ORF » Species Summary » Salmo salar » filip1 cDNA ORF clone

filip1 cDNA ORF clone, Salmo salar(Atlantic salmon)

The following filip1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the filip1 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
OAt22200 XM_014204913.1
Latest version!		 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OAt22195 XM_014204905.1
Latest version!		 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAt22195 XM_014204907.1
Latest version!		 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAt22195 XM_014204904.1
Latest version!		 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAt22196 XM_014204908.1
Latest version!		 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAt22197 XM_014204909.1
Latest version!		 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAt22198 XM_014204910.1
Latest version!		 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAt22199 XM_014204911.1
Latest version!		 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OAt22199 XM_014204912.1
Latest version!		 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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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)
    filip1 ( XM_014204913.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060388.1 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OAt22200
    Clone ID Related Accession (Same CDS sequence) XM_014204913.1
    Accession Version XM_014204913.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2931bp)
    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 filamin-A-interacting protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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
    ATGCTGGTGG ATGAGCGGCA GCTCCACATT GAGCAGATCG ACCAGCAGAG CCAGAAGGTC 
    CAGGACCTCA GCAGCAAGCT CCAGGAGAGA GAACAGCGTC TGGCCGCTGT ACACGGCACC 
    GCCAAGGAGG ACGGCCAGAA GGTCCTCAGA CTAGAGGCGG AGCTGGAGTG CAAAGCTGCC 
    AAGTTCACCC AGGAGCATGA GGAGATGACT GACAAGTTGG CCAACCAGGA GTCCCAGAGC 
    CGTCAGCTCC GCCTGAAGCT GGCAGGCCTG GCCCACAGGA TCGAGGAGCT GGAGGAGAAC 
    AACAAGGTAC TGCAGAGGTC AGAGGAGGAC CTCCTGGAGC TAAGGGACAA GATCAGCAAG 
    GGGGAGTGTG GGAACTCCAG CCTCATGGCG GAGCTGGAGA CCCTGCGCAA GAGAGTCCTG 
    GAGATGGAGG GCAAGGATGA GGAGATCACC AAGACGGAGA GCCAGGCCAG AGAGTTGAGG 
    AAAAGGCTGC AGGATGAGGA GACCACCGGC CGGGAGCTGA GGCTGGAGGT GGAGAAACTG 
    CAGAAGAGAA TGGTGGATCT GGAGAAACTG GAGAGGGCTT TCAACACGAG CAAATCAGAG 
    TGTGCAACAC TTCATATTAA CCTAGAAAGA GAGAAAGGAC TGGCAAAGGA CTTGGCTGGT 
    GAGCTGGACA CAGTGAAAAA CCGTGTGAAA GAACTGGAGA ACTCTGAGTC GAGACTTGAG 
    AAGGCAGAGA TGGGCCTAAA GGATGACCTG ATGAAGCTGA AGTCATTTAC AGTGATACTA 
    GTGGATGAGA GAAGGAACAT GACTGAGAGA ATAAAACAGG AGGAGCAAAA GAGCGACGAT 
    TTAAATAAAA TGTTCAAAAT TGAGCAGAGT AAAGTTATGG CGGTCACAGA AAAGTTGATT 
    GAGGAGAGCA AAAAGCTCCT CAGACTGAAA TCAGAAATGG AGGTAAAAGT GACATCTCTT 
    ACTAAAGAGA AAGATGAACT GAAAAGTAAA CTAGCAAGTG AAGAGGAAAA GTGCAGGGAT 
    CTTAGCTCCA AGGTCGGCGT AATAAAAAAA CGAATGGACG GGCTAGAGGA GGCAGAAAAG 
    GTATTGATAA AAATCAGAGC CAATAAGGAC AGCAAGAGAC CCCTAGACGA GGAAAACAAA 
    TTCAAGGAGC TAACGCAGGA AATTGAAAGG CTAAAAAACC GCCTCAAACA GCTAGAAGTG 
    GTGGAAGGTG ACCTGATGAA GACAGAGGAT GAGTACGACT TACTGGAGAA GAAGTTTCGA 
    ATGGAGCAGG ACAAGGCCAA TGCCCTCTCT CAGCTGCTGG AGGAAATGAA GAGTCAGACC 
    GCCAGGAACA AAGCCATAGA GAAGGGAGAG GCGGTGAGCC AGGAGGCTGA GCTGAGGATG 
    CGCTGCAAGA TGGAGGAGGC AAGGACCAGA GACCTGCAGG CAGACGTCCA GGCCCTCAAA 
    GAGAAGATCC ACGAGCTGAT GAACAAGGAG GACCAGCTCT CCCAGCTGCA AGTGGACTAC 
    TCTCTCCTCC AGCAGAGATT CCTGGAGGAG GAGGACAAGA AGAAGAGCTT GAGCCAGGAA 
    GTGATCAACC TCACCAAAGA GCTGGAGGTC ACCAAGCGCT ACAGCCGCGC CTTGCGTCCC 
    AGTATGAATG GAAGAAGGAT AGTAGACGTC CCTGTCACCT CCACCGCAGT CCAGACAGAC 
    GTGGTGGTCA GTGAACCTGC CGAGGAGGAC ACGCCTGCAG TGTTCATCAG GAAATCTGTC 
    CTGGAAGAGA ACCATATCAT GAGCAACCTG AGGCAGAGGG GTCTGAAGAA GCCTGTAACT 
    GTGCTGGAGC GCTACCCCCC AGCAACCACC GAGCTGGGCA TGAGAAAATC ATGGATCCCC 
    TGGATGAAGA AGAAGGATGC AGTGACAATC ACTCAGACCA CCCCAGAGAA GACCCCAACC 
    CCTCAGGACA ACGGGGACTC CTCCCCTCGT CCACTAGAGC TGTCCATGTC CCAAAAGCCA 
    GGCCAGCCGT TGCACATTCG AGTAACCCCC GATCACGAGA ACAGCACTGC CACTTTGGAG 
    ATCACCGGCC CTCGTGCTGA GGACTTCTTC TCCAGCGCTA CCATCATCCC CACATTGGGC 
    CTGCAGAGGC CTCGCATCAC CATTGTTCCC AAGCCCACCA CCGTGTCCTC AAAGAGCAAG 
    CCGGGTGAGG GCGTGATGGG GGGGCCTGAG CGGTGCAAGT CTCCAGTCAC CATCACCACC 
    ATCTCCAGGG CCAAGTCCCC AGATAGGAGT AAGAGCTCCT CCTACTCAGA CTCGAACAGA 
    CCCCTCTCCC CCGTCTCCAT CATCACAGTG AGCACCACTC CTGTGACGGA GGCCTTTGCC 
    TCCGCATCCC CAGAGCCCCA TGACATGAGC ACCATGGGCC GGGCTGTGTT CAAAGTGACC 
    CCAGAGAAGC AGACATTGCC TATGCCCGTC AGAAAATACA ACTCCAACGC TAGCATAATC 
    ACCACCACGG AGGACAACAA GATCCACATC CACCTGGGAC CTCAGTTCAA GAGGCCATCC 
    GACGTCAGCA GTAGCAGCCC CACAGTGACG GTCAGGCCCC TTAGTGTGAG CACAGAGAGC 
    AAGGAGACGC ACCCAGGTAC GGTGCTGCGC TCCCCGCGTC ACCCCAACAA CATCACCACC 
    GCTCCTGGGA AGACCACCCC CAACAAATTG ACCAGCAGCA TCACCATCAC CCCCATCACC 
    TTGGCACCGT CCAGGCCAAC TCAGTCTGTG CCCGGGGCGG ATGTGCAGTC AACTCGTGCC 
    GCAGCCACAC GAATCCCTAT GTCAAAAGGT ATGAAAACAG GCAAGGCAGT TGTGACAGGT 
    GTCTCCACTG TGACACGGTT AGAGTCGCGA GCCGAGTGCC AGTCAATGAA AATTGAACTG 
    AGGAGGTCGA CAGTCTGCAG CTCTACCTCG ACAGGGGGAG GGAAGTGCTG A

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

    RefSeq XP_014060388.1
    CDS377..3307
    Translation

    Target ORF information:

    RefSeq Version XM_014204913.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar filamin A interacting protein 1 (filip1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014204913.1

    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
    ATGCTGGTGG ATGAGCGGCA GCTCCACATT GAGCAGATCG ACCAGCAGAG CCAGAAGGTC 
    CAGGACCTCA GCAGCAAGCT CCAGGAGAGA GAACAGCGTC TGGCCGCTGT ACACGGCACC 
    GCCAAGGAGG ACGGCCAGAA GGTCCTCAGA CTAGAGGCGG AGCTGGAGTG CAAAGCTGCC 
    AAGTTCACCC AGGAGCATGA GGAGATGACT GACAAGTTGG CCAACCAGGA GTCCCAGAGC 
    CGTCAGCTCC GCCTGAAGCT GGCAGGCCTG GCCCACAGGA TCGAGGAGCT GGAGGAGAAC 
    AACAAGGTAC TGCAGAGGTC AGAGGAGGAC CTCCTGGAGC TAAGGGACAA GATCAGCAAG 
    GGGGAGTGTG GGAACTCCAG CCTCATGGCG GAGCTGGAGA CCCTGCGCAA GAGAGTCCTG 
    GAGATGGAGG GCAAGGATGA GGAGATCACC AAGACGGAGA GCCAGGCCAG AGAGTTGAGG 
    AAAAGGCTGC AGGATGAGGA GACCACCGGC CGGGAGCTGA GGCTGGAGGT GGAGAAACTG 
    CAGAAGAGAA TGGTGGATCT GGAGAAACTG GAGAGGGCTT TCAACACGAG CAAATCAGAG 
    TGTGCAACAC TTCATATTAA CCTAGAAAGA GAGAAAGGAC TGGCAAAGGA CTTGGCTGGT 
    GAGCTGGACA CAGTGAAAAA CCGTGTGAAA GAACTGGAGA ACTCTGAGTC GAGACTTGAG 
    AAGGCAGAGA TGGGCCTAAA GGATGACCTG ATGAAGCTGA AGTCATTTAC AGTGATACTA 
    GTGGATGAGA GAAGGAACAT GACTGAGAGA ATAAAACAGG AGGAGCAAAA GAGCGACGAT 
    TTAAATAAAA TGTTCAAAAT TGAGCAGAGT AAAGTTATGG CGGTCACAGA AAAGTTGATT 
    GAGGAGAGCA AAAAGCTCCT CAGACTGAAA TCAGAAATGG AGGTAAAAGT GACATCTCTT 
    ACTAAAGAGA AAGATGAACT GAAAAGTAAA CTAGCAAGTG AAGAGGAAAA GTGCAGGGAT 
    CTTAGCTCCA AGGTCGGCGT AATAAAAAAA CGAATGGACG GGCTAGAGGA GGCAGAAAAG 
    GTATTGATAA AAATCAGAGC CAATAAGGAC AGCAAGAGAC CCCTAGACGA GGAAAACAAA 
    TTCAAGGAGC TAACGCAGGA AATTGAAAGG CTAAAAAACC GCCTCAAACA GCTAGAAGTG 
    GTGGAAGGTG ACCTGATGAA GACAGAGGAT GAGTACGACT TACTGGAGAA GAAGTTTCGA 
    ATGGAGCAGG ACAAGGCCAA TGCCCTCTCT CAGCTGCTGG AGGAAATGAA GAGTCAGACC 
    GCCAGGAACA AAGCCATAGA GAAGGGAGAG GCGGTGAGCC AGGAGGCTGA GCTGAGGATG 
    CGCTGCAAGA TGGAGGAGGC AAGGACCAGA GACCTGCAGG CAGACGTCCA GGCCCTCAAA 
    GAGAAGATCC ACGAGCTGAT GAACAAGGAG GACCAGCTCT CCCAGCTGCA AGTGGACTAC 
    TCTCTCCTCC AGCAGAGATT CCTGGAGGAG GAGGACAAGA AGAAGAGCTT GAGCCAGGAA 
    GTGATCAACC TCACCAAAGA GCTGGAGGTC ACCAAGCGCT ACAGCCGCGC CTTGCGTCCC 
    AGTATGAATG GAAGAAGGAT AGTAGACGTC CCTGTCACCT CCACCGCAGT CCAGACAGAC 
    GTGGTGGTCA GTGAACCTGC CGAGGAGGAC ACGCCTGCAG TGTTCATCAG GAAATCTGTC 
    CTGGAAGAGA ACCATATCAT GAGCAACCTG AGGCAGAGGG GTCTGAAGAA GCCTGTAACT 
    GTGCTGGAGC GCTACCCCCC AGCAACCACC GAGCTGGGCA TGAGAAAATC ATGGATCCCC 
    TGGATGAAGA AGAAGGATGC AGTGACAATC ACTCAGACCA CCCCAGAGAA GACCCCAACC 
    CCTCAGGACA ACGGGGACTC CTCCCCTCGT CCACTAGAGC TGTCCATGTC CCAAAAGCCA 
    GGCCAGCCGT TGCACATTCG AGTAACCCCC GATCACGAGA ACAGCACTGC CACTTTGGAG 
    ATCACCGGCC CTCGTGCTGA GGACTTCTTC TCCAGCGCTA CCATCATCCC CACATTGGGC 
    CTGCAGAGGC CTCGCATCAC CATTGTTCCC AAGCCCACCA CCGTGTCCTC AAAGAGCAAG 
    CCGGGTGAGG GCGTGATGGG GGGGCCTGAG CGGTGCAAGT CTCCAGTCAC CATCACCACC 
    ATCTCCAGGG CCAAGTCCCC AGATAGGAGT AAGAGCTCCT CCTACTCAGA CTCGAACAGA 
    CCCCTCTCCC CCGTCTCCAT CATCACAGTG AGCACCACTC CTGTGACGGA GGCCTTTGCC 
    TCCGCATCCC CAGAGCCCCA TGACATGAGC ACCATGGGCC GGGCTGTGTT CAAAGTGACC 
    CCAGAGAAGC AGACATTGCC TATGCCCGTC AGAAAATACA ACTCCAACGC TAGCATAATC 
    ACCACCACGG AGGACAACAA GATCCACATC CACCTGGGAC CTCAGTTCAA GAGGCCATCC 
    GACGTCAGCA GTAGCAGCCC CACAGTGACG GTCAGGCCCC TTAGTGTGAG CACAGAGAGC 
    AAGGAGACGC ACCCAGGTAC GGTGCTGCGC TCCCCGCGTC ACCCCAACAA CATCACCACC 
    GCTCCTGGGA AGACCACCCC CAACAAATTG ACCAGCAGCA TCACCATCAC CCCCATCACC 
    TTGGCACCGT CCAGGCCAAC TCAGTCTGTG CCCGGGGCGG ATGTGCAGTC AACTCGTGCC 
    GCAGCCACAC GAATCCCTAT GTCAAAAGGT ATGAAAACAG GCAAGGCAGT TGTGACAGGT 
    GTCTCCACTG TGACACGGTT AGAGTCGCGA GCCGAGTGCC AGTCAATGAA AATTGAACTG 
    AGGAGGTCGA CAGTCTGCAG CTCTACCTCG ACAGGGGGAG GGAAGTGCTG A

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

    filip1 ( XM_014204905.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060380.1 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAt22195
    Clone ID Related Accession (Same CDS sequence) XM_014204905.1 , XM_014204907.1 , XM_014204904.1
    Accession Version XM_014204905.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3696bp)
    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 filamin-A-interacting protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGCCCGG GGCGGATGTG CAGTCAACTC GTGCCGCAGC CACACGAATC 
    CCTATGTCAA AAGGTATGAA AACAGGCAAG GCAGTTGTGA CAGGTGTCTC CACTGTGACA 
    CGGTTAGAGT CGCGAGCCGA GTGCCAGTCA ATGAAAATTG AACTGAGGAG GTCGACAGTC 
    TGCAGCTCTA CCTCGACAGG GGGAGGGAAG TGCTGA

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

    RefSeq XP_014060380.1
    CDS671..4366
    Translation

    Target ORF information:

    RefSeq Version XM_014204905.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar filamin A interacting protein 1 (filip1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014204905.1

    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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGCCCGG GGCGGATGTG CAGTCAACTC GTGCCGCAGC CACACGAATC 
    CCTATGTCAA AAGGTATGAA AACAGGCAAG GCAGTTGTGA CAGGTGTCTC CACTGTGACA 
    CGGTTAGAGT CGCGAGCCGA GTGCCAGTCA ATGAAAATTG AACTGAGGAG GTCGACAGTC 
    TGCAGCTCTA CCTCGACAGG GGGAGGGAAG TGCTGA

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

    filip1 ( XM_014204907.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060382.1 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAt22195
    Clone ID Related Accession (Same CDS sequence) XM_014204905.1 , XM_014204907.1 , XM_014204904.1
    Accession Version XM_014204907.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3696bp)
    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 filamin-A-interacting protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGCCCGG GGCGGATGTG CAGTCAACTC GTGCCGCAGC CACACGAATC 
    CCTATGTCAA AAGGTATGAA AACAGGCAAG GCAGTTGTGA CAGGTGTCTC CACTGTGACA 
    CGGTTAGAGT CGCGAGCCGA GTGCCAGTCA ATGAAAATTG AACTGAGGAG GTCGACAGTC 
    TGCAGCTCTA CCTCGACAGG GGGAGGGAAG TGCTGA

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

    RefSeq XP_014060382.1
    CDS487..4182
    Translation

    Target ORF information:

    RefSeq Version XM_014204907.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar filamin A interacting protein 1 (filip1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014204907.1

    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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGCCCGG GGCGGATGTG CAGTCAACTC GTGCCGCAGC CACACGAATC 
    CCTATGTCAA AAGGTATGAA AACAGGCAAG GCAGTTGTGA CAGGTGTCTC CACTGTGACA 
    CGGTTAGAGT CGCGAGCCGA GTGCCAGTCA ATGAAAATTG AACTGAGGAG GTCGACAGTC 
    TGCAGCTCTA CCTCGACAGG GGGAGGGAAG TGCTGA

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

    filip1 ( XM_014204904.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060379.1 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAt22195
    Clone ID Related Accession (Same CDS sequence) XM_014204905.1 , XM_014204907.1 , XM_014204904.1
    Accession Version XM_014204904.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3696bp)
    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 filamin-A-interacting protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGCCCGG GGCGGATGTG CAGTCAACTC GTGCCGCAGC CACACGAATC 
    CCTATGTCAA AAGGTATGAA AACAGGCAAG GCAGTTGTGA CAGGTGTCTC CACTGTGACA 
    CGGTTAGAGT CGCGAGCCGA GTGCCAGTCA ATGAAAATTG AACTGAGGAG GTCGACAGTC 
    TGCAGCTCTA CCTCGACAGG GGGAGGGAAG TGCTGA

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

    RefSeq XP_014060379.1
    CDS494..4189
    Translation

    Target ORF information:

    RefSeq Version XM_014204904.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar filamin A interacting protein 1 (filip1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014204904.1

    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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGCCCGG GGCGGATGTG CAGTCAACTC GTGCCGCAGC CACACGAATC 
    CCTATGTCAA AAGGTATGAA AACAGGCAAG GCAGTTGTGA CAGGTGTCTC CACTGTGACA 
    CGGTTAGAGT CGCGAGCCGA GTGCCAGTCA ATGAAAATTG AACTGAGGAG GTCGACAGTC 
    TGCAGCTCTA CCTCGACAGG GGGAGGGAAG TGCTGA

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

    filip1 ( XM_014204908.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060383.1 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAt22196
    Clone ID Related Accession (Same CDS sequence) XM_014204908.1
    Accession Version XM_014204908.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3639bp)
    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 filamin-A-interacting protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGTTGCT ACTGAAATGT TTCAAAATGA TATCAGGTGG TGTCTGCTCC 
    CTAGATAGCG CTCTTTCCAG CCCGGGGCGG ATGTGCAGTC AACTCGTGCC GCAGCCACAC 
    GAATCCCTAT GTCAAAAGGA AATATTGTGC ACCATGTGA

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

    RefSeq XP_014060383.1
    CDS494..4132
    Translation

    Target ORF information:

    RefSeq Version XM_014204908.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar filamin A interacting protein 1 (filip1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014204908.1

    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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGTTGCT ACTGAAATGT TTCAAAATGA TATCAGGTGG TGTCTGCTCC 
    CTAGATAGCG CTCTTTCCAG CCCGGGGCGG ATGTGCAGTC AACTCGTGCC GCAGCCACAC 
    GAATCCCTAT GTCAAAAGGA AATATTGTGC ACCATGTGA

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

    filip1 ( XM_014204909.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060384.1 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OAt22197
    Clone ID Related Accession (Same CDS sequence) XM_014204909.1
    Accession Version XM_014204909.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3624bp)
    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 filamin-A-interacting protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGTTGCT ACTGAAATGT TTCAAAATGA TATCAGGTGG TGTCTGCTCC 
    CTAGATAGCG CTCTTTCCAG CCCGGGGCGG ATGTGCAGTC AACTCGTGCC GCAGCCACAC 
    GAATCCCTAT GTCAAAAGGT ATGA

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

    RefSeq XP_014060384.1
    CDS494..4117
    Translation

    Target ORF information:

    RefSeq Version XM_014204909.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar filamin A interacting protein 1 (filip1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014204909.1

    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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGTTGCT ACTGAAATGT TTCAAAATGA TATCAGGTGG TGTCTGCTCC 
    CTAGATAGCG CTCTTTCCAG CCCGGGGCGG ATGTGCAGTC AACTCGTGCC GCAGCCACAC 
    GAATCCCTAT GTCAAAAGGT ATGA

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

    filip1 ( XM_014204910.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060385.1 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OAt22198
    Clone ID Related Accession (Same CDS sequence) XM_014204910.1
    Accession Version XM_014204910.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3591bp)
    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 filamin-A-interacting protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGCCCGG GGCGGATGTG CAGTCAACTC GTGCCGCAGC CACACGAATC 
    CCTATGTCAA AAGGAAATAT TGTGCACCAT GTGATAGTTG AGCCCAGATG A

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

    RefSeq XP_014060385.1
    CDS494..4084
    Translation

    Target ORF information:

    RefSeq Version XM_014204910.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar filamin A interacting protein 1 (filip1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014204910.1

    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
    ATGCGCTCCA GGTGCAGCAC AGCCATGGAG GGCCCAGACG ACGGACAGAT AAACCAGGTC 
    ACCCAGCCCA CCAAAGCCTT CCCCAAAGAG GAGGGGGAGA ACACACCAGA CCTGGTGAAA 
    AGGAAAATGA AGGTCCAGCG GGAAGAAAAA GAGGGGAAGT CAGTGGTGTC TGGAACAGCG 
    AGAAGGCCCC AGACAAGCAC AGAGAGCAGC AGAGGACAAA AGAAGGCAGC AGGGCTGACA 
    GATCTCTCTA AGGAGGACCT TCTCCGTCTG CTGGGAGTCA TGGAAGGAGA GGTGCAGGCC 
    AGAGAGGATA TCATCCACAT GCTGAAGTCA GAGCGTCCGA GACCTCAAGC CCTGGAGGCC 
    CATTACGGCT CAGCTGCCCC CATCAAACCC CTCCAGGCCC TGCAGAGAGA CAGCATTCTG 
    ACCAACACTA CAATGCTTGG GGACAACGTC TATGAGATGC CCATGCAAGA GTTGGACCGG 
    CTGGAGGACA AGCATCGCGA GACGTACAGG CGTATGCTGG AGCAGCTGCT GCTGGCCGAG 
    AAGTGTCACC GCCGCACGGT TAATGAGCTG GATAGCGAGA AACGCAAACA CACAGACTTC 
    ATGAACAAGA GTGATGACTT CACTAACCTG CTGGAGCAGG AGAGGGAGAG ATTAAAGAGG 
    CTGCTGGAGC AGGAGAAGGC GTACCAGGCT CGTAAAGACA AGGATCACAG CAGGAGGCTA 
    GAGAAGGTCC GTGAGGAGCT GGTCAAACTC AAGTCCTTTG CCCTGATGCT GGTGGATGAG 
    CGGCAGCTCC ACATTGAGCA GATCGACCAG CAGAGCCAGA AGGTCCAGGA CCTCAGCAGC 
    AAGCTCCAGG AGAGAGAACA GCGTCTGGCC GCTGTACACG GCACCGCCAA GGAGGACGGC 
    CAGAAGGTCC TCAGACTAGA GGCGGAGCTG GAGTGCAAAG CTGCCAAGTT CACCCAGGAG 
    CATGAGGAGA TGACTGACAA GTTGGCCAAC CAGGAGTCCC AGAGCCGTCA GCTCCGCCTG 
    AAGCTGGCAG GCCTGGCCCA CAGGATCGAG GAGCTGGAGG AGAACAACAA GGTACTGCAG 
    AGGTCAGAGG AGGACCTCCT GGAGCTAAGG GACAAGATCA GCAAGGGGGA GTGTGGGAAC 
    TCCAGCCTCA TGGCGGAGCT GGAGACCCTG CGCAAGAGAG TCCTGGAGAT GGAGGGCAAG 
    GATGAGGAGA TCACCAAGAC GGAGAGCCAG GCCAGAGAGT TGAGGAAAAG GCTGCAGGAT 
    GAGGAGACCA CCGGCCGGGA GCTGAGGCTG GAGGTGGAGA AACTGCAGAA GAGAATGGTG 
    GATCTGGAGA AACTGGAGAG GGCTTTCAAC ACGAGCAAAT CAGAGTGTGC AACACTTCAT 
    ATTAACCTAG AAAGAGAGAA AGGACTGGCA AAGGACTTGG CTGGTGAGCT GGACACAGTG 
    AAAAACCGTG TGAAAGAACT GGAGAACTCT GAGTCGAGAC TTGAGAAGGC AGAGATGGGC 
    CTAAAGGATG ACCTGATGAA GCTGAAGTCA TTTACAGTGA TACTAGTGGA TGAGAGAAGG 
    AACATGACTG AGAGAATAAA ACAGGAGGAG CAAAAGAGCG ACGATTTAAA TAAAATGTTC 
    AAAATTGAGC AGAGTAAAGT TATGGCGGTC ACAGAAAAGT TGATTGAGGA GAGCAAAAAG 
    CTCCTCAGAC TGAAATCAGA AATGGAGGTA AAAGTGACAT CTCTTACTAA AGAGAAAGAT 
    GAACTGAAAA GTAAACTAGC AAGTGAAGAG GAAAAGTGCA GGGATCTTAG CTCCAAGGTC 
    GGCGTAATAA AAAAACGAAT GGACGGGCTA GAGGAGGCAG AAAAGGTATT GATAAAAATC 
    AGAGCCAATA AGGACAGCAA GAGACCCCTA GACGAGGAAA ACAAATTCAA GGAGCTAACG 
    CAGGAAATTG AAAGGCTAAA AAACCGCCTC AAACAGCTAG AAGTGGTGGA AGGTGACCTG 
    ATGAAGACAG AGGATGAGTA CGACTTACTG GAGAAGAAGT TTCGAATGGA GCAGGACAAG 
    GCCAATGCCC TCTCTCAGCT GCTGGAGGAA ATGAAGAGTC AGACCGCCAG GAACAAAGCC 
    ATAGAGAAGG GAGAGGCGGT GAGCCAGGAG GCTGAGCTGA GGATGCGCTG CAAGATGGAG 
    GAGGCAAGGA CCAGAGACCT GCAGGCAGAC GTCCAGGCCC TCAAAGAGAA GATCCACGAG 
    CTGATGAACA AGGAGGACCA GCTCTCCCAG CTGCAAGTGG ACTACTCTCT CCTCCAGCAG 
    AGATTCCTGG AGGAGGAGGA CAAGAAGAAG AGCTTGAGCC AGGAAGTGAT CAACCTCACC 
    AAAGAGCTGG AGGTCACCAA GCGCTACAGC CGCGCCTTGC GTCCCAGTAT GAATGGAAGA 
    AGGATAGTAG ACGTCCCTGT CACCTCCACC GCAGTCCAGA CAGACGTGGT GGTCAGTGAA 
    CCTGCCGAGG AGGACACGCC TGCAGTGTTC ATCAGGAAAT CTGTCCTGGA AGAGAACCAT 
    ATCATGAGCA ACCTGAGGCA GAGGGGTCTG AAGAAGCCTG TAACTGTGCT GGAGCGCTAC 
    CCCCCAGCAA CCACCGAGCT GGGCATGAGA AAATCATGGA TCCCCTGGAT GAAGAAGAAG 
    GATGCAGTGA CAATCACTCA GACCACCCCA GAGAAGACCC CAACCCCTCA GGACAACGGG 
    GACTCCTCCC CTCGTCCACT AGAGCTGTCC ATGTCCCAAA AGCCAGGCCA GCCGTTGCAC 
    ATTCGAGTAA CCCCCGATCA CGAGAACAGC ACTGCCACTT TGGAGATCAC CGGCCCTCGT 
    GCTGAGGACT TCTTCTCCAG CGCTACCATC ATCCCCACAT TGGGCCTGCA GAGGCCTCGC 
    ATCACCATTG TTCCCAAGCC CACCACCGTG TCCTCAAAGA GCAAGCCGGG TGAGGGCGTG 
    ATGGGGGGGC CTGAGCGGTG CAAGTCTCCA GTCACCATCA CCACCATCTC CAGGGCCAAG 
    TCCCCAGATA GGAGTAAGAG CTCCTCCTAC TCAGACTCGA ACAGACCCCT CTCCCCCGTC 
    TCCATCATCA CAGTGAGCAC CACTCCTGTG ACGGAGGCCT TTGCCTCCGC ATCCCCAGAG 
    CCCCATGACA TGAGCACCAT GGGCCGGGCT GTGTTCAAAG TGACCCCAGA GAAGCAGACA 
    TTGCCTATGC CCGTCAGAAA ATACAACTCC AACGCTAGCA TAATCACCAC CACGGAGGAC 
    AACAAGATCC ACATCCACCT GGGACCTCAG TTCAAGAGGC CATCCGACGT CAGCAGTAGC 
    AGCCCCACAG TGACGGTCAG GCCCCTTAGT GTGAGCACAG AGAGCAAGGA GACGCACCCA 
    GGTACGGTGC TGCGCTCCCC GCGTCACCCC AACAACATCA CCACCGCTCC TGGGAAGACC 
    ACCCCCAACA AATTGACCAG CAGCATCACC ATCACCCCCA TCACCTTGGC ACCGTCCAGG 
    CCAACTCAGT CTGTGCCCGG GGCGGATGTG CAGTCAACTC GTGCCGCAGC CACACGAATC 
    CCTATGTCAA AAGGAAATAT TGTGCACCAT GTGATAGTTG AGCCCAGATG A

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

    filip1 ( XM_014204912.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060387.1 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OAt22199
    Clone ID Related Accession (Same CDS sequence) XM_014204912.1 , XM_014204911.1
    Accession Version XM_014204912.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3378bp)
    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 filamin-A-interacting protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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
    ATGCTGAAGT CAGAGCGTCC GAGACCTCAA GCCCTGGAGG CCCATTACGG CTCAGCTGCC 
    CCCATCAAAC CCCTCCAGGC CCTGCAGAGA GACAGCATTC TGACCAACAC TACAATGCTT 
    GGGGACAACG TCTATGAGAT GCCCATGCAA GAGTTGGACC GGCTGGAGGA CAAGCATCGC 
    GAGACGTACA GGCGTATGCT GGAGCAGCTG CTGCTGGCCG AGAAGTGTCA CCGCCGCACG 
    GTTAATGAGC TGGATAGCGA GAAACGCAAA CACACAGACT TCATGAACAA GAGTGATGAC 
    TTCACTAACC TGCTGGAGCA GGAGAGGGAG AGATTAAAGA GGCTGCTGGA GCAGGAGAAG 
    GCGTACCAGG CTCGTAAAGA CAAGGATCAC AGCAGGAGGC TAGAGAAGGT CCGTGAGGAG 
    CTGGTCAAAC TCAAGTCCTT TGCCCTGATG CTGGTGGATG AGCGGCAGCT CCACATTGAG 
    CAGATCGACC AGCAGAGCCA GAAGGTCCAG GACCTCAGCA GCAAGCTCCA GGAGAGAGAA 
    CAGCGTCTGG CCGCTGTACA CGGCACCGCC AAGGAGGACG GCCAGAAGGT CCTCAGACTA 
    GAGGCGGAGC TGGAGTGCAA AGCTGCCAAG TTCACCCAGG AGCATGAGGA GATGACTGAC 
    AAGTTGGCCA ACCAGGAGTC CCAGAGCCGT CAGCTCCGCC TGAAGCTGGC AGGCCTGGCC 
    CACAGGATCG AGGAGCTGGA GGAGAACAAC AAGGTACTGC AGAGGTCAGA GGAGGACCTC 
    CTGGAGCTAA GGGACAAGAT CAGCAAGGGG GAGTGTGGGA ACTCCAGCCT CATGGCGGAG 
    CTGGAGACCC TGCGCAAGAG AGTCCTGGAG ATGGAGGGCA AGGATGAGGA GATCACCAAG 
    ACGGAGAGCC AGGCCAGAGA GTTGAGGAAA AGGCTGCAGG ATGAGGAGAC CACCGGCCGG 
    GAGCTGAGGC TGGAGGTGGA GAAACTGCAG AAGAGAATGG TGGATCTGGA GAAACTGGAG 
    AGGGCTTTCA ACACGAGCAA ATCAGAGTGT GCAACACTTC ATATTAACCT AGAAAGAGAG 
    AAAGGACTGG CAAAGGACTT GGCTGGTGAG CTGGACACAG TGAAAAACCG TGTGAAAGAA 
    CTGGAGAACT CTGAGTCGAG ACTTGAGAAG GCAGAGATGG GCCTAAAGGA TGACCTGATG 
    AAGCTGAAGT CATTTACAGT GATACTAGTG GATGAGAGAA GGAACATGAC TGAGAGAATA 
    AAACAGGAGG AGCAAAAGAG CGACGATTTA AATAAAATGT TCAAAATTGA GCAGAGTAAA 
    GTTATGGCGG TCACAGAAAA GTTGATTGAG GAGAGCAAAA AGCTCCTCAG ACTGAAATCA 
    GAAATGGAGG TAAAAGTGAC ATCTCTTACT AAAGAGAAAG ATGAACTGAA AAGTAAACTA 
    GCAAGTGAAG AGGAAAAGTG CAGGGATCTT AGCTCCAAGG TCGGCGTAAT AAAAAAACGA 
    ATGGACGGGC TAGAGGAGGC AGAAAAGGTA TTGATAAAAA TCAGAGCCAA TAAGGACAGC 
    AAGAGACCCC TAGACGAGGA AAACAAATTC AAGGAGCTAA CGCAGGAAAT TGAAAGGCTA 
    AAAAACCGCC TCAAACAGCT AGAAGTGGTG GAAGGTGACC TGATGAAGAC AGAGGATGAG 
    TACGACTTAC TGGAGAAGAA GTTTCGAATG GAGCAGGACA AGGCCAATGC CCTCTCTCAG 
    CTGCTGGAGG AAATGAAGAG TCAGACCGCC AGGAACAAAG CCATAGAGAA GGGAGAGGCG 
    GTGAGCCAGG AGGCTGAGCT GAGGATGCGC TGCAAGATGG AGGAGGCAAG GACCAGAGAC 
    CTGCAGGCAG ACGTCCAGGC CCTCAAAGAG AAGATCCACG AGCTGATGAA CAAGGAGGAC 
    CAGCTCTCCC AGCTGCAAGT GGACTACTCT CTCCTCCAGC AGAGATTCCT GGAGGAGGAG 
    GACAAGAAGA AGAGCTTGAG CCAGGAAGTG ATCAACCTCA CCAAAGAGCT GGAGGTCACC 
    AAGCGCTACA GCCGCGCCTT GCGTCCCAGT ATGAATGGAA GAAGGATAGT AGACGTCCCT 
    GTCACCTCCA CCGCAGTCCA GACAGACGTG GTGGTCAGTG AACCTGCCGA GGAGGACACG 
    CCTGCAGTGT TCATCAGGAA ATCTGTCCTG GAAGAGAACC ATATCATGAG CAACCTGAGG 
    CAGAGGGGTC TGAAGAAGCC TGTAACTGTG CTGGAGCGCT ACCCCCCAGC AACCACCGAG 
    CTGGGCATGA GAAAATCATG GATCCCCTGG ATGAAGAAGA AGGATGCAGT GACAATCACT 
    CAGACCACCC CAGAGAAGAC CCCAACCCCT CAGGACAACG GGGACTCCTC CCCTCGTCCA 
    CTAGAGCTGT CCATGTCCCA AAAGCCAGGC CAGCCGTTGC ACATTCGAGT AACCCCCGAT 
    CACGAGAACA GCACTGCCAC TTTGGAGATC ACCGGCCCTC GTGCTGAGGA CTTCTTCTCC 
    AGCGCTACCA TCATCCCCAC ATTGGGCCTG CAGAGGCCTC GCATCACCAT TGTTCCCAAG 
    CCCACCACCG TGTCCTCAAA GAGCAAGCCG GGTGAGGGCG TGATGGGGGG GCCTGAGCGG 
    TGCAAGTCTC CAGTCACCAT CACCACCATC TCCAGGGCCA AGTCCCCAGA TAGGAGTAAG 
    AGCTCCTCCT ACTCAGACTC GAACAGACCC CTCTCCCCCG TCTCCATCAT CACAGTGAGC 
    ACCACTCCTG TGACGGAGGC CTTTGCCTCC GCATCCCCAG AGCCCCATGA CATGAGCACC 
    ATGGGCCGGG CTGTGTTCAA AGTGACCCCA GAGAAGCAGA CATTGCCTAT GCCCGTCAGA 
    AAATACAACT CCAACGCTAG CATAATCACC ACCACGGAGG ACAACAAGAT CCACATCCAC 
    CTGGGACCTC AGTTCAAGAG GCCATCCGAC GTCAGCAGTA GCAGCCCCAC AGTGACGGTC 
    AGGCCCCTTA GTGTGAGCAC AGAGAGCAAG GAGACGCACC CAGGTACGGT GCTGCGCTCC 
    CCGCGTCACC CCAACAACAT CACCACCGCT CCTGGGAAGA CCACCCCCAA CAAATTGACC 
    AGCAGCATCA CCATCACCCC CATCACCTTG GCACCGTCCA GGCCAACTCA GTCTGTGCCC 
    GGGGCGGATG TGCAGTCAAC TCGTGCCGCA GCCACACGAA TCCCTATGTC AAAAGGTATG 
    AAAACAGGCA AGGCAGTTGT GACAGGTGTC TCCACTGTGA CACGGTTAGA GTCGCGAGCC 
    GAGTGCCAGT CAATGAAAAT TGAACTGAGG AGGTCGACAG TCTGCAGCTC TACCTCGACA 
    GGGGGAGGGA AGTGCTGA

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

    RefSeq XP_014060387.1
    CDS43..3420
    Translation

    Target ORF information:

    RefSeq Version XM_014204912.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar filamin A interacting protein 1 (filip1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014204912.1

    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
    ATGCTGAAGT CAGAGCGTCC GAGACCTCAA GCCCTGGAGG CCCATTACGG CTCAGCTGCC 
    CCCATCAAAC CCCTCCAGGC CCTGCAGAGA GACAGCATTC TGACCAACAC TACAATGCTT 
    GGGGACAACG TCTATGAGAT GCCCATGCAA GAGTTGGACC GGCTGGAGGA CAAGCATCGC 
    GAGACGTACA GGCGTATGCT GGAGCAGCTG CTGCTGGCCG AGAAGTGTCA CCGCCGCACG 
    GTTAATGAGC TGGATAGCGA GAAACGCAAA CACACAGACT TCATGAACAA GAGTGATGAC 
    TTCACTAACC TGCTGGAGCA GGAGAGGGAG AGATTAAAGA GGCTGCTGGA GCAGGAGAAG 
    GCGTACCAGG CTCGTAAAGA CAAGGATCAC AGCAGGAGGC TAGAGAAGGT CCGTGAGGAG 
    CTGGTCAAAC TCAAGTCCTT TGCCCTGATG CTGGTGGATG AGCGGCAGCT CCACATTGAG 
    CAGATCGACC AGCAGAGCCA GAAGGTCCAG GACCTCAGCA GCAAGCTCCA GGAGAGAGAA 
    CAGCGTCTGG CCGCTGTACA CGGCACCGCC AAGGAGGACG GCCAGAAGGT CCTCAGACTA 
    GAGGCGGAGC TGGAGTGCAA AGCTGCCAAG TTCACCCAGG AGCATGAGGA GATGACTGAC 
    AAGTTGGCCA ACCAGGAGTC CCAGAGCCGT CAGCTCCGCC TGAAGCTGGC AGGCCTGGCC 
    CACAGGATCG AGGAGCTGGA GGAGAACAAC AAGGTACTGC AGAGGTCAGA GGAGGACCTC 
    CTGGAGCTAA GGGACAAGAT CAGCAAGGGG GAGTGTGGGA ACTCCAGCCT CATGGCGGAG 
    CTGGAGACCC TGCGCAAGAG AGTCCTGGAG ATGGAGGGCA AGGATGAGGA GATCACCAAG 
    ACGGAGAGCC AGGCCAGAGA GTTGAGGAAA AGGCTGCAGG ATGAGGAGAC CACCGGCCGG 
    GAGCTGAGGC TGGAGGTGGA GAAACTGCAG AAGAGAATGG TGGATCTGGA GAAACTGGAG 
    AGGGCTTTCA ACACGAGCAA ATCAGAGTGT GCAACACTTC ATATTAACCT AGAAAGAGAG 
    AAAGGACTGG CAAAGGACTT GGCTGGTGAG CTGGACACAG TGAAAAACCG TGTGAAAGAA 
    CTGGAGAACT CTGAGTCGAG ACTTGAGAAG GCAGAGATGG GCCTAAAGGA TGACCTGATG 
    AAGCTGAAGT CATTTACAGT GATACTAGTG GATGAGAGAA GGAACATGAC TGAGAGAATA 
    AAACAGGAGG AGCAAAAGAG CGACGATTTA AATAAAATGT TCAAAATTGA GCAGAGTAAA 
    GTTATGGCGG TCACAGAAAA GTTGATTGAG GAGAGCAAAA AGCTCCTCAG ACTGAAATCA 
    GAAATGGAGG TAAAAGTGAC ATCTCTTACT AAAGAGAAAG ATGAACTGAA AAGTAAACTA 
    GCAAGTGAAG AGGAAAAGTG CAGGGATCTT AGCTCCAAGG TCGGCGTAAT AAAAAAACGA 
    ATGGACGGGC TAGAGGAGGC AGAAAAGGTA TTGATAAAAA TCAGAGCCAA TAAGGACAGC 
    AAGAGACCCC TAGACGAGGA AAACAAATTC AAGGAGCTAA CGCAGGAAAT TGAAAGGCTA 
    AAAAACCGCC TCAAACAGCT AGAAGTGGTG GAAGGTGACC TGATGAAGAC AGAGGATGAG 
    TACGACTTAC TGGAGAAGAA GTTTCGAATG GAGCAGGACA AGGCCAATGC CCTCTCTCAG 
    CTGCTGGAGG AAATGAAGAG TCAGACCGCC AGGAACAAAG CCATAGAGAA GGGAGAGGCG 
    GTGAGCCAGG AGGCTGAGCT GAGGATGCGC TGCAAGATGG AGGAGGCAAG GACCAGAGAC 
    CTGCAGGCAG ACGTCCAGGC CCTCAAAGAG AAGATCCACG AGCTGATGAA CAAGGAGGAC 
    CAGCTCTCCC AGCTGCAAGT GGACTACTCT CTCCTCCAGC AGAGATTCCT GGAGGAGGAG 
    GACAAGAAGA AGAGCTTGAG CCAGGAAGTG ATCAACCTCA CCAAAGAGCT GGAGGTCACC 
    AAGCGCTACA GCCGCGCCTT GCGTCCCAGT ATGAATGGAA GAAGGATAGT AGACGTCCCT 
    GTCACCTCCA CCGCAGTCCA GACAGACGTG GTGGTCAGTG AACCTGCCGA GGAGGACACG 
    CCTGCAGTGT TCATCAGGAA ATCTGTCCTG GAAGAGAACC ATATCATGAG CAACCTGAGG 
    CAGAGGGGTC TGAAGAAGCC TGTAACTGTG CTGGAGCGCT ACCCCCCAGC AACCACCGAG 
    CTGGGCATGA GAAAATCATG GATCCCCTGG ATGAAGAAGA AGGATGCAGT GACAATCACT 
    CAGACCACCC CAGAGAAGAC CCCAACCCCT CAGGACAACG GGGACTCCTC CCCTCGTCCA 
    CTAGAGCTGT CCATGTCCCA AAAGCCAGGC CAGCCGTTGC ACATTCGAGT AACCCCCGAT 
    CACGAGAACA GCACTGCCAC TTTGGAGATC ACCGGCCCTC GTGCTGAGGA CTTCTTCTCC 
    AGCGCTACCA TCATCCCCAC ATTGGGCCTG CAGAGGCCTC GCATCACCAT TGTTCCCAAG 
    CCCACCACCG TGTCCTCAAA GAGCAAGCCG GGTGAGGGCG TGATGGGGGG GCCTGAGCGG 
    TGCAAGTCTC CAGTCACCAT CACCACCATC TCCAGGGCCA AGTCCCCAGA TAGGAGTAAG 
    AGCTCCTCCT ACTCAGACTC GAACAGACCC CTCTCCCCCG TCTCCATCAT CACAGTGAGC 
    ACCACTCCTG TGACGGAGGC CTTTGCCTCC GCATCCCCAG AGCCCCATGA CATGAGCACC 
    ATGGGCCGGG CTGTGTTCAA AGTGACCCCA GAGAAGCAGA CATTGCCTAT GCCCGTCAGA 
    AAATACAACT CCAACGCTAG CATAATCACC ACCACGGAGG ACAACAAGAT CCACATCCAC 
    CTGGGACCTC AGTTCAAGAG GCCATCCGAC GTCAGCAGTA GCAGCCCCAC AGTGACGGTC 
    AGGCCCCTTA GTGTGAGCAC AGAGAGCAAG GAGACGCACC CAGGTACGGT GCTGCGCTCC 
    CCGCGTCACC CCAACAACAT CACCACCGCT CCTGGGAAGA CCACCCCCAA CAAATTGACC 
    AGCAGCATCA CCATCACCCC CATCACCTTG GCACCGTCCA GGCCAACTCA GTCTGTGCCC 
    GGGGCGGATG TGCAGTCAAC TCGTGCCGCA GCCACACGAA TCCCTATGTC AAAAGGTATG 
    AAAACAGGCA AGGCAGTTGT GACAGGTGTC TCCACTGTGA CACGGTTAGA GTCGCGAGCC 
    GAGTGCCAGT CAATGAAAAT TGAACTGAGG AGGTCGACAG TCTGCAGCTC TACCTCGACA 
    GGGGGAGGGA AGTGCTGA

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

    filip1 ( XM_014204911.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014060386.1 Salmo salar filamin A interacting protein 1 (filip1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OAt22199
    Clone ID Related Accession (Same CDS sequence) XM_014204912.1 , XM_014204911.1
    Accession Version XM_014204911.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3378bp)
    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 filamin-A-interacting protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335289.1) 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
    ATGCTGAAGT CAGAGCGTCC GAGACCTCAA GCCCTGGAGG CCCATTACGG CTCAGCTGCC 
    CCCATCAAAC CCCTCCAGGC CCTGCAGAGA GACAGCATTC TGACCAACAC TACAATGCTT 
    GGGGACAACG TCTATGAGAT GCCCATGCAA GAGTTGGACC GGCTGGAGGA CAAGCATCGC 
    GAGACGTACA GGCGTATGCT GGAGCAGCTG CTGCTGGCCG AGAAGTGTCA CCGCCGCACG 
    GTTAATGAGC TGGATAGCGA GAAACGCAAA CACACAGACT TCATGAACAA GAGTGATGAC 
    TTCACTAACC TGCTGGAGCA GGAGAGGGAG AGATTAAAGA GGCTGCTGGA GCAGGAGAAG 
    GCGTACCAGG CTCGTAAAGA CAAGGATCAC AGCAGGAGGC TAGAGAAGGT CCGTGAGGAG 
    CTGGTCAAAC TCAAGTCCTT TGCCCTGATG CTGGTGGATG AGCGGCAGCT CCACATTGAG 
    CAGATCGACC AGCAGAGCCA GAAGGTCCAG GACCTCAGCA GCAAGCTCCA GGAGAGAGAA 
    CAGCGTCTGG CCGCTGTACA CGGCACCGCC AAGGAGGACG GCCAGAAGGT CCTCAGACTA 
    GAGGCGGAGC TGGAGTGCAA AGCTGCCAAG TTCACCCAGG AGCATGAGGA GATGACTGAC 
    AAGTTGGCCA ACCAGGAGTC CCAGAGCCGT CAGCTCCGCC TGAAGCTGGC AGGCCTGGCC 
    CACAGGATCG AGGAGCTGGA GGAGAACAAC AAGGTACTGC AGAGGTCAGA GGAGGACCTC 
    CTGGAGCTAA GGGACAAGAT CAGCAAGGGG GAGTGTGGGA ACTCCAGCCT CATGGCGGAG 
    CTGGAGACCC TGCGCAAGAG AGTCCTGGAG ATGGAGGGCA AGGATGAGGA GATCACCAAG 
    ACGGAGAGCC AGGCCAGAGA GTTGAGGAAA AGGCTGCAGG ATGAGGAGAC CACCGGCCGG 
    GAGCTGAGGC TGGAGGTGGA GAAACTGCAG AAGAGAATGG TGGATCTGGA GAAACTGGAG 
    AGGGCTTTCA ACACGAGCAA ATCAGAGTGT GCAACACTTC ATATTAACCT AGAAAGAGAG 
    AAAGGACTGG CAAAGGACTT GGCTGGTGAG CTGGACACAG TGAAAAACCG TGTGAAAGAA 
    CTGGAGAACT CTGAGTCGAG ACTTGAGAAG GCAGAGATGG GCCTAAAGGA TGACCTGATG 
    AAGCTGAAGT CATTTACAGT GATACTAGTG GATGAGAGAA GGAACATGAC TGAGAGAATA 
    AAACAGGAGG AGCAAAAGAG CGACGATTTA AATAAAATGT TCAAAATTGA GCAGAGTAAA 
    GTTATGGCGG TCACAGAAAA GTTGATTGAG GAGAGCAAAA AGCTCCTCAG ACTGAAATCA 
    GAAATGGAGG TAAAAGTGAC ATCTCTTACT AAAGAGAAAG ATGAACTGAA AAGTAAACTA 
    GCAAGTGAAG AGGAAAAGTG CAGGGATCTT AGCTCCAAGG TCGGCGTAAT AAAAAAACGA 
    ATGGACGGGC TAGAGGAGGC AGAAAAGGTA TTGATAAAAA TCAGAGCCAA TAAGGACAGC 
    AAGAGACCCC TAGACGAGGA AAACAAATTC AAGGAGCTAA CGCAGGAAAT TGAAAGGCTA 
    AAAAACCGCC TCAAACAGCT AGAAGTGGTG GAAGGTGACC TGATGAAGAC AGAGGATGAG 
    TACGACTTAC TGGAGAAGAA GTTTCGAATG GAGCAGGACA AGGCCAATGC CCTCTCTCAG 
    CTGCTGGAGG AAATGAAGAG TCAGACCGCC AGGAACAAAG CCATAGAGAA GGGAGAGGCG 
    GTGAGCCAGG AGGCTGAGCT GAGGATGCGC TGCAAGATGG AGGAGGCAAG GACCAGAGAC 
    CTGCAGGCAG ACGTCCAGGC CCTCAAAGAG AAGATCCACG AGCTGATGAA CAAGGAGGAC 
    CAGCTCTCCC AGCTGCAAGT GGACTACTCT CTCCTCCAGC AGAGATTCCT GGAGGAGGAG 
    GACAAGAAGA AGAGCTTGAG CCAGGAAGTG ATCAACCTCA CCAAAGAGCT GGAGGTCACC 
    AAGCGCTACA GCCGCGCCTT GCGTCCCAGT ATGAATGGAA GAAGGATAGT AGACGTCCCT 
    GTCACCTCCA CCGCAGTCCA GACAGACGTG GTGGTCAGTG AACCTGCCGA GGAGGACACG 
    CCTGCAGTGT TCATCAGGAA ATCTGTCCTG GAAGAGAACC ATATCATGAG CAACCTGAGG 
    CAGAGGGGTC TGAAGAAGCC TGTAACTGTG CTGGAGCGCT ACCCCCCAGC AACCACCGAG 
    CTGGGCATGA GAAAATCATG GATCCCCTGG ATGAAGAAGA AGGATGCAGT GACAATCACT 
    CAGACCACCC CAGAGAAGAC CCCAACCCCT CAGGACAACG GGGACTCCTC CCCTCGTCCA 
    CTAGAGCTGT CCATGTCCCA AAAGCCAGGC CAGCCGTTGC ACATTCGAGT AACCCCCGAT 
    CACGAGAACA GCACTGCCAC TTTGGAGATC ACCGGCCCTC GTGCTGAGGA CTTCTTCTCC 
    AGCGCTACCA TCATCCCCAC ATTGGGCCTG CAGAGGCCTC GCATCACCAT TGTTCCCAAG 
    CCCACCACCG TGTCCTCAAA GAGCAAGCCG GGTGAGGGCG TGATGGGGGG GCCTGAGCGG 
    TGCAAGTCTC CAGTCACCAT CACCACCATC TCCAGGGCCA AGTCCCCAGA TAGGAGTAAG 
    AGCTCCTCCT ACTCAGACTC GAACAGACCC CTCTCCCCCG TCTCCATCAT CACAGTGAGC 
    ACCACTCCTG TGACGGAGGC CTTTGCCTCC GCATCCCCAG AGCCCCATGA CATGAGCACC 
    ATGGGCCGGG CTGTGTTCAA AGTGACCCCA GAGAAGCAGA CATTGCCTAT GCCCGTCAGA 
    AAATACAACT CCAACGCTAG CATAATCACC ACCACGGAGG ACAACAAGAT CCACATCCAC 
    CTGGGACCTC AGTTCAAGAG GCCATCCGAC GTCAGCAGTA GCAGCCCCAC AGTGACGGTC 
    AGGCCCCTTA GTGTGAGCAC AGAGAGCAAG GAGACGCACC CAGGTACGGT GCTGCGCTCC 
    CCGCGTCACC CCAACAACAT CACCACCGCT CCTGGGAAGA CCACCCCCAA CAAATTGACC 
    AGCAGCATCA CCATCACCCC CATCACCTTG GCACCGTCCA GGCCAACTCA GTCTGTGCCC 
    GGGGCGGATG TGCAGTCAAC TCGTGCCGCA GCCACACGAA TCCCTATGTC AAAAGGTATG 
    AAAACAGGCA AGGCAGTTGT GACAGGTGTC TCCACTGTGA CACGGTTAGA GTCGCGAGCC 
    GAGTGCCAGT CAATGAAAAT TGAACTGAGG AGGTCGACAG TCTGCAGCTC TACCTCGACA 
    GGGGGAGGGA AGTGCTGA

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

    RefSeq XP_014060386.1
    CDS253..3630
    Translation

    Target ORF information:

    RefSeq Version XM_014204911.1
    Organism Salmo salar(Atlantic salmon)
    Definition Salmo salar filamin A interacting protein 1 (filip1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014204911.1

    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
    ATGCTGAAGT CAGAGCGTCC GAGACCTCAA GCCCTGGAGG CCCATTACGG CTCAGCTGCC 
    CCCATCAAAC CCCTCCAGGC CCTGCAGAGA GACAGCATTC TGACCAACAC TACAATGCTT 
    GGGGACAACG TCTATGAGAT GCCCATGCAA GAGTTGGACC GGCTGGAGGA CAAGCATCGC 
    GAGACGTACA GGCGTATGCT GGAGCAGCTG CTGCTGGCCG AGAAGTGTCA CCGCCGCACG 
    GTTAATGAGC TGGATAGCGA GAAACGCAAA CACACAGACT TCATGAACAA GAGTGATGAC 
    TTCACTAACC TGCTGGAGCA GGAGAGGGAG AGATTAAAGA GGCTGCTGGA GCAGGAGAAG 
    GCGTACCAGG CTCGTAAAGA CAAGGATCAC AGCAGGAGGC TAGAGAAGGT CCGTGAGGAG 
    CTGGTCAAAC TCAAGTCCTT TGCCCTGATG CTGGTGGATG AGCGGCAGCT CCACATTGAG 
    CAGATCGACC AGCAGAGCCA GAAGGTCCAG GACCTCAGCA GCAAGCTCCA GGAGAGAGAA 
    CAGCGTCTGG CCGCTGTACA CGGCACCGCC AAGGAGGACG GCCAGAAGGT CCTCAGACTA 
    GAGGCGGAGC TGGAGTGCAA AGCTGCCAAG TTCACCCAGG AGCATGAGGA GATGACTGAC 
    AAGTTGGCCA ACCAGGAGTC CCAGAGCCGT CAGCTCCGCC TGAAGCTGGC AGGCCTGGCC 
    CACAGGATCG AGGAGCTGGA GGAGAACAAC AAGGTACTGC AGAGGTCAGA GGAGGACCTC 
    CTGGAGCTAA GGGACAAGAT CAGCAAGGGG GAGTGTGGGA ACTCCAGCCT CATGGCGGAG 
    CTGGAGACCC TGCGCAAGAG AGTCCTGGAG ATGGAGGGCA AGGATGAGGA GATCACCAAG 
    ACGGAGAGCC AGGCCAGAGA GTTGAGGAAA AGGCTGCAGG ATGAGGAGAC CACCGGCCGG 
    GAGCTGAGGC TGGAGGTGGA GAAACTGCAG AAGAGAATGG TGGATCTGGA GAAACTGGAG 
    AGGGCTTTCA ACACGAGCAA ATCAGAGTGT GCAACACTTC ATATTAACCT AGAAAGAGAG 
    AAAGGACTGG CAAAGGACTT GGCTGGTGAG CTGGACACAG TGAAAAACCG TGTGAAAGAA 
    CTGGAGAACT CTGAGTCGAG ACTTGAGAAG GCAGAGATGG GCCTAAAGGA TGACCTGATG 
    AAGCTGAAGT CATTTACAGT GATACTAGTG GATGAGAGAA GGAACATGAC TGAGAGAATA 
    AAACAGGAGG AGCAAAAGAG CGACGATTTA AATAAAATGT TCAAAATTGA GCAGAGTAAA 
    GTTATGGCGG TCACAGAAAA GTTGATTGAG GAGAGCAAAA AGCTCCTCAG ACTGAAATCA 
    GAAATGGAGG TAAAAGTGAC ATCTCTTACT AAAGAGAAAG ATGAACTGAA AAGTAAACTA 
    GCAAGTGAAG AGGAAAAGTG CAGGGATCTT AGCTCCAAGG TCGGCGTAAT AAAAAAACGA 
    ATGGACGGGC TAGAGGAGGC AGAAAAGGTA TTGATAAAAA TCAGAGCCAA TAAGGACAGC 
    AAGAGACCCC TAGACGAGGA AAACAAATTC AAGGAGCTAA CGCAGGAAAT TGAAAGGCTA 
    AAAAACCGCC TCAAACAGCT AGAAGTGGTG GAAGGTGACC TGATGAAGAC AGAGGATGAG 
    TACGACTTAC TGGAGAAGAA GTTTCGAATG GAGCAGGACA AGGCCAATGC CCTCTCTCAG 
    CTGCTGGAGG AAATGAAGAG TCAGACCGCC AGGAACAAAG CCATAGAGAA GGGAGAGGCG 
    GTGAGCCAGG AGGCTGAGCT GAGGATGCGC TGCAAGATGG AGGAGGCAAG GACCAGAGAC 
    CTGCAGGCAG ACGTCCAGGC CCTCAAAGAG AAGATCCACG AGCTGATGAA CAAGGAGGAC 
    CAGCTCTCCC AGCTGCAAGT GGACTACTCT CTCCTCCAGC AGAGATTCCT GGAGGAGGAG 
    GACAAGAAGA AGAGCTTGAG CCAGGAAGTG ATCAACCTCA CCAAAGAGCT GGAGGTCACC 
    AAGCGCTACA GCCGCGCCTT GCGTCCCAGT ATGAATGGAA GAAGGATAGT AGACGTCCCT 
    GTCACCTCCA CCGCAGTCCA GACAGACGTG GTGGTCAGTG AACCTGCCGA GGAGGACACG 
    CCTGCAGTGT TCATCAGGAA ATCTGTCCTG GAAGAGAACC ATATCATGAG CAACCTGAGG 
    CAGAGGGGTC TGAAGAAGCC TGTAACTGTG CTGGAGCGCT ACCCCCCAGC AACCACCGAG 
    CTGGGCATGA GAAAATCATG GATCCCCTGG ATGAAGAAGA AGGATGCAGT GACAATCACT 
    CAGACCACCC CAGAGAAGAC CCCAACCCCT CAGGACAACG GGGACTCCTC CCCTCGTCCA 
    CTAGAGCTGT CCATGTCCCA AAAGCCAGGC CAGCCGTTGC ACATTCGAGT AACCCCCGAT 
    CACGAGAACA GCACTGCCAC TTTGGAGATC ACCGGCCCTC GTGCTGAGGA CTTCTTCTCC 
    AGCGCTACCA TCATCCCCAC ATTGGGCCTG CAGAGGCCTC GCATCACCAT TGTTCCCAAG 
    CCCACCACCG TGTCCTCAAA GAGCAAGCCG GGTGAGGGCG TGATGGGGGG GCCTGAGCGG 
    TGCAAGTCTC CAGTCACCAT CACCACCATC TCCAGGGCCA AGTCCCCAGA TAGGAGTAAG 
    AGCTCCTCCT ACTCAGACTC GAACAGACCC CTCTCCCCCG TCTCCATCAT CACAGTGAGC 
    ACCACTCCTG TGACGGAGGC CTTTGCCTCC GCATCCCCAG AGCCCCATGA CATGAGCACC 
    ATGGGCCGGG CTGTGTTCAA AGTGACCCCA GAGAAGCAGA CATTGCCTAT GCCCGTCAGA 
    AAATACAACT CCAACGCTAG CATAATCACC ACCACGGAGG ACAACAAGAT CCACATCCAC 
    CTGGGACCTC AGTTCAAGAG GCCATCCGAC GTCAGCAGTA GCAGCCCCAC AGTGACGGTC 
    AGGCCCCTTA GTGTGAGCAC AGAGAGCAAG GAGACGCACC CAGGTACGGT GCTGCGCTCC 
    CCGCGTCACC CCAACAACAT CACCACCGCT CCTGGGAAGA CCACCCCCAA CAAATTGACC 
    AGCAGCATCA CCATCACCCC CATCACCTTG GCACCGTCCA GGCCAACTCA GTCTGTGCCC 
    GGGGCGGATG TGCAGTCAAC TCGTGCCGCA GCCACACGAA TCCCTATGTC AAAAGGTATG 
    AAAACAGGCA AGGCAGTTGT GACAGGTGTC TCCACTGTGA CACGGTTAGA GTCGCGAGCC 
    GAGTGCCAGT CAATGAAAAT TGAACTGAGG AGGTCGACAG TCTGCAGCTC TACCTCGACA 
    GGGGGAGGGA AGTGCTGA

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

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