cpsf1 cDNA ORF clone, Danio rerio(zebrafish)

The following cpsf1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the cpsf1 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
ODa34633 NM_001114681.2
Latest version!
Danio rerio cleavage and polyadenylation specific factor 1 (cpsf1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa23997 XM_005159584.4
Latest version!
Danio rerio cleavage and polyadenylation specific factor 1 (cpsf1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa23997 XM_005159584.3 Danio rerio cleavage and polyadenylation specific factor 1 (cpsf1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID ODa34633
    Clone ID Related Accession (Same CDS sequence) NM_001114681.2
    Accession Version NM_001114681.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4350bp)
    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 2019-11-15
    Organism Danio rerio(zebrafish)
    Product cleavage and polyadenylation specificity factor subunit 1
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CU467825.13. On May 1, 2009 this sequence version replaced NM_001114681.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTACGCGG TGTACCGTCA GGCTCACCCG CCCACCGCAG TGGAGTTTGC CGTTTACTGC 
    AACTTCATCT CCAGCCAAGA GAAAAACTTG GTGGTGGCAG GAACATCTCA GCTGTACGTC
    TACAGGATCA TTTATGATGT GGAGAGCACT TCCAAGTCTG AAAAGTCATC AGATGGCAAG
    AGTCGTAAAG AGAAACTGGA GCAGGTGGCA TCTTTCTCTC TCTTTGGAAA TGTGATGTCA
    ATGGCCAGCG TTCAGCTGGT GGGCACCAAC AGAGACGCCT TGCTTCTCAG CTTCAAAGAT
    GCCAAGCTGT CAGTAGTGGA GTATGACCCT GGCACGCATG ATCTCAAGAC TCTGTCGCTG
    CATTATTTTG AGGAACCGGA GTTGAGAGAT GGGTTTGTTC AGAATGTGCA CATTCCTATG
    GTTCGAGTGG ATCCAGAGAA TCGATGTGCT GTCATGCTGG TGTACGGCAC TTGCCTGGTG
    GTTCTGCCTT TCAGGAAGGA CACGCTTGCT GACGAACAGG AGGGGATTGT GGGAGAGGGG
    CAGAAATCTA GTTTCCTACC CAGCTACATC ATCGATGTTC GTGAACTGGA TGAGAAACTC
    CTAAACATCA TCGATATGAA GTTTCTCCAT GGCTACTATG AGCCCACACT GCTTATTCTG
    TTCGAGCCCA ATCAAACATG GCCAGGGCGT GTGGCGGTGC GTCAGGACAC TTGCAGTATT
    GTGGCGATCT CTCTAAACAT CATGCAGAAG GTTCATCCAG TCATCTGGTC TCTGAGTAAC
    CTGCCCTTTG ACTGCAATCA GGTCATGGCT GTCCCCAAAC CCATCGGTGG AGTTGTGGTG
    TTTGCTGTGA ATTCGTTGCT GTATCTTAAT CAGAGTGTTC CTCCGTTTGG AGTGTCTCTC
    AACAGTCTGA CTAACGGAAC CACAGCTTTC CCTTTGAGAC CTCAGGAGGA AGTAAAGATC
    ACCCTGGATT GTTCTCAAGC CTCCTTCATC ACCTCTGACA AGATGGTCAT CTCACTAAAA
    GGAGGAGAAA TTTATGTGTT GACGCTCATC ACTGATGGCA TGAGAAGTGT TCGTGCGTTT
    CACTTTGATA AGGCTGCTGC CAGTGTCCTG ACTACCTGTA TGATGACTAT GGAGCCAGGC
    TATCTGTTTT TGGGCTCTCG CCTGGGAAAC TCACTGCTGC TCAGGTACAC TGAGAAACTC
    CAGGAAACAC CCATGGAGGA GGGCAAAGAG AATGAGGAGA AGGAGAAACA GCCTCCAAAT
    AAGAAAAAAC GTGTGGATTC CAACTGGGCA GGGTGTCCAG GAAAGGGCAA TCTACCTGAT
    GAGCTGGATG AAATTGAGGT GTATGGGAGT GAAGCTCAGT CAGGCACTCA GCTGGCCACA
    TACTCATTTG AGGTTTGTGA CAGCATACTA AACATTGGAC CCTGTGCCAG TGCCTCCATG
    GGAGAACCAG CTTTTCTGTC TGAAGAGTTT CAAACCAACC CTGAGCCAGA TCTGGAGGTG
    GTGGTGTGTT CAGGATATGG CAAGAATGGA GCACTGTCTG TATTACAGAA AAGCATCAGA
    CCACAGGTGG TGACGACGTT CGAACTTCCT GGATGCCATG ACATGTGGAC AGTCATATAC
    TGTGAGGAGA AACCCGAAAA GCCTTCAGCT GAGGGTGATG GAGAGAGTCC TGAGGAGGAG
    AAGCGCGAGC CCACAATAGA GGATGACAAG AAGAAACACG GCTTCCTCAT CCTCAGCAGA
    GAAGACTCCA CCATGATTCT CCAGACGGGT CAAGAGATCA TGGAACTGGA CACCAGTGGA
    TTCGCCACAC AGGGTCCTAC AGTTTACGCG GGCAACATCG GAGACAATAA ATACATCATC
    CAGGTGTCCC CCATGGGCAT CAGACTGCTC GAGGGAGTTA ATCAGCTCCA CTTTATCCCT
    GTGGACCTGG GCTCTCCCAT AGTGCACTGC TCTGTGGCCG ATCCTTACGT GGTCATCATG
    ACGGCAGAGG GAGTGGTCAC TATGTTTGTC TTGAAGAATG ACTCGTATAT GGGAAAGAGT
    CACCGCCTGG CACTTCAGAA ACCACAGATA CACACGCAAT CACGTGTTAT TACGTTATGT
    GCATATCGCG ATGTCAGTGG TATGTTCACA ACTGAGAACA AGGTCAGCTT CCTGGCAAAA
    GAGGAAATTG CTATCAGAAC CAACTCAGAG ACAGAAACCA TCATCCAGGA CATCAGTAAT
    ACAGTGGATG ATGAAGAGGA GATGCTGTAC GGGGAGTCAA ACCCCCTGAC GAGCCCCAAC
    AAAGAAGAGT CCAGCCGTGG CTCTGCAGCA GCAAGCTCCG CTCACACAGG AAAAGAGAGC
    GGCTCCGGCA GACAGGAGCC CTCACACTGG TGCCTGCTGG TTAGAGAGAA TGGAGTCATG
    GAGATCTACC AGCTTCCAGA CTGGCGTTTG GTTTTCCTGG TGAAAAATTT CCCAGTCGGT
    CAGCGTGTTT TGGTTGACAG CTCTGCCAGC CAGTCAGCTA CTCAAGGGGA GCTTAAAAAA
    GAGGAAGTGA CGAGGCAAGG TGACATTCCA TTGGTCAAAG AGGTTGCTCT TGTGTCATTA
    GGCTACAACC ACAGCCGTCC CTACCTTCTG GCTCATGTTG AACAAGAGCT TCTCATCTAT
    GAGGCCTTTC CGTACGACCA GCAGCAAGCT CAAAGCAACC TGAAAGTGCG CTTCAAGAAG
    ATGCCTCATA ACATTAACTA CAGAGAGAAG AAGGTCAAAG TGAGGAAGGA CAAGAAGCCT
    GAGGGTCAGG GAGAGGACAC TCTCGGCGTC AAAGGTCGTG TGGCCAGATT CAGATACTTC
    CAGGACATCT CTGGATACTC AGGGGTGTTT ATCTGTGGTC CCTCTCCACA CTGGATGTTG
    GTGACCTCTC GCGGGGCGAT GCGCCTCCAC CCCATGACAA TAGATGGAGC CATTGAGTCT
    TTCTCTCCCT TTCACAATAT CAACTGCCCC AAAGGATTTC TCTACTTCAA CAAACAGGGT
    GAGCTGAGGA TCAGTGTGTT GCCAACATAC CTCTCTTATG ATGCTCCCTG GCCTGTGCGC
    AAGATCCCTC TTAGGTGCAC CGTCCACTAT GTATCATACC ATGTGGAATC CAAGGTGTAT
    GCAGTGTGCA CCAGTGTTAA AGAGCCGTGC ACGCGCATCC CCAGAATGAC TGGAGAAGAG
    AAGGAATTTG AGACCATTGA AAGAGACGAG CGATATATTC ACCCTCAACA GGACAAGTTC
    TCAATTCAGC TCATCTCTCC AGTGAGCTGG GAGGCGATTC CAAACACACG CGTTGACCTT
    GAGGAGTGGG AGCATGTGAC GTGCATGAAG ACGGTGGCTC TGAAGAGTCA GGAGACAGTG
    TCAGGACTAA AGGGATACGT GGCTCTTGGG ACGTGTCTCA TGCAGGGAGA AGAGGTCACC
    TGTAGAGGCA GAATCCTGAT TCTGGATGTG ATAGAGGTGG TCCCAGAGCC CGGACAGCCC
    CTCACCAAGA ACAAGTTTAA AGTGCTGTAT GAAAAGGAGC AGAAAGGTCC CGTCACTGCT
    CTTTGTCACT GCAGTGGATT CCTGGTGTCT GCTATTGGAC AGAAGATCTT CCTGTGGAGT
    CTGAAGGATA ATGATCTGAC GGGAATGGCA TTCATTGACA CACAGCTCTA CATTCATCAG
    ATGTACAGCA TCAAGAACTT CATCCTCGCA GCAGATGTGA TGAAGAGCAT CTCTCTGCTG
    CGCTACCAGC CGGAGAGCAA GACGCTTTCA CTCGTCAGCA GGGATGCAAA GCCCCTTGAG
    GTTTACAGCA TAGAGTTTAT GGTAGACAAT AACCAGCTTG GTTTTTTGGT TTCAGACAGA
    GACAAAAACC TTATGGTCTA CATGTACCTG CCTGAAGCCA AAGAGAGTTT TGGAGGCATG
    CGTTTGTTGC GGAGAGCAGA TTTTAACGTG GGATCGCATG TGAACGCCTT CTGGAGGATG
    CCATGCCGCG GGACACTGGA CACAGCCAAC AAGAAGGCCC TCACCTGGGA CAACAAACAC
    ATCACCTGGT TTGCTACGCT GGATGGTGGT GTCGGTCTGC TTTTACCAAT GCAGGAGAAG
    ACGTACCGCA GACTGCTGAT GTTGCAGAAC GCTCTCACCA CCATGCTGCC ACATCATGCC
    GGGCTCAATC CAAAGGCTTT CAGGATGCTG CACTGTGACC GGCGAACGCT CCAGAATGCT
    GTCAAGAACA TCCTGGATGG AGAGCTGCTC AATAAATACC TGTATCTCAG TACCATGGAG
    AGAAGTGAAC TGGCCAAGAA GATCGGCACG ACCCCTGACA TTATCTTGGA TGATCTTCTG
    GAGATTGAAA GAGTCACTGC TCACTTCTGA

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

    RefSeq NP_001108153.2
    CDS169..4518
    Translation

    Target ORF information:

    RefSeq Version NM_001114681.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio cleavage and polyadenylation specific factor 1 (cpsf1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001114681.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTACGCGG TGTACCGTCA GGCTCACCCG CCCACCGCAG TGGAGTTTGC CGTTTACTGC 
    AACTTCATCT CCAGCCAAGA GAAAAACTTG GTGGTGGCAG GAACATCTCA GCTGTACGTC
    TACAGGATCA TTTATGATGT GGAGAGCACT TCCAAGTCTG AAAAGTCATC AGATGGCAAG
    AGTCGTAAAG AGAAACTGGA GCAGGTGGCA TCTTTCTCTC TCTTTGGAAA TGTGATGTCA
    ATGGCCAGCG TTCAGCTGGT GGGCACCAAC AGAGACGCCT TGCTTCTCAG CTTCAAAGAT
    GCCAAGCTGT CAGTAGTGGA GTATGACCCT GGCACGCATG ATCTCAAGAC TCTGTCGCTG
    CATTATTTTG AGGAACCGGA GTTGAGAGAT GGGTTTGTTC AGAATGTGCA CATTCCTATG
    GTTCGAGTGG ATCCAGAGAA TCGATGTGCT GTCATGCTGG TGTACGGCAC TTGCCTGGTG
    GTTCTGCCTT TCAGGAAGGA CACGCTTGCT GACGAACAGG AGGGGATTGT GGGAGAGGGG
    CAGAAATCTA GTTTCCTACC CAGCTACATC ATCGATGTTC GTGAACTGGA TGAGAAACTC
    CTAAACATCA TCGATATGAA GTTTCTCCAT GGCTACTATG AGCCCACACT GCTTATTCTG
    TTCGAGCCCA ATCAAACATG GCCAGGGCGT GTGGCGGTGC GTCAGGACAC TTGCAGTATT
    GTGGCGATCT CTCTAAACAT CATGCAGAAG GTTCATCCAG TCATCTGGTC TCTGAGTAAC
    CTGCCCTTTG ACTGCAATCA GGTCATGGCT GTCCCCAAAC CCATCGGTGG AGTTGTGGTG
    TTTGCTGTGA ATTCGTTGCT GTATCTTAAT CAGAGTGTTC CTCCGTTTGG AGTGTCTCTC
    AACAGTCTGA CTAACGGAAC CACAGCTTTC CCTTTGAGAC CTCAGGAGGA AGTAAAGATC
    ACCCTGGATT GTTCTCAAGC CTCCTTCATC ACCTCTGACA AGATGGTCAT CTCACTAAAA
    GGAGGAGAAA TTTATGTGTT GACGCTCATC ACTGATGGCA TGAGAAGTGT TCGTGCGTTT
    CACTTTGATA AGGCTGCTGC CAGTGTCCTG ACTACCTGTA TGATGACTAT GGAGCCAGGC
    TATCTGTTTT TGGGCTCTCG CCTGGGAAAC TCACTGCTGC TCAGGTACAC TGAGAAACTC
    CAGGAAACAC CCATGGAGGA GGGCAAAGAG AATGAGGAGA AGGAGAAACA GCCTCCAAAT
    AAGAAAAAAC GTGTGGATTC CAACTGGGCA GGGTGTCCAG GAAAGGGCAA TCTACCTGAT
    GAGCTGGATG AAATTGAGGT GTATGGGAGT GAAGCTCAGT CAGGCACTCA GCTGGCCACA
    TACTCATTTG AGGTTTGTGA CAGCATACTA AACATTGGAC CCTGTGCCAG TGCCTCCATG
    GGAGAACCAG CTTTTCTGTC TGAAGAGTTT CAAACCAACC CTGAGCCAGA TCTGGAGGTG
    GTGGTGTGTT CAGGATATGG CAAGAATGGA GCACTGTCTG TATTACAGAA AAGCATCAGA
    CCACAGGTGG TGACGACGTT CGAACTTCCT GGATGCCATG ACATGTGGAC AGTCATATAC
    TGTGAGGAGA AACCCGAAAA GCCTTCAGCT GAGGGTGATG GAGAGAGTCC TGAGGAGGAG
    AAGCGCGAGC CCACAATAGA GGATGACAAG AAGAAACACG GCTTCCTCAT CCTCAGCAGA
    GAAGACTCCA CCATGATTCT CCAGACGGGT CAAGAGATCA TGGAACTGGA CACCAGTGGA
    TTCGCCACAC AGGGTCCTAC AGTTTACGCG GGCAACATCG GAGACAATAA ATACATCATC
    CAGGTGTCCC CCATGGGCAT CAGACTGCTC GAGGGAGTTA ATCAGCTCCA CTTTATCCCT
    GTGGACCTGG GCTCTCCCAT AGTGCACTGC TCTGTGGCCG ATCCTTACGT GGTCATCATG
    ACGGCAGAGG GAGTGGTCAC TATGTTTGTC TTGAAGAATG ACTCGTATAT GGGAAAGAGT
    CACCGCCTGG CACTTCAGAA ACCACAGATA CACACGCAAT CACGTGTTAT TACGTTATGT
    GCATATCGCG ATGTCAGTGG TATGTTCACA ACTGAGAACA AGGTCAGCTT CCTGGCAAAA
    GAGGAAATTG CTATCAGAAC CAACTCAGAG ACAGAAACCA TCATCCAGGA CATCAGTAAT
    ACAGTGGATG ATGAAGAGGA GATGCTGTAC GGGGAGTCAA ACCCCCTGAC GAGCCCCAAC
    AAAGAAGAGT CCAGCCGTGG CTCTGCAGCA GCAAGCTCCG CTCACACAGG AAAAGAGAGC
    GGCTCCGGCA GACAGGAGCC CTCACACTGG TGCCTGCTGG TTAGAGAGAA TGGAGTCATG
    GAGATCTACC AGCTTCCAGA CTGGCGTTTG GTTTTCCTGG TGAAAAATTT CCCAGTCGGT
    CAGCGTGTTT TGGTTGACAG CTCTGCCAGC CAGTCAGCTA CTCAAGGGGA GCTTAAAAAA
    GAGGAAGTGA CGAGGCAAGG TGACATTCCA TTGGTCAAAG AGGTTGCTCT TGTGTCATTA
    GGCTACAACC ACAGCCGTCC CTACCTTCTG GCTCATGTTG AACAAGAGCT TCTCATCTAT
    GAGGCCTTTC CGTACGACCA GCAGCAAGCT CAAAGCAACC TGAAAGTGCG CTTCAAGAAG
    ATGCCTCATA ACATTAACTA CAGAGAGAAG AAGGTCAAAG TGAGGAAGGA CAAGAAGCCT
    GAGGGTCAGG GAGAGGACAC TCTCGGCGTC AAAGGTCGTG TGGCCAGATT CAGATACTTC
    CAGGACATCT CTGGATACTC AGGGGTGTTT ATCTGTGGTC CCTCTCCACA CTGGATGTTG
    GTGACCTCTC GCGGGGCGAT GCGCCTCCAC CCCATGACAA TAGATGGAGC CATTGAGTCT
    TTCTCTCCCT TTCACAATAT CAACTGCCCC AAAGGATTTC TCTACTTCAA CAAACAGGGT
    GAGCTGAGGA TCAGTGTGTT GCCAACATAC CTCTCTTATG ATGCTCCCTG GCCTGTGCGC
    AAGATCCCTC TTAGGTGCAC CGTCCACTAT GTATCATACC ATGTGGAATC CAAGGTGTAT
    GCAGTGTGCA CCAGTGTTAA AGAGCCGTGC ACGCGCATCC CCAGAATGAC TGGAGAAGAG
    AAGGAATTTG AGACCATTGA AAGAGACGAG CGATATATTC ACCCTCAACA GGACAAGTTC
    TCAATTCAGC TCATCTCTCC AGTGAGCTGG GAGGCGATTC CAAACACACG CGTTGACCTT
    GAGGAGTGGG AGCATGTGAC GTGCATGAAG ACGGTGGCTC TGAAGAGTCA GGAGACAGTG
    TCAGGACTAA AGGGATACGT GGCTCTTGGG ACGTGTCTCA TGCAGGGAGA AGAGGTCACC
    TGTAGAGGCA GAATCCTGAT TCTGGATGTG ATAGAGGTGG TCCCAGAGCC CGGACAGCCC
    CTCACCAAGA ACAAGTTTAA AGTGCTGTAT GAAAAGGAGC AGAAAGGTCC CGTCACTGCT
    CTTTGTCACT GCAGTGGATT CCTGGTGTCT GCTATTGGAC AGAAGATCTT CCTGTGGAGT
    CTGAAGGATA ATGATCTGAC GGGAATGGCA TTCATTGACA CACAGCTCTA CATTCATCAG
    ATGTACAGCA TCAAGAACTT CATCCTCGCA GCAGATGTGA TGAAGAGCAT CTCTCTGCTG
    CGCTACCAGC CGGAGAGCAA GACGCTTTCA CTCGTCAGCA GGGATGCAAA GCCCCTTGAG
    GTTTACAGCA TAGAGTTTAT GGTAGACAAT AACCAGCTTG GTTTTTTGGT TTCAGACAGA
    GACAAAAACC TTATGGTCTA CATGTACCTG CCTGAAGCCA AAGAGAGTTT TGGAGGCATG
    CGTTTGTTGC GGAGAGCAGA TTTTAACGTG GGATCGCATG TGAACGCCTT CTGGAGGATG
    CCATGCCGCG GGACACTGGA CACAGCCAAC AAGAAGGCCC TCACCTGGGA CAACAAACAC
    ATCACCTGGT TTGCTACGCT GGATGGTGGT GTCGGTCTGC TTTTACCAAT GCAGGAGAAG
    ACGTACCGCA GACTGCTGAT GTTGCAGAAC GCTCTCACCA CCATGCTGCC ACATCATGCC
    GGGCTCAATC CAAAGGCTTT CAGGATGCTG CACTGTGACC GGCGAACGCT CCAGAATGCT
    GTCAAGAACA TCCTGGATGG AGAGCTGCTC AATAAATACC TGTATCTCAG TACCATGGAG
    AGAAGTGAAC TGGCCAAGAA GATCGGCACG ACCCCTGACA TTATCTTGGA TGATCTTCTG
    GAGATTGAAA GAGTCACTGC TCACTTCTGA

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

    CloneID ODa23997
    Clone ID Related Accession (Same CDS sequence) XM_005159584.3 , XM_005159584.4
    Accession Version XM_005159584.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4347bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product cleavage and polyadenylation specificity factor subunit 1 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007130.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005159584.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTACGCGG TGTACCGTCA GGCTCACCCG CCCACCGCAG TGGAGTTTGC CGTTTACTGC 
    AACTTCATCT CCAGCCAAGA GAAAAACTTG GTGGTGGCAG GAACATCTCA GCTGTACGTC
    TACAGGATCA TTTATGATGT GGAGAGCACT TCCAAGTCTG AAAAGTCATC AGATGGCAAG
    AGTCGTAAAG AGAAACTGGA GCAGGTGGCA TCTTTCTCTC TCTTTGGAAA TGTGATGTCA
    ATGGCCAGCG TTCAGCTGGT GGGCACCAAC AGAGACGCCT TGCTTCTCAG CTTCAAAGAT
    GCCAAGCTGT CAGTAGTGGA GTATGACCCT GGCACGCATG ATCTCAAGAC TCTGTCGCTG
    CATTATTTTG AGGAACCGGA GTTGAGAGAT GGGTTTGTTC AGAATGTGCA CATTCCTATG
    GTTCGAGTGG ATCCAGAGAA TCGATGTGCT GTCATGCTGG TGTACGGCAC TTGCCTGGTG
    GTTCTGCCTT TCAGGAAGGA CACGCTTGCT GACGAACAGG AGGGGATTGT GGGAGAGGGG
    CAGAAATCTA GTTTCCTACC CAGCTACATC ATCGATGTTC GTGAACTGGA TGAGAAACTC
    CTAAACATCA TCGATATGAA GTTTCTCCAT GGCTACTATG AGCCCACACT GCTTATTCTG
    TTCGAGCCCA ATCAAACATG GCCAGGGCGT GTGGCGGTGC GTCAGGACAC TTGCAGTATT
    GTGGCGATCT CTCTAAACAT CATGCAGAAG GTTCATCCAG TCATCTGGTC TCTGAGTAAC
    CTGCCCTTTG ACTGCAATCA GGTCATGGCT GTCCCCAAAC CCATCGGTGG AGTTGTGGTG
    TTTGCTGTGA ATTCGTTGCT GTATCTTAAT CAGAGTGTTC CTCCGTTTGG AGTGTCTCTC
    AACAGTCTGA CTAACGGAAC CACAGCTTTC CCTTTGAGAC CTCAGGAGGA AGTAAAGATC
    ACCCTGGATT GTTCTCAAGC CTCCTTCATC ACCTCTGACA AGATGGTCAT CTCACTAAAA
    GGAGGAGAAA TTTATGTGTT GACGCTCATC ACTGATGGCA TGAGAAGTGT TCGTGCGTTT
    CACTTTGATA AGGCTGCTGC CAGTGTCCTG ACTACCTGTA TGATGACTAT GGAGCCAGGC
    TATCTGTTTT TGGGCTCTCG CCTGGGAAAC TCACTGCTGC TCAGGTACAC TGAGAAACTC
    CAGGAAACAC CCATGGAGGA GGGCAAAGAG AATGAGGAGA AGGAGAAACA GGAAGAGCCT
    CCAAATAAGA AAAAACGTGT GGATTCCAAC TGGGCAGGAA AGGGCAATCT ACCTGATGAG
    CTGGATGAAA TTGAGGTGTA TGGGAGTGAA GCTCAGTCAG GCACTCAGCT GGCCACATAC
    TCATTTGAGG TTTGTGACAG CATACTAAAC ATTGGACCCT GTGCCAGTGC CTCCATGGGA
    GAACCAGCTT TTCTGTCTGA AGAGTTTCAA ACCAACCCTG AGCCAGATCT GGAGGTGGTG
    GTGTGTTCAG GATATGGCAA GAATGGAGCA CTGTCTGTAT TACAGAAAAG CATCAGACCA
    CAGGTGGTGA CGACGTTCGA ACTTCCTGGA TGCCATGACA TGTGGACAGT CATATACTGT
    GAGGAGAAAC CCGAAAAGCC TTCAGCTGAG GGTGATGGAG AGAGTCCTGA GGAGGAGAAG
    CGCGAGCCCA CAATAGAGGA TGACAAGAAG AAACACGGCT TCCTCATCCT CAGCAGAGAA
    GACTCCACCA TGATTCTCCA GACGGGTCAA GAGATCATGG AACTGGACAC CAGTGGATTC
    GCCACACAGG GTCCTACAGT TTACGCGGGC AACATCGGAG ACAATAAATA CATCATCCAG
    GTGTCCCCCA TGGGCATCAG ACTGCTCGAG GGAGTTAATC AGCTCCACTT TATCCCTGTG
    GACCTGGGCT CTCCCATAGT GCACTGCTCT GTGGCCGATC CTTACGTGGT CATCATGACG
    GCAGAGGGAG TGGTCACTAT GTTTGTCTTG AAGAATGACT CGTATATGGG AAAGAGTCAC
    CGCCTGGCAC TTCAGAAACC ACAGATACAC ACGCAATCAC GTGTTATTAC GTTATGTGCA
    TATCGCGATG TCAGTGGTAT GTTCACAACT GAGAACAAGG TCAGCTTCCT GGCAAAAGAG
    GAAATTGCTA TCAGAACCAA CTCAGAGACA GAAACCATCA TCCAGGACAT CAGTAATACA
    GTGGATGATG AAGAGGAGAT GCTGTACGGG GAGTCAAACC CCCTGACGAG CCCCAACAAA
    GAAGAGTCCA GCCGTGGCTC TGCAGCAGCA AGCTCCGCTC ACACAGGAAA AGAGAGCGGC
    TCCGGCAGAC AGGAGCCCTC ACACTGGTGC CTGCTGGTTA GAGAGAATGG AGTCATGGAG
    ATCTACCAGC TTCCAGACTG GCGTTTGGTT TTCCTGGTGA AAAATTTCCC AGTCGGTCAG
    CGTGTTTTGG TTGACAGCTC TGCCAGCCAG TCAGCTACTC AAGGGGAGCT TAAAAAAGAG
    GAAGTGACGA GGCAAGGTGA CATTCCATTG GTCAAAGAGG TTGCTCTTGT GTCATTAGGC
    TACAACCACA GCCGTCCCTA CCTTCTGGCT CATGTTGAAC AAGAGCTTCT CATCTATGAG
    GCCTTTCCGT ACGACCAGCA GCAAGCTCAA AGCAACCTGA AAGTGCGCTT CAAGAAGATG
    CCTCATAACA TTAACTACAG AGAGAAGAAG GTCAAAGTGA GGAAGGACAA GAAGCCTGAG
    GGTCAGGGAG AGGACACTCT CGGCGTCAAA GGTCGTGTGG CCAGATTCAG ATACTTCCAG
    GACATCTCTG GATACTCAGG GGTGTTTATC TGTGGTCCCT CTCCACACTG GATGTTGGTG
    ACCTCTCGCG GGGCGATGCG CCTCCACCCC ATGACAATAG ATGGAGCCAT TGAGTCTTTC
    TCTCCCTTTC ACAATATCAA CTGCCCCAAA GGATTTCTCT ACTTCAACAA ACAGGGTGAG
    CTGAGGATCA GTGTGTTGCC AACATACCTC TCTTATGATG CTCCCTGGCC TGTGCGCAAG
    ATCCCTCTTA GGTGCACCGT CCACTATGTA TCATACCATG TGGAATCCAA GGTGTATGCA
    GTGTGCACCA GTGTTAAAGA GCCGTGCACG CGCATCCCCA GAATGACTGG AGAAGAGAAG
    GAATTTGAGA CCATTGAAAG AGACGAGCGA TATATTCACC CTCAACAGGA CAAGTTCTCA
    ATTCAGCTCA TCTCTCCAGT GAGCTGGGAG GCGATTCCAA ACACACGCGT TGACCTTGAG
    GAGTGGGAGC ATGTGACGTG CATGAAGACG GTGGCTCTGA AGAGTCAGGA GACAGTGTCA
    GGACTAAAGG GATACGTGGC TCTTGGGACG TGTCTCATGC AGGGAGAAGA GGTCACCTGT
    AGAGGCAGAA TCCTGATTCT GGATGTGATA GAGGTGGTCC CAGAGCCCGG ACAGCCCCTC
    ACCAAGAACA AGTTTAAAGT GCTGTATGAA AAGGAGCAGA AAGGTCCCGT CACTGCTCTT
    TGTCACTGCA GTGGATTCCT GGTGTCTGCT ATTGGACAGA AGATCTTCCT GTGGAGTCTG
    AAGGATAATG ATCTGACGGG AATGGCATTC ATTGACACAC AGCTCTACAT TCATCAGATG
    TACAGCATCA AGAACTTCAT CCTCGCAGCA GATGTGATGA AGAGCATCTC TCTGCTGCGC
    TACCAGCCGG AGAGCAAGAC GCTTTCACTC GTCAGCAGGG ATGCAAAGCC CCTTGAGGTT
    TACAGCATAG AGTTTATGGT AGACAATAAC CAGCTTGGTT TTTTGGTTTC AGACAGAGAC
    AAAAACCTTA TGGTCTACAT GTACCTGCCT GAAGCCAAAG AGAGTTTTGG AGGCATGCGT
    TTGTTGCGGA GAGCAGATTT TAACGTGGGA TCGCATGTGA ACGCCTTCTG GAGGATGCCA
    TGCCGCGGGA CACTGGACAC AGCCAACAAG AAGGCCCTCA CCTGGGACAA CAAACACATC
    ACCTGGTTTG CTACGCTGGA TGGTGGTGTC GGTCTGCTTT TACCAATGCA GGAGAAGACG
    TACCGCAGAC TGCTGATGTT GCAGAACGCT CTCACCACCA TGCTGCCACA TCATGCCGGG
    CTCAATCCAA AGGCTTTCAG GATGCTGCAC TGTGACCGGC GAACGCTCCA GAATGCTGTC
    AAGAACATCC TGGATGGAGA GCTGCTCAAT AAATACCTGT ATCTCAGTAC CATGGAGAGA
    AGTGAACTGG CCAAGAAGAT CGGCACGACC CCTGACATTA TCTTGGATGA TCTTCTGGAG
    ATTGAAAGAG TCACTGCTCA CTTCTGA

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

    RefSeq XP_005159641.1
    CDS171..4517
    Translation

    Target ORF information:

    RefSeq Version XM_005159584.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio cleavage and polyadenylation specific factor 1 (cpsf1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005159584.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTACGCGG TGTACCGTCA GGCTCACCCG CCCACCGCAG TGGAGTTTGC CGTTTACTGC 
    AACTTCATCT CCAGCCAAGA GAAAAACTTG GTGGTGGCAG GAACATCTCA GCTGTACGTC
    TACAGGATCA TTTATGATGT GGAGAGCACT TCCAAGTCTG AAAAGTCATC AGATGGCAAG
    AGTCGTAAAG AGAAACTGGA GCAGGTGGCA TCTTTCTCTC TCTTTGGAAA TGTGATGTCA
    ATGGCCAGCG TTCAGCTGGT GGGCACCAAC AGAGACGCCT TGCTTCTCAG CTTCAAAGAT
    GCCAAGCTGT CAGTAGTGGA GTATGACCCT GGCACGCATG ATCTCAAGAC TCTGTCGCTG
    CATTATTTTG AGGAACCGGA GTTGAGAGAT GGGTTTGTTC AGAATGTGCA CATTCCTATG
    GTTCGAGTGG ATCCAGAGAA TCGATGTGCT GTCATGCTGG TGTACGGCAC TTGCCTGGTG
    GTTCTGCCTT TCAGGAAGGA CACGCTTGCT GACGAACAGG AGGGGATTGT GGGAGAGGGG
    CAGAAATCTA GTTTCCTACC CAGCTACATC ATCGATGTTC GTGAACTGGA TGAGAAACTC
    CTAAACATCA TCGATATGAA GTTTCTCCAT GGCTACTATG AGCCCACACT GCTTATTCTG
    TTCGAGCCCA ATCAAACATG GCCAGGGCGT GTGGCGGTGC GTCAGGACAC TTGCAGTATT
    GTGGCGATCT CTCTAAACAT CATGCAGAAG GTTCATCCAG TCATCTGGTC TCTGAGTAAC
    CTGCCCTTTG ACTGCAATCA GGTCATGGCT GTCCCCAAAC CCATCGGTGG AGTTGTGGTG
    TTTGCTGTGA ATTCGTTGCT GTATCTTAAT CAGAGTGTTC CTCCGTTTGG AGTGTCTCTC
    AACAGTCTGA CTAACGGAAC CACAGCTTTC CCTTTGAGAC CTCAGGAGGA AGTAAAGATC
    ACCCTGGATT GTTCTCAAGC CTCCTTCATC ACCTCTGACA AGATGGTCAT CTCACTAAAA
    GGAGGAGAAA TTTATGTGTT GACGCTCATC ACTGATGGCA TGAGAAGTGT TCGTGCGTTT
    CACTTTGATA AGGCTGCTGC CAGTGTCCTG ACTACCTGTA TGATGACTAT GGAGCCAGGC
    TATCTGTTTT TGGGCTCTCG CCTGGGAAAC TCACTGCTGC TCAGGTACAC TGAGAAACTC
    CAGGAAACAC CCATGGAGGA GGGCAAAGAG AATGAGGAGA AGGAGAAACA GGAAGAGCCT
    CCAAATAAGA AAAAACGTGT GGATTCCAAC TGGGCAGGAA AGGGCAATCT ACCTGATGAG
    CTGGATGAAA TTGAGGTGTA TGGGAGTGAA GCTCAGTCAG GCACTCAGCT GGCCACATAC
    TCATTTGAGG TTTGTGACAG CATACTAAAC ATTGGACCCT GTGCCAGTGC CTCCATGGGA
    GAACCAGCTT TTCTGTCTGA AGAGTTTCAA ACCAACCCTG AGCCAGATCT GGAGGTGGTG
    GTGTGTTCAG GATATGGCAA GAATGGAGCA CTGTCTGTAT TACAGAAAAG CATCAGACCA
    CAGGTGGTGA CGACGTTCGA ACTTCCTGGA TGCCATGACA TGTGGACAGT CATATACTGT
    GAGGAGAAAC CCGAAAAGCC TTCAGCTGAG GGTGATGGAG AGAGTCCTGA GGAGGAGAAG
    CGCGAGCCCA CAATAGAGGA TGACAAGAAG AAACACGGCT TCCTCATCCT CAGCAGAGAA
    GACTCCACCA TGATTCTCCA GACGGGTCAA GAGATCATGG AACTGGACAC CAGTGGATTC
    GCCACACAGG GTCCTACAGT TTACGCGGGC AACATCGGAG ACAATAAATA CATCATCCAG
    GTGTCCCCCA TGGGCATCAG ACTGCTCGAG GGAGTTAATC AGCTCCACTT TATCCCTGTG
    GACCTGGGCT CTCCCATAGT GCACTGCTCT GTGGCCGATC CTTACGTGGT CATCATGACG
    GCAGAGGGAG TGGTCACTAT GTTTGTCTTG AAGAATGACT CGTATATGGG AAAGAGTCAC
    CGCCTGGCAC TTCAGAAACC ACAGATACAC ACGCAATCAC GTGTTATTAC GTTATGTGCA
    TATCGCGATG TCAGTGGTAT GTTCACAACT GAGAACAAGG TCAGCTTCCT GGCAAAAGAG
    GAAATTGCTA TCAGAACCAA CTCAGAGACA GAAACCATCA TCCAGGACAT CAGTAATACA
    GTGGATGATG AAGAGGAGAT GCTGTACGGG GAGTCAAACC CCCTGACGAG CCCCAACAAA
    GAAGAGTCCA GCCGTGGCTC TGCAGCAGCA AGCTCCGCTC ACACAGGAAA AGAGAGCGGC
    TCCGGCAGAC AGGAGCCCTC ACACTGGTGC CTGCTGGTTA GAGAGAATGG AGTCATGGAG
    ATCTACCAGC TTCCAGACTG GCGTTTGGTT TTCCTGGTGA AAAATTTCCC AGTCGGTCAG
    CGTGTTTTGG TTGACAGCTC TGCCAGCCAG TCAGCTACTC AAGGGGAGCT TAAAAAAGAG
    GAAGTGACGA GGCAAGGTGA CATTCCATTG GTCAAAGAGG TTGCTCTTGT GTCATTAGGC
    TACAACCACA GCCGTCCCTA CCTTCTGGCT CATGTTGAAC AAGAGCTTCT CATCTATGAG
    GCCTTTCCGT ACGACCAGCA GCAAGCTCAA AGCAACCTGA AAGTGCGCTT CAAGAAGATG
    CCTCATAACA TTAACTACAG AGAGAAGAAG GTCAAAGTGA GGAAGGACAA GAAGCCTGAG
    GGTCAGGGAG AGGACACTCT CGGCGTCAAA GGTCGTGTGG CCAGATTCAG ATACTTCCAG
    GACATCTCTG GATACTCAGG GGTGTTTATC TGTGGTCCCT CTCCACACTG GATGTTGGTG
    ACCTCTCGCG GGGCGATGCG CCTCCACCCC ATGACAATAG ATGGAGCCAT TGAGTCTTTC
    TCTCCCTTTC ACAATATCAA CTGCCCCAAA GGATTTCTCT ACTTCAACAA ACAGGGTGAG
    CTGAGGATCA GTGTGTTGCC AACATACCTC TCTTATGATG CTCCCTGGCC TGTGCGCAAG
    ATCCCTCTTA GGTGCACCGT CCACTATGTA TCATACCATG TGGAATCCAA GGTGTATGCA
    GTGTGCACCA GTGTTAAAGA GCCGTGCACG CGCATCCCCA GAATGACTGG AGAAGAGAAG
    GAATTTGAGA CCATTGAAAG AGACGAGCGA TATATTCACC CTCAACAGGA CAAGTTCTCA
    ATTCAGCTCA TCTCTCCAGT GAGCTGGGAG GCGATTCCAA ACACACGCGT TGACCTTGAG
    GAGTGGGAGC ATGTGACGTG CATGAAGACG GTGGCTCTGA AGAGTCAGGA GACAGTGTCA
    GGACTAAAGG GATACGTGGC TCTTGGGACG TGTCTCATGC AGGGAGAAGA GGTCACCTGT
    AGAGGCAGAA TCCTGATTCT GGATGTGATA GAGGTGGTCC CAGAGCCCGG ACAGCCCCTC
    ACCAAGAACA AGTTTAAAGT GCTGTATGAA AAGGAGCAGA AAGGTCCCGT CACTGCTCTT
    TGTCACTGCA GTGGATTCCT GGTGTCTGCT ATTGGACAGA AGATCTTCCT GTGGAGTCTG
    AAGGATAATG ATCTGACGGG AATGGCATTC ATTGACACAC AGCTCTACAT TCATCAGATG
    TACAGCATCA AGAACTTCAT CCTCGCAGCA GATGTGATGA AGAGCATCTC TCTGCTGCGC
    TACCAGCCGG AGAGCAAGAC GCTTTCACTC GTCAGCAGGG ATGCAAAGCC CCTTGAGGTT
    TACAGCATAG AGTTTATGGT AGACAATAAC CAGCTTGGTT TTTTGGTTTC AGACAGAGAC
    AAAAACCTTA TGGTCTACAT GTACCTGCCT GAAGCCAAAG AGAGTTTTGG AGGCATGCGT
    TTGTTGCGGA GAGCAGATTT TAACGTGGGA TCGCATGTGA ACGCCTTCTG GAGGATGCCA
    TGCCGCGGGA CACTGGACAC AGCCAACAAG AAGGCCCTCA CCTGGGACAA CAAACACATC
    ACCTGGTTTG CTACGCTGGA TGGTGGTGTC GGTCTGCTTT TACCAATGCA GGAGAAGACG
    TACCGCAGAC TGCTGATGTT GCAGAACGCT CTCACCACCA TGCTGCCACA TCATGCCGGG
    CTCAATCCAA AGGCTTTCAG GATGCTGCAC TGTGACCGGC GAACGCTCCA GAATGCTGTC
    AAGAACATCC TGGATGGAGA GCTGCTCAAT AAATACCTGT ATCTCAGTAC CATGGAGAGA
    AGTGAACTGG CCAAGAAGAT CGGCACGACC CCTGACATTA TCTTGGATGA TCTTCTGGAG
    ATTGAAAGAG TCACTGCTCA CTTCTGA

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

    CloneID ODa23997
    Clone ID Related Accession (Same CDS sequence) XM_005159584.3 , XM_005159584.4
    Accession Version XM_005159584.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4347bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product cleavage and polyadenylation specificity factor subunit 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007130.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005159584.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTACGCGG TGTACCGTCA GGCTCACCCG CCCACCGCAG TGGAGTTTGC CGTTTACTGC 
    AACTTCATCT CCAGCCAAGA GAAAAACTTG GTGGTGGCAG GAACATCTCA GCTGTACGTC
    TACAGGATCA TTTATGATGT GGAGAGCACT TCCAAGTCTG AAAAGTCATC AGATGGCAAG
    AGTCGTAAAG AGAAACTGGA GCAGGTGGCA TCTTTCTCTC TCTTTGGAAA TGTGATGTCA
    ATGGCCAGCG TTCAGCTGGT GGGCACCAAC AGAGACGCCT TGCTTCTCAG CTTCAAAGAT
    GCCAAGCTGT CAGTAGTGGA GTATGACCCT GGCACGCATG ATCTCAAGAC TCTGTCGCTG
    CATTATTTTG AGGAACCGGA GTTGAGAGAT GGGTTTGTTC AGAATGTGCA CATTCCTATG
    GTTCGAGTGG ATCCAGAGAA TCGATGTGCT GTCATGCTGG TGTACGGCAC TTGCCTGGTG
    GTTCTGCCTT TCAGGAAGGA CACGCTTGCT GACGAACAGG AGGGGATTGT GGGAGAGGGG
    CAGAAATCTA GTTTCCTACC CAGCTACATC ATCGATGTTC GTGAACTGGA TGAGAAACTC
    CTAAACATCA TCGATATGAA GTTTCTCCAT GGCTACTATG AGCCCACACT GCTTATTCTG
    TTCGAGCCCA ATCAAACATG GCCAGGGCGT GTGGCGGTGC GTCAGGACAC TTGCAGTATT
    GTGGCGATCT CTCTAAACAT CATGCAGAAG GTTCATCCAG TCATCTGGTC TCTGAGTAAC
    CTGCCCTTTG ACTGCAATCA GGTCATGGCT GTCCCCAAAC CCATCGGTGG AGTTGTGGTG
    TTTGCTGTGA ATTCGTTGCT GTATCTTAAT CAGAGTGTTC CTCCGTTTGG AGTGTCTCTC
    AACAGTCTGA CTAACGGAAC CACAGCTTTC CCTTTGAGAC CTCAGGAGGA AGTAAAGATC
    ACCCTGGATT GTTCTCAAGC CTCCTTCATC ACCTCTGACA AGATGGTCAT CTCACTAAAA
    GGAGGAGAAA TTTATGTGTT GACGCTCATC ACTGATGGCA TGAGAAGTGT TCGTGCGTTT
    CACTTTGATA AGGCTGCTGC CAGTGTCCTG ACTACCTGTA TGATGACTAT GGAGCCAGGC
    TATCTGTTTT TGGGCTCTCG CCTGGGAAAC TCACTGCTGC TCAGGTACAC TGAGAAACTC
    CAGGAAACAC CCATGGAGGA GGGCAAAGAG AATGAGGAGA AGGAGAAACA GGAAGAGCCT
    CCAAATAAGA AAAAACGTGT GGATTCCAAC TGGGCAGGAA AGGGCAATCT ACCTGATGAG
    CTGGATGAAA TTGAGGTGTA TGGGAGTGAA GCTCAGTCAG GCACTCAGCT GGCCACATAC
    TCATTTGAGG TTTGTGACAG CATACTAAAC ATTGGACCCT GTGCCAGTGC CTCCATGGGA
    GAACCAGCTT TTCTGTCTGA AGAGTTTCAA ACCAACCCTG AGCCAGATCT GGAGGTGGTG
    GTGTGTTCAG GATATGGCAA GAATGGAGCA CTGTCTGTAT TACAGAAAAG CATCAGACCA
    CAGGTGGTGA CGACGTTCGA ACTTCCTGGA TGCCATGACA TGTGGACAGT CATATACTGT
    GAGGAGAAAC CCGAAAAGCC TTCAGCTGAG GGTGATGGAG AGAGTCCTGA GGAGGAGAAG
    CGCGAGCCCA CAATAGAGGA TGACAAGAAG AAACACGGCT TCCTCATCCT CAGCAGAGAA
    GACTCCACCA TGATTCTCCA GACGGGTCAA GAGATCATGG AACTGGACAC CAGTGGATTC
    GCCACACAGG GTCCTACAGT TTACGCGGGC AACATCGGAG ACAATAAATA CATCATCCAG
    GTGTCCCCCA TGGGCATCAG ACTGCTCGAG GGAGTTAATC AGCTCCACTT TATCCCTGTG
    GACCTGGGCT CTCCCATAGT GCACTGCTCT GTGGCCGATC CTTACGTGGT CATCATGACG
    GCAGAGGGAG TGGTCACTAT GTTTGTCTTG AAGAATGACT CGTATATGGG AAAGAGTCAC
    CGCCTGGCAC TTCAGAAACC ACAGATACAC ACGCAATCAC GTGTTATTAC GTTATGTGCA
    TATCGCGATG TCAGTGGTAT GTTCACAACT GAGAACAAGG TCAGCTTCCT GGCAAAAGAG
    GAAATTGCTA TCAGAACCAA CTCAGAGACA GAAACCATCA TCCAGGACAT CAGTAATACA
    GTGGATGATG AAGAGGAGAT GCTGTACGGG GAGTCAAACC CCCTGACGAG CCCCAACAAA
    GAAGAGTCCA GCCGTGGCTC TGCAGCAGCA AGCTCCGCTC ACACAGGAAA AGAGAGCGGC
    TCCGGCAGAC AGGAGCCCTC ACACTGGTGC CTGCTGGTTA GAGAGAATGG AGTCATGGAG
    ATCTACCAGC TTCCAGACTG GCGTTTGGTT TTCCTGGTGA AAAATTTCCC AGTCGGTCAG
    CGTGTTTTGG TTGACAGCTC TGCCAGCCAG TCAGCTACTC AAGGGGAGCT TAAAAAAGAG
    GAAGTGACGA GGCAAGGTGA CATTCCATTG GTCAAAGAGG TTGCTCTTGT GTCATTAGGC
    TACAACCACA GCCGTCCCTA CCTTCTGGCT CATGTTGAAC AAGAGCTTCT CATCTATGAG
    GCCTTTCCGT ACGACCAGCA GCAAGCTCAA AGCAACCTGA AAGTGCGCTT CAAGAAGATG
    CCTCATAACA TTAACTACAG AGAGAAGAAG GTCAAAGTGA GGAAGGACAA GAAGCCTGAG
    GGTCAGGGAG AGGACACTCT CGGCGTCAAA GGTCGTGTGG CCAGATTCAG ATACTTCCAG
    GACATCTCTG GATACTCAGG GGTGTTTATC TGTGGTCCCT CTCCACACTG GATGTTGGTG
    ACCTCTCGCG GGGCGATGCG CCTCCACCCC ATGACAATAG ATGGAGCCAT TGAGTCTTTC
    TCTCCCTTTC ACAATATCAA CTGCCCCAAA GGATTTCTCT ACTTCAACAA ACAGGGTGAG
    CTGAGGATCA GTGTGTTGCC AACATACCTC TCTTATGATG CTCCCTGGCC TGTGCGCAAG
    ATCCCTCTTA GGTGCACCGT CCACTATGTA TCATACCATG TGGAATCCAA GGTGTATGCA
    GTGTGCACCA GTGTTAAAGA GCCGTGCACG CGCATCCCCA GAATGACTGG AGAAGAGAAG
    GAATTTGAGA CCATTGAAAG AGACGAGCGA TATATTCACC CTCAACAGGA CAAGTTCTCA
    ATTCAGCTCA TCTCTCCAGT GAGCTGGGAG GCGATTCCAA ACACACGCGT TGACCTTGAG
    GAGTGGGAGC ATGTGACGTG CATGAAGACG GTGGCTCTGA AGAGTCAGGA GACAGTGTCA
    GGACTAAAGG GATACGTGGC TCTTGGGACG TGTCTCATGC AGGGAGAAGA GGTCACCTGT
    AGAGGCAGAA TCCTGATTCT GGATGTGATA GAGGTGGTCC CAGAGCCCGG ACAGCCCCTC
    ACCAAGAACA AGTTTAAAGT GCTGTATGAA AAGGAGCAGA AAGGTCCCGT CACTGCTCTT
    TGTCACTGCA GTGGATTCCT GGTGTCTGCT ATTGGACAGA AGATCTTCCT GTGGAGTCTG
    AAGGATAATG ATCTGACGGG AATGGCATTC ATTGACACAC AGCTCTACAT TCATCAGATG
    TACAGCATCA AGAACTTCAT CCTCGCAGCA GATGTGATGA AGAGCATCTC TCTGCTGCGC
    TACCAGCCGG AGAGCAAGAC GCTTTCACTC GTCAGCAGGG ATGCAAAGCC CCTTGAGGTT
    TACAGCATAG AGTTTATGGT AGACAATAAC CAGCTTGGTT TTTTGGTTTC AGACAGAGAC
    AAAAACCTTA TGGTCTACAT GTACCTGCCT GAAGCCAAAG AGAGTTTTGG AGGCATGCGT
    TTGTTGCGGA GAGCAGATTT TAACGTGGGA TCGCATGTGA ACGCCTTCTG GAGGATGCCA
    TGCCGCGGGA CACTGGACAC AGCCAACAAG AAGGCCCTCA CCTGGGACAA CAAACACATC
    ACCTGGTTTG CTACGCTGGA TGGTGGTGTC GGTCTGCTTT TACCAATGCA GGAGAAGACG
    TACCGCAGAC TGCTGATGTT GCAGAACGCT CTCACCACCA TGCTGCCACA TCATGCCGGG
    CTCAATCCAA AGGCTTTCAG GATGCTGCAC TGTGACCGGC GAACGCTCCA GAATGCTGTC
    AAGAACATCC TGGATGGAGA GCTGCTCAAT AAATACCTGT ATCTCAGTAC CATGGAGAGA
    AGTGAACTGG CCAAGAAGAT CGGCACGACC CCTGACATTA TCTTGGATGA TCTTCTGGAG
    ATTGAAAGAG TCACTGCTCA CTTCTGA

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

    RefSeq XP_005159641.1
    CDS190..4536
    Translation

    Target ORF information:

    RefSeq Version XM_005159584.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio cleavage and polyadenylation specific factor 1 (cpsf1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005159584.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTACGCGG TGTACCGTCA GGCTCACCCG CCCACCGCAG TGGAGTTTGC CGTTTACTGC 
    AACTTCATCT CCAGCCAAGA GAAAAACTTG GTGGTGGCAG GAACATCTCA GCTGTACGTC
    TACAGGATCA TTTATGATGT GGAGAGCACT TCCAAGTCTG AAAAGTCATC AGATGGCAAG
    AGTCGTAAAG AGAAACTGGA GCAGGTGGCA TCTTTCTCTC TCTTTGGAAA TGTGATGTCA
    ATGGCCAGCG TTCAGCTGGT GGGCACCAAC AGAGACGCCT TGCTTCTCAG CTTCAAAGAT
    GCCAAGCTGT CAGTAGTGGA GTATGACCCT GGCACGCATG ATCTCAAGAC TCTGTCGCTG
    CATTATTTTG AGGAACCGGA GTTGAGAGAT GGGTTTGTTC AGAATGTGCA CATTCCTATG
    GTTCGAGTGG ATCCAGAGAA TCGATGTGCT GTCATGCTGG TGTACGGCAC TTGCCTGGTG
    GTTCTGCCTT TCAGGAAGGA CACGCTTGCT GACGAACAGG AGGGGATTGT GGGAGAGGGG
    CAGAAATCTA GTTTCCTACC CAGCTACATC ATCGATGTTC GTGAACTGGA TGAGAAACTC
    CTAAACATCA TCGATATGAA GTTTCTCCAT GGCTACTATG AGCCCACACT GCTTATTCTG
    TTCGAGCCCA ATCAAACATG GCCAGGGCGT GTGGCGGTGC GTCAGGACAC TTGCAGTATT
    GTGGCGATCT CTCTAAACAT CATGCAGAAG GTTCATCCAG TCATCTGGTC TCTGAGTAAC
    CTGCCCTTTG ACTGCAATCA GGTCATGGCT GTCCCCAAAC CCATCGGTGG AGTTGTGGTG
    TTTGCTGTGA ATTCGTTGCT GTATCTTAAT CAGAGTGTTC CTCCGTTTGG AGTGTCTCTC
    AACAGTCTGA CTAACGGAAC CACAGCTTTC CCTTTGAGAC CTCAGGAGGA AGTAAAGATC
    ACCCTGGATT GTTCTCAAGC CTCCTTCATC ACCTCTGACA AGATGGTCAT CTCACTAAAA
    GGAGGAGAAA TTTATGTGTT GACGCTCATC ACTGATGGCA TGAGAAGTGT TCGTGCGTTT
    CACTTTGATA AGGCTGCTGC CAGTGTCCTG ACTACCTGTA TGATGACTAT GGAGCCAGGC
    TATCTGTTTT TGGGCTCTCG CCTGGGAAAC TCACTGCTGC TCAGGTACAC TGAGAAACTC
    CAGGAAACAC CCATGGAGGA GGGCAAAGAG AATGAGGAGA AGGAGAAACA GGAAGAGCCT
    CCAAATAAGA AAAAACGTGT GGATTCCAAC TGGGCAGGAA AGGGCAATCT ACCTGATGAG
    CTGGATGAAA TTGAGGTGTA TGGGAGTGAA GCTCAGTCAG GCACTCAGCT GGCCACATAC
    TCATTTGAGG TTTGTGACAG CATACTAAAC ATTGGACCCT GTGCCAGTGC CTCCATGGGA
    GAACCAGCTT TTCTGTCTGA AGAGTTTCAA ACCAACCCTG AGCCAGATCT GGAGGTGGTG
    GTGTGTTCAG GATATGGCAA GAATGGAGCA CTGTCTGTAT TACAGAAAAG CATCAGACCA
    CAGGTGGTGA CGACGTTCGA ACTTCCTGGA TGCCATGACA TGTGGACAGT CATATACTGT
    GAGGAGAAAC CCGAAAAGCC TTCAGCTGAG GGTGATGGAG AGAGTCCTGA GGAGGAGAAG
    CGCGAGCCCA CAATAGAGGA TGACAAGAAG AAACACGGCT TCCTCATCCT CAGCAGAGAA
    GACTCCACCA TGATTCTCCA GACGGGTCAA GAGATCATGG AACTGGACAC CAGTGGATTC
    GCCACACAGG GTCCTACAGT TTACGCGGGC AACATCGGAG ACAATAAATA CATCATCCAG
    GTGTCCCCCA TGGGCATCAG ACTGCTCGAG GGAGTTAATC AGCTCCACTT TATCCCTGTG
    GACCTGGGCT CTCCCATAGT GCACTGCTCT GTGGCCGATC CTTACGTGGT CATCATGACG
    GCAGAGGGAG TGGTCACTAT GTTTGTCTTG AAGAATGACT CGTATATGGG AAAGAGTCAC
    CGCCTGGCAC TTCAGAAACC ACAGATACAC ACGCAATCAC GTGTTATTAC GTTATGTGCA
    TATCGCGATG TCAGTGGTAT GTTCACAACT GAGAACAAGG TCAGCTTCCT GGCAAAAGAG
    GAAATTGCTA TCAGAACCAA CTCAGAGACA GAAACCATCA TCCAGGACAT CAGTAATACA
    GTGGATGATG AAGAGGAGAT GCTGTACGGG GAGTCAAACC CCCTGACGAG CCCCAACAAA
    GAAGAGTCCA GCCGTGGCTC TGCAGCAGCA AGCTCCGCTC ACACAGGAAA AGAGAGCGGC
    TCCGGCAGAC AGGAGCCCTC ACACTGGTGC CTGCTGGTTA GAGAGAATGG AGTCATGGAG
    ATCTACCAGC TTCCAGACTG GCGTTTGGTT TTCCTGGTGA AAAATTTCCC AGTCGGTCAG
    CGTGTTTTGG TTGACAGCTC TGCCAGCCAG TCAGCTACTC AAGGGGAGCT TAAAAAAGAG
    GAAGTGACGA GGCAAGGTGA CATTCCATTG GTCAAAGAGG TTGCTCTTGT GTCATTAGGC
    TACAACCACA GCCGTCCCTA CCTTCTGGCT CATGTTGAAC AAGAGCTTCT CATCTATGAG
    GCCTTTCCGT ACGACCAGCA GCAAGCTCAA AGCAACCTGA AAGTGCGCTT CAAGAAGATG
    CCTCATAACA TTAACTACAG AGAGAAGAAG GTCAAAGTGA GGAAGGACAA GAAGCCTGAG
    GGTCAGGGAG AGGACACTCT CGGCGTCAAA GGTCGTGTGG CCAGATTCAG ATACTTCCAG
    GACATCTCTG GATACTCAGG GGTGTTTATC TGTGGTCCCT CTCCACACTG GATGTTGGTG
    ACCTCTCGCG GGGCGATGCG CCTCCACCCC ATGACAATAG ATGGAGCCAT TGAGTCTTTC
    TCTCCCTTTC ACAATATCAA CTGCCCCAAA GGATTTCTCT ACTTCAACAA ACAGGGTGAG
    CTGAGGATCA GTGTGTTGCC AACATACCTC TCTTATGATG CTCCCTGGCC TGTGCGCAAG
    ATCCCTCTTA GGTGCACCGT CCACTATGTA TCATACCATG TGGAATCCAA GGTGTATGCA
    GTGTGCACCA GTGTTAAAGA GCCGTGCACG CGCATCCCCA GAATGACTGG AGAAGAGAAG
    GAATTTGAGA CCATTGAAAG AGACGAGCGA TATATTCACC CTCAACAGGA CAAGTTCTCA
    ATTCAGCTCA TCTCTCCAGT GAGCTGGGAG GCGATTCCAA ACACACGCGT TGACCTTGAG
    GAGTGGGAGC ATGTGACGTG CATGAAGACG GTGGCTCTGA AGAGTCAGGA GACAGTGTCA
    GGACTAAAGG GATACGTGGC TCTTGGGACG TGTCTCATGC AGGGAGAAGA GGTCACCTGT
    AGAGGCAGAA TCCTGATTCT GGATGTGATA GAGGTGGTCC CAGAGCCCGG ACAGCCCCTC
    ACCAAGAACA AGTTTAAAGT GCTGTATGAA AAGGAGCAGA AAGGTCCCGT CACTGCTCTT
    TGTCACTGCA GTGGATTCCT GGTGTCTGCT ATTGGACAGA AGATCTTCCT GTGGAGTCTG
    AAGGATAATG ATCTGACGGG AATGGCATTC ATTGACACAC AGCTCTACAT TCATCAGATG
    TACAGCATCA AGAACTTCAT CCTCGCAGCA GATGTGATGA AGAGCATCTC TCTGCTGCGC
    TACCAGCCGG AGAGCAAGAC GCTTTCACTC GTCAGCAGGG ATGCAAAGCC CCTTGAGGTT
    TACAGCATAG AGTTTATGGT AGACAATAAC CAGCTTGGTT TTTTGGTTTC AGACAGAGAC
    AAAAACCTTA TGGTCTACAT GTACCTGCCT GAAGCCAAAG AGAGTTTTGG AGGCATGCGT
    TTGTTGCGGA GAGCAGATTT TAACGTGGGA TCGCATGTGA ACGCCTTCTG GAGGATGCCA
    TGCCGCGGGA CACTGGACAC AGCCAACAAG AAGGCCCTCA CCTGGGACAA CAAACACATC
    ACCTGGTTTG CTACGCTGGA TGGTGGTGTC GGTCTGCTTT TACCAATGCA GGAGAAGACG
    TACCGCAGAC TGCTGATGTT GCAGAACGCT CTCACCACCA TGCTGCCACA TCATGCCGGG
    CTCAATCCAA AGGCTTTCAG GATGCTGCAC TGTGACCGGC GAACGCTCCA GAATGCTGTC
    AAGAACATCC TGGATGGAGA GCTGCTCAAT AAATACCTGT ATCTCAGTAC CATGGAGAGA
    AGTGAACTGG CCAAGAAGAT CGGCACGACC CCTGACATTA TCTTGGATGA TCTTCTGGAG
    ATTGAAAGAG TCACTGCTCA CTTCTGA

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