTCAACAA AATAGATTTA
    TGGAAGCATG AGGGCTCATG TAAAGCCAGA AAAGGACAAG ATGAAAAGAG GGGAGGAAAA
    AGAGTGCGGG TCCAGGCTGC GTCCTCTCGA CTTCTTCCAT TGCCTGTCTA CTCTACTGGA
    GGATGTGAAG AAATAATACA CAATATGAAT CAAGATGACA TTCAATGCCA CATCAAAAAT
    GATCCCCTGA TATGTAAATA TGGCAATGCA CTATCTGCAA AGCATGGCCA TGCCAAGTCA
    CAGTTTACTT ACATTAGTTC AAAAATGAGG GAATTGGCTA GATTTGTACT TACTGTAAAT
    GAGATGGACT GTGGTGTCCA ATATCTGCAT GAAGTATGTG TACCATCCAA ATTTAAATTG
    GCTGTTCATG CTGCCAGGAA AATGAGTGGT CATGACCCTA CCTCTGACAG GTATAAGACC
    CCATCTCTTG CTTTAAAGAT TGGCTATTCC TTGAAAAGAG CTACTGAAAT AGCTTTTGGA
    GAGAGTCGTA TGACAGAGGA CCGTGAGGCA GAGGAACAAG CCAAAAGGTT CATTGAGCTG
    CTTGAAAACA ATTGGAATAA CTGTTTTTCC GGTCTGTCCC TGAGCGATGT CCCTCAGTGT
    GATGAAGTTG ATGTGTCTTC ACTTACTGAG GATTTGATTA AACTTCAGAA GTTTCTCAAG
    GTTGCAGAGG ACACAGCAAA GAAAGAATTG CTTGAGAGCC CCACCAACGC TGTCTGGAAA
    AAGCTCAATG AAACTCTTCT TGCCGAAATA GCTCTCTTCA ACAGAAAAAG GACAGGAGAG
    GTTGCGAAAA TGCTGTTGGA AACATACACA AACAGAAAGA AAGCTCCAGC TAGTGCAGAC
    ATTTTCAATA GCCTCTCAAG GCTGGAGCAG GAGCTTGGTG ACGACAAACT AACCAGGGTG
    GAAATAGAAG GCAAAAATGG TAGAACAATG CCAGTCCTAC TAACGGCGAG GATGATCTCA
    TCTCTTGAGA TCCTAATTGC AAACAGAGAC AAAGTTGGTG TGTCAAAGGA CAACCCTTAT
    GTCTTCGCGC GGAGCCCAGA TGCAGCAAGC TACGTCAGAG GCTCTGACTG TCTGAGGAAA
    TTTGCACGTG CGTGTAATGC AAAGAATCCT GAAAGTCTGA TCCATGCGAC AGTGAGGAAA
    GAGGTTGCTA TCCATTGCCA AATACTGAAC TTAAATGAAA GTGAATTGGA TCAGGTGGCA
    AAATTATTGG GACATGACAC CCAGGTCCAC AAAGAGTACT ACAGACTCTC TGAAAATGCA
    GCACATCTAG CAGAAATCAG CAAATTGCTG CTTGCAATGG ATCAGGTTCC AGTTGTAATT
    CCAGGGCCAT CTGAGGAAAG GATTGTTTCA CCTACATATG GGACATATCC AGCAGGGACA
    GATTCTGCGA GGGCGTATCC TTCTGGCACA TATCCCACTG GGTCATCATA TCCTGCAGGG
    ACATATTCAG CGAAGTCATA TACTGTAGGG TCACAGCCTT CAAGGTCATA TCATGCTGGG
    ACATATCCTT CGAAGTCATA TCCTTCAGGA TCACATTCTC CGAGGTCATA TTCTGCGGGG
    ACAGATTCTG CGAGGGCATA TCCTACCGGA ATAAATCCTG CTAGTTCATA TCCTACTGTG
    ACACATCCTG CAGGGACCTA TCGAGTAGGT TCGTATGCTT CAGGGACATA CCTAGCAGAG
    ACGCATGATG CAAGGTCATG TACTGAAAAA ACACAACTTG CAAATGCATG TCCTGCAAGT
    CCTTATGACC TCTCATCTCC TGCTAGATCA TATTCTTCAG GGATGAATCC TGTGAGGACA
    TATCCTGCGG TGACACAACT TTCGACGTCA TATCCTGCTG GAACATATGC TGCGCAGACA
    CTTCCAGCTC AAACACTTCC AGCACGTACA GTTATTACTC AGACACTTCC TGCTCAGACT
    CTTCCAACAC AGATACTTCC TGTCGGGGCA GTGCCTGCGG GTGCAGTTCT TTTGGGGACA
    GGTAAGTCGG GCACAGTGTG GAAACAGAGG CCATGGAGTG ATGCAGCTAA GGCTGCGGTG
    AACCGTCAGA TGGGACACTT CATCTCAATG ATGGAGGTTC CAGGTAAACA GGACTGTGAA
    GTTTGCCTGC ACAATGAACC AGCTCTAAGA GACAGGACAT GGAGGGACAT AAAAAACTAT
    GTGCACAACA CAGTAAAATC TATAAAACGG AAGAATGGCC TTACAAGAGT GGACCCCACA
    AAACAGACAA AGAAAGGATT GGCAAAGAAA GAAAAAGAAA CAATAGAGGC TAAGAGTGCT
    AAGGACTGGG TTGGTGGAAC AATGACAGTA CCTGAACAGG GTCGAGAGGA GGGTCTAGAG
    GCAGGTCCTG TGGCAACACC AAGGAAACCA AAGATATGGA GTAATGAGGC TCAGGCTGCG
    GTGAGGCGGC AGCTAGGAGA CTTCACTAAA CTGATGAAGA TTCCAGGTAA AAAGGAATGT
    GATGCATGTA TTGCAGCTGA ACCAGCTCTA CAAGGCAGGA CATGGAAAGA TGTAAAAAAC
    TATGTGCATA ACACATTAAA GACTATGTGT AGGAGGCATA GTTCAGGCAA ACAAAACATG
    GACCATGAAA AACCAAGTCC ATGGACACAA AATCCAGGGG TGCAACAGAA TCCAGGGGTG
    CATCAGAAAT CAGGGGTGCC GTTGGGACTT CCAGAAGAGC CTCCTGTTTA TCTGTCCTTG
    TGA

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

    CloneID OAt62123
    Clone ID Related Accession (Same CDS sequence) XM_014164765.1
    Accession Version XM_014164765.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5346bp)
    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 uncharacterized protein LOC106582063 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012340351.1) annotated using gene prediction method: Gnomon. 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
    ATGGCGGAAA AGCCAGAGGC TGGAGACAGC GAAGACGAGG TTGAAGATGT TTATGAAGTG 
    GAGAGGATTA TTGACATGCG AACGGAGGAG GGGGAGGTCC TGTACCGCGT TCGCTGGAAG
    AACTACTCAT CTGACGAAGA CACCTGGGAG CCTGAGGCCC ACCTGGAGGA TTGCAGGGAG
    GTGCTGCTGG TCTACAAGAG GGCTCTGGCA GAGGCTAAGG TCAAGAAAGA CCAAGATGCT
    AAGAAGGGCA TGAAGCTGCC CATGAAGAGT GACGTGTTCG ATGCCGACTC TGACAGCGAC
    AGTGATAAAG ACAAGCCCAC AGAGCTGCCT GTCAAGAAAA AGAAAAAAAA GAAGCCCCAA
    GAAGAAGAGG CACTTCTCCC GAAAGAGAAG AGGAAAAAGA AGAAAGACAA GCGCAAGGAG
    GACTTCAGGC CTCGTCCGGC ACCAGAGTCT GATGAAGAGG AGCTTTCCCC TCCCCCGACC
    CCGGGCCGCA ATACCAAGAT GTCCGACTCC AAGAAGAGAT TTGTTGAAAC TGATGATGAG
    GAAGAAGCCC CCGTGCCCTC CAAGAAGCAC AGGAAGGACA AAGCCAAGGA TGGAGGGAAG
    CATAGGAAAA AAGATAACAT CGAGGAAGGG AAGAAGAAAA AGACAAAGAA GGATCAAAGG
    GGTGATCTGG AGTCCACTGA AGATGAGGCC ACCGCCCCCC TAGAAGAGGA GCTTAGCGAG
    GGGCCATCTG AGTCCCAGAC GGATGATACC ACACCAACTG AAAAGTCTCG CACTGATGAC
    AAGCCCAAGA ATAAGAAGGG AAAGTCAGAA CTGAAATTGC AGGGCATCAA GGACTTCCTT
    CAGGACAGGA AAGGTAAGAA GCCGGAAACT ACTTCACCCA CGCTCTCCAC AAGCGGCCTT
    GCAAAACTCA AGAGCCTCGC CTCCTTCAAG AGCCAGAGCC GGGATGAGCC CACACCAACC
    TCTGACTCCA GCGACACCCC AGCCCACGTC CACAAGAAGG CCAAGGGCAA GAGCCAGGAG
    GCCACCTCTG CGCCACCGAA AATCCCCTCA TCCTCCTTTG GTGCAGGGGC CAGCACCAGT
    AAGGCCCGAG AGGAGGAGTC TAAAGAGGAA GTGTGCGGGG ATAAGGAACC AGCCACCTCC
    ACTAACCTGT TTGAGAAGTT CCTGTTGAAC TGCGAGGCCA AGGACCGCGT TCCCCGCAAA
    CAGATGGTCC ACCAGCCCAC CTCTGCAGAG AACACTAAAC CACCGAAGCT CATAGGGAAA
    GTTGAAAAAA GGACCAAGCC GACAAAGGAG TCACCTGCTC GGAAGCCAGA GCCAGACAAG
    ACCAAACATA AAGACGCATT TCGGCCCAGT CAGAGCCCCG CTGCTGTGGA GACTAGTGAC
    AAGGCGGAGG CAGAGGACGA ACCCGCCCAG AAGTCAAAGT TTGGCGGAGA GGAACGGAGG
    GAGGAGGCTC AACGCTTGGA GAGGAGGACC CAAGACGATG ACAGAAGGAG GAGGAGGAGG
    GAAGACAGCG AGCCACGCCT CTTCATTGCC TGCGACGACA ATCAAGATGC CTTGGAGAGC
    GCTGACAAGT CTGACAAAGG ACAAGCCTCT CTTAACCTTG GAATGGACCT CAACTTGGAC
    TGGATGACAC TGGAGGACTT TCAGAAACAT TTGAACGGAG AGGATGAGAT TCTCTCTGCT
    CCACCACTAT CTCCCAGTGA GCTGCGTGAT GCAGTGAAAA GCGGGGATTA CATGTCTGTG
    AAACTTGCAC TCAATTCCAA AGAGGATTAC AATCTAGACC AGGAGGCATG CACTGTTGAA
    CAGAAGAGTT TAAGTGGCAA AGAGAAGCAT TTAAATGAGG AAAAGAAGAG TTTAAGTGAT
    AATGAAGAGA GGCTTTTATG TGCAGCAGAT AATCCTCACC GCAGAGGAAA TCCTCACCGT
    GAGAGGAGTC CTCTATACAA AGGGAATAAT TTACACAAGC AAGAGAATCC TTCAAACAAT
    GAAGAGAAGA CTTCATGTGA TGTGGTGAAG ACTTTATGTG ACATGGAGAG AGCTTTATGT
    GACATAAAGA ATTGTGCTGA AGAGAGCAGT TCAAGTGACG ACGAGAACAG TTCAGGTGAT
    GAGGTAGAAG GACAAAGACT GGATTCAAAC GTCCCAAGTG GGTCAGATCC TCTTCCATCT
    AAAGCAGAAC GCTCCTGTGA TAATAATGTA TCTGAGCAGT CCCTTCAAAA AACCTCACAA
    GCTAAAAAAC CTTGCCGCAA AAAAAGTGTG CCACGGAAAG GTACAAGGTC AAACTTACGT
    TCTAGCACAA AAATGACAGT CAGCACATGT AGTACAACAG ATGACGGTAA AAGAAAATGG
    GACAAAAAGT ACTTCTGCCT GTATTGCAAT GAACCACACC ACAAAATTGC AAGACATTTA
    GAAAGGATGC ACGCAGAAGA AGCAGCTGTC GCTCATGCTG TCAGCTTCCC CAAACTCTCC
    AAAATCAGGT CTCTCTTGCT TGACCAACTC CGTAACAAAG GCAACTATCT ACACAACTTG
    GAAGTTCTTC AAAGTGGAGA TGGAGAAATT GTCACAAAGA AAAGACCCTC TTACAATGGT
    GTTTCTGTGC GTGACTACCT GCCCTGCCAA CACTGCTTAG CTTTTTTCAA CAAAATAGAT
    TTATGGAAGC ATGAGGGCTC ATGTAAAGCC AGAAAAGGAC AAGATGAAAA GAGGGGAGGA
    AAAAGAGTGC GGGTCCAGGC TGCGTCCTCT CGACTTCTTC CATTGCCTGT CTACTCTACT
    GGAGGATGTG AAGAAATAAT ACACAATATG AATCAAGATG ACATTCAATG CCACATCAAA
    AATGATCCCC TGATATGTAA ATATGGCAAT GCACTATCTG CAAAGCATGG CCATGCCAAG
    TCACAGTTTA CTTACATTAG TTCAAAAATG AGGGAATTGG CTAGATTTGT ACTTACTGTA
    AATGAGATGG ACTGTGGTGT CCAATATCTG CATGAAGTAT GTGTACCATC CAAATTTAAA
    TTGGCTGTTC ATGCTGCCAG GAAAATGAGT GGTCATGACC CTACCTCTGA CAGGTATAAG
    ACCCCATCTC TTGCTTTAAA GATTGGCTAT TCCTTGAAAA GAGCTACTGA AATAGCTTTT
    GGAGAGAGTC GTATGACAGA GGACCGTGAG GCAGAGGAAC AAGCCAAAAG GTTCATTGAG
    CTGCTTGAAA ACAATTGGAA TAACTGTTTT TCCGGTCTGT CCCTGAGCGA TGTCCCTCAG
    TGTGATGAAG TTGATGTGTC TTCACTTACT GAGGATTTGA TTAAACTTCA GAAGTTTCTC
    AAGGTTGCAG AGGACACAGC AAAGAAAGAA TTGCTTGAGA GCCCCACCAA CGCTGTCTGG
    AAAAAGCTCA ATGAAACTCT TCTTGCCGAA ATAGCTCTCT TCAACAGAAA AAGGACAGGA
    GAGGTTGCGA AAATGCTGTT GGAAACATAC ACAAACAGAA AGAAAGCTCC AGCTAGTGCA
    GACATTTTCA ATAGCCTCTC AAGGCTGGAG CAGGAGCTTG GTGACGACAA ACTAACCAGG
    GTGGAAATAG AAGGCAAAAA TGGTAGAACA ATGCCAGTCC TACTAACGGC GAGGATGATC
    TCATCTCTTG AGATCCTAAT TGCAAACAGA GACAAAGTTG GTGTGTCAAA GGACAACCCT
    TATGTCTTCG CGCGGAGCCC AGATGCAGCA AGCTACGTCA GAGGCTCTGA CTGTCTGAGG
    AAATTTGCAC GTGCGTGTAA TGCAAAGAAT CCTGAAAGTC TGATCCATGC GACAGTGAGG
    AAAGAGGTTG CTATCCATTG CCAAATACTG AACTTAAATG AAAGTGAATT GGATCAGGTG
    GCAAAATTAT TGGGACATGA CACCCAGGTC CACAAAGAGT ACTACAGACT CTCTGAAAAT
    GCAGCACATC TAGCAGAAAT CAGCAAATTG CTGCTTGCAA TGGATCAGGT TCCAGTTGTA
    ATTCCAGGGC CATCTGAGGA AAGGATTGTT TCACCTACAT ATGGGACATA TCCAGCAGGG
    ACAGATTCTG CGAGGGCGTA TCCTTCTGGC ACATATCCCA CTGGGTCATC ATATCCTGCA
    GGGACATATT CAGCGAAGTC ATATACTGTA GGGTCACAGC CTTCAAGGTC ATATCATGCT
    GGGACATATC CTTCGAAGTC ATATCCTTCA GGATCACATT CTCCGAGGTC ATATTCTGCG
    GGGACAGATT CTGCGAGGGC ATATCCTACC GGAATAAATC CTGCTAGTTC ATATCCTACT
    GTGACACATC CTGCAGGGAC CTATCGAGTA GGTTCGTATG CTTCAGGGAC ATACCTAGCA
    GAGACGCATG ATGCAAGGTC ATGTACTGAA AAAACACAAC TTGCAAATGC ATGTCCTGCA
    AGTCCTTATG ACCTCTCATC TCCTGCTAGA TCATATTCTT CAGGGATGAA TCCTGTGAGG
    ACATATCCTG CGGTGACACA ACTTTCGACG TCATATCCTG CTGGAACATA TGCTGCGCAG
    ACACTTCCAG CTCAAACACT TCCAGCACGT ACAGTTATTA CTCAGACACT TCCTGCTCAG
    ACTCTTCCAA CACAGATACT TCCTGTCGGG GCAGTGCCTG CGGGTGCAGT TCTTTTGGGG
    ACAGGTAAGT CGGGCACAGT GTGGAAACAG AGGCCATGGA GTGATGCAGC TAAGGCTGCG
    GTGAACCGTC AGATGGGACA CTTCATCTCA ATGATGGAGG TTCCAGGTAA ACAGGACTGT
    GAAGTTTGCC TGCACAATGA ACCAGCTCTA AGAGACAGGA CATGGAGGGA CATAAAAAAC
    TATGTGCACA ACACAGTAAA ATCTATAAAA CGGAAGAATG GCCTTACAAG AGTGGACCCC
    ACAAAACAGA CAAAGAAAGG ATTGGCAAAG AAAGAAAAAG AAACAATAGA GGCTAAGAGT
    GCTAAGGACT GGGTTGGTGG AACAATGACA GTACCTGAAC AGGGTCGAGA GGAGGGTCTA
    GAGGCAGGTC CTGTGGCAAC ACCAAGGAAA CCAAAGATAT GGAGTAATGA GGCTCAGGCT
    GCGGTGAGGC GGCAGCTAGG AGACTTCACT AAACTGATGA AGATTCCAGG TAAAAAGGAA
    TGTGATGCAT GTATTGCAGC TGAACCAGCT CTACAAGGCA GGACATGGAA AGATGTAAAA
    AACTATGTGC ATAACACATT AAAGACTATG TGTAGGAGGC ATAGTTCAGG CAAACAAAAC
    ATGGACCATG AAAAACCAAG TCCATGGACA CAAAATCCAG GGGTGCAACA GAATCCAGGG
    GTGCATCAGA AATCAGGGGT GCCGTTGGGA CTTCCAGAAG AGCCTCCTGT TTATCTGTCC
    TTGTGA

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

    RefSeq XP_014020240.1
    CDS243..5588
    Translation

    Target ORF information:

    RefSeq Version XM_014164765.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar M-phase phosphoprotein 8-like (LOC106582063), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014164765.1

    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
    ATGGCGGAAA AGCCAGAGGC TGGAGACAGC GAAGACGAGG TTGAAGATGT TTATGAAGTG 
    GAGAGGATTA TTGACATGCG AACGGAGGAG GGGGAGGTCC TGTACCGCGT TCGCTGGAAG
    AACTACTCAT CTGACGAAGA CACCTGGGAG CCTGAGGCCC ACCTGGAGGA TTGCAGGGAG
    GTGCTGCTGG TCTACAAGAG GGCTCTGGCA GAGGCTAAGG TCAAGAAAGA CCAAGATGCT
    AAGAAGGGCA TGAAGCTGCC CATGAAGAGT GACGTGTTCG ATGCCGACTC TGACAGCGAC
    AGTGATAAAG ACAAGCCCAC AGAGCTGCCT GTCAAGAAAA AGAAAAAAAA GAAGCCCCAA
    GAAGAAGAGG CACTTCTCCC GAAAGAGAAG AGGAAAAAGA AGAAAGACAA GCGCAAGGAG
    GACTTCAGGC CTCGTCCGGC ACCAGAGTCT GATGAAGAGG AGCTTTCCCC TCCCCCGACC
    CCGGGCCGCA ATACCAAGAT GTCCGACTCC AAGAAGAGAT TTGTTGAAAC TGATGATGAG
    GAAGAAGCCC CCGTGCCCTC CAAGAAGCAC AGGAAGGACA AAGCCAAGGA TGGAGGGAAG
    CATAGGAAAA AAGATAACAT CGAGGAAGGG AAGAAGAAAA AGACAAAGAA GGATCAAAGG
    GGTGATCTGG AGTCCACTGA AGATGAGGCC ACCGCCCCCC TAGAAGAGGA GCTTAGCGAG
    GGGCCATCTG AGTCCCAGAC GGATGATACC ACACCAACTG AAAAGTCTCG CACTGATGAC
    AAGCCCAAGA ATAAGAAGGG AAAGTCAGAA CTGAAATTGC AGGGCATCAA GGACTTCCTT
    CAGGACAGGA AAGGTAAGAA GCCGGAAACT ACTTCACCCA CGCTCTCCAC AAGCGGCCTT
    GCAAAACTCA AGAGCCTCGC CTCCTTCAAG AGCCAGAGCC GGGATGAGCC CACACCAACC
    TCTGACTCCA GCGACACCCC AGCCCACGTC CACAAGAAGG CCAAGGGCAA GAGCCAGGAG
    GCCACCTCTG CGCCACCGAA AATCCCCTCA TCCTCCTTTG GTGCAGGGGC CAGCACCAGT
    AAGGCCCGAG AGGAGGAGTC TAAAGAGGAA GTGTGCGGGG ATAAGGAACC AGCCACCTCC
    ACTAACCTGT TTGAGAAGTT CCTGTTGAAC TGCGAGGCCA AGGACCGCGT TCCCCGCAAA
    CAGATGGTCC ACCAGCCCAC CTCTGCAGAG AACACTAAAC CACCGAAGCT CATAGGGAAA
    GTTGAAAAAA GGACCAAGCC GACAAAGGAG TCACCTGCTC GGAAGCCAGA GCCAGACAAG
    ACCAAACATA AAGACGCATT TCGGCCCAGT CAGAGCCCCG CTGCTGTGGA GACTAGTGAC
    AAGGCGGAGG CAGAGGACGA ACCCGCCCAG AAGTCAAAGT TTGGCGGAGA GGAACGGAGG
    GAGGAGGCTC AACGCTTGGA GAGGAGGACC CAAGACGATG ACAGAAGGAG GAGGAGGAGG
    GAAGACAGCG AGCCACGCCT CTTCATTGCC TGCGACGACA ATCAAGATGC CTTGGAGAGC
    GCTGACAAGT CTGACAAAGG ACAAGCCTCT CTTAACCTTG GAATGGACCT CAACTTGGAC
    TGGATGACAC TGGAGGACTT TCAGAAACAT TTGAACGGAG AGGATGAGAT TCTCTCTGCT
    CCACCACTAT CTCCCAGTGA GCTGCGTGAT GCAGTGAAAA GCGGGGATTA CATGTCTGTG
    AAACTTGCAC TCAATTCCAA AGAGGATTAC AATCTAGACC AGGAGGCATG CACTGTTGAA
    CAGAAGAGTT TAAGTGGCAA AGAGAAGCAT TTAAATGAGG AAAAGAAGAG TTTAAGTGAT
    AATGAAGAGA GGCTTTTATG TGCAGCAGAT AATCCTCACC GCAGAGGAAA TCCTCACCGT
    GAGAGGAGTC CTCTATACAA AGGGAATAAT TTACACAAGC AAGAGAATCC TTCAAACAAT
    GAAGAGAAGA CTTCATGTGA TGTGGTGAAG ACTTTATGTG ACATGGAGAG AGCTTTATGT
    GACATAAAGA ATTGTGCTGA AGAGAGCAGT TCAAGTGACG ACGAGAACAG TTCAGGTGAT
    GAGGTAGAAG GACAAAGACT GGATTCAAAC GTCCCAAGTG GGTCAGATCC TCTTCCATCT
    AAAGCAGAAC GCTCCTGTGA TAATAATGTA TCTGAGCAGT CCCTTCAAAA AACCTCACAA
    GCTAAAAAAC CTTGCCGCAA AAAAAGTGTG CCACGGAAAG GTACAAGGTC AAACTTACGT
    TCTAGCACAA AAATGACAGT CAGCACATGT AGTACAACAG ATGACGGTAA AAGAAAATGG
    GACAAAAAGT ACTTCTGCCT GTATTGCAAT GAACCACACC ACAAAATTGC AAGACATTTA
    GAAAGGATGC ACGCAGAAGA AGCAGCTGTC GCTCATGCTG TCAGCTTCCC CAAACTCTCC
    AAAATCAGGT CTCTCTTGCT TGACCAACTC CGTAACAAAG GCAACTATCT ACACAACTTG
    GAAGTTCTTC AAAGTGGAGA TGGAGAAATT GTCACAAAGA AAAGACCCTC TTACAATGGT
    GTTTCTGTGC GTGACTACCT GCCCTGCCAA CACTGCTTAG CTTTTTTCAA CAAAATAGAT
    TTATGGAAGC ATGAGGGCTC ATGTAAAGCC AGAAAAGGAC AAGATGAAAA GAGGGGAGGA
    AAAAGAGTGC GGGTCCAGGC TGCGTCCTCT CGACTTCTTC CATTGCCTGT CTACTCTACT
    GGAGGATGTG AAGAAATAAT ACACAATATG AATCAAGATG ACATTCAATG CCACATCAAA
    AATGATCCCC TGATATGTAA ATATGGCAAT GCACTATCTG CAAAGCATGG CCATGCCAAG
    TCACAGTTTA CTTACATTAG TTCAAAAATG AGGGAATTGG CTAGATTTGT ACTTACTGTA
    AATGAGATGG ACTGTGGTGT CCAATATCTG CATGAAGTAT GTGTACCATC CAAATTTAAA
    TTGGCTGTTC ATGCTGCCAG GAAAATGAGT GGTCATGACC CTACCTCTGA CAGGTATAAG
    ACCCCATCTC TTGCTTTAAA GATTGGCTAT TCCTTGAAAA GAGCTACTGA AATAGCTTTT
    GGAGAGAGTC GTATGACAGA GGACCGTGAG GCAGAGGAAC AAGCCAAAAG GTTCATTGAG
    CTGCTTGAAA ACAATTGGAA TAACTGTTTT TCCGGTCTGT CCCTGAGCGA TGTCCCTCAG
    TGTGATGAAG TTGATGTGTC TTCACTTACT GAGGATTTGA TTAAACTTCA GAAGTTTCTC
    AAGGTTGCAG AGGACACAGC AAAGAAAGAA TTGCTTGAGA GCCCCACCAA CGCTGTCTGG
    AAAAAGCTCA ATGAAACTCT TCTTGCCGAA ATAGCTCTCT TCAACAGAAA AAGGACAGGA
    GAGGTTGCGA AAATGCTGTT GGAAACATAC ACAAACAGAA AGAAAGCTCC AGCTAGTGCA
    GACATTTTCA ATAGCCTCTC AAGGCTGGAG CAGGAGCTTG GTGACGACAA ACTAACCAGG
    GTGGAAATAG AAGGCAAAAA TGGTAGAACA ATGCCAGTCC TACTAACGGC GAGGATGATC
    TCATCTCTTG AGATCCTAAT TGCAAACAGA GACAAAGTTG GTGTGTCAAA GGACAACCCT
    TATGTCTTCG CGCGGAGCCC AGATGCAGCA AGCTACGTCA GAGGCTCTGA CTGTCTGAGG
    AAATTTGCAC GTGCGTGTAA TGCAAAGAAT CCTGAAAGTC TGATCCATGC GACAGTGAGG
    AAAGAGGTTG CTATCCATTG CCAAATACTG AACTTAAATG AAAGTGAATT GGATCAGGTG
    GCAAAATTAT TGGGACATGA CACCCAGGTC CACAAAGAGT ACTACAGACT CTCTGAAAAT
    GCAGCACATC TAGCAGAAAT CAGCAAATTG CTGCTTGCAA TGGATCAGGT TCCAGTTGTA
    ATTCCAGGGC CATCTGAGGA AAGGATTGTT TCACCTACAT ATGGGACATA TCCAGCAGGG
    ACAGATTCTG CGAGGGCGTA TCCTTCTGGC ACATATCCCA CTGGGTCATC ATATCCTGCA
    GGGACATATT CAGCGAAGTC ATATACTGTA GGGTCACAGC CTTCAAGGTC ATATCATGCT
    GGGACATATC CTTCGAAGTC ATATCCTTCA GGATCACATT CTCCGAGGTC ATATTCTGCG
    GGGACAGATT CTGCGAGGGC ATATCCTACC GGAATAAATC CTGCTAGTTC ATATCCTACT
    GTGACACATC CTGCAGGGAC CTATCGAGTA GGTTCGTATG CTTCAGGGAC ATACCTAGCA
    GAGACGCATG ATGCAAGGTC ATGTACTGAA AAAACACAAC TTGCAAATGC ATGTCCTGCA
    AGTCCTTATG ACCTCTCATC TCCTGCTAGA TCATATTCTT CAGGGATGAA TCCTGTGAGG
    ACATATCCTG CGGTGACACA ACTTTCGACG TCATATCCTG CTGGAACATA TGCTGCGCAG
    ACACTTCCAG CTCAAACACT TCCAGCACGT ACAGTTATTA CTCAGACACT TCCTGCTCAG
    ACTCTTCCAA CACAGATACT TCCTGTCGGG GCAGTGCCTG CGGGTGCAGT TCTTTTGGGG
    ACAGGTAAGT CGGGCACAGT GTGGAAACAG AGGCCATGGA GTGATGCAGC TAAGGCTGCG
    GTGAACCGTC AGATGGGACA CTTCATCTCA ATGATGGAGG TTCCAGGTAA ACAGGACTGT
    GAAGTTTGCC TGCACAATGA ACCAGCTCTA AGAGACAGGA CATGGAGGGA CATAAAAAAC
    TATGTGCACA ACACAGTAAA ATCTATAAAA CGGAAGAATG GCCTTACAAG AGTGGACCCC
    ACAAAACAGA CAAAGAAAGG ATTGGCAAAG AAAGAAAAAG AAACAATAGA GGCTAAGAGT
    GCTAAGGACT GGGTTGGTGG AACAATGACA GTACCTGAAC AGGGTCGAGA GGAGGGTCTA
    GAGGCAGGTC CTGTGGCAAC ACCAAGGAAA CCAAAGATAT GGAGTAATGA GGCTCAGGCT
    GCGGTGAGGC GGCAGCTAGG AGACTTCACT AAACTGATGA AGATTCCAGG TAAAAAGGAA
    TGTGATGCAT GTATTGCAGC TGAACCAGCT CTACAAGGCA GGACATGGAA AGATGTAAAA
    AACTATGTGC ATAACACATT AAAGACTATG TGTAGGAGGC ATAGTTCAGG CAAACAAAAC
    ATGGACCATG AAAAACCAAG TCCATGGACA CAAAATCCAG GGGTGCAACA GAATCCAGGG
    GTGCATCAGA AATCAGGGGT GCCGTTGGGA CTTCCAGAAG AGCCTCCTGT TTATCTGTCC
    TTGTGA

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