ORF » Species Summary » Danio rerio » SCAF1 cDNA ORF clone

SCAF1 cDNA ORF clone, Danio rerio(Zebrafish)

The following SCAF1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SCAF1 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
ODa08505 XM_005164068.4
Latest version!		 Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ODa08506 XM_005164069.4
Latest version!		 Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
View Old Accession Versions >>
ODa08505 XM_005164068.3 Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ODa08506 XM_005164069.3 Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
Hide Old Accession Versions >>

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** 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)
    SCAF1 ( XM_005164068.4 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_005164125.1 Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa08505
    Clone ID Related Accession (Same CDS sequence) XM_005164068.4 , XM_005164068.3
    Accession Version XM_005164068.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4710bp)
    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 splicing factor, arginine/serine-rich 19 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007114.7) 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_005164068.3. ##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
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAAGATGG GAACAGATGG ACAGGCTGAA AAGGATGAAG CAGATGTTGT GCCAGGAGAG 
    TCACAGACTG AACAATCTCC TAATGAAGAG GAGGAAGTGG AGTCTAAAAC AGACAGAAGG 
    ACACTTGGCT TAAGATGTTT CCAAGGAAAC AGAGAGACCT CAGAGGATGA GCCTAGTGAA 
    CTGGGTGCTG CAGCTGTTGC TTCTTCTGAG CCTGTGTTTC TTGTGCCTCA GCTAAGCTCA 
    CATCCTCAGT TTCTGGGCTG CGATTTTGAT GTGGAGTTAA CCGCAGAAGT GAAAGTAGAT 
    GATGGTGCAT CTCTTGCTTT GTTGACATCT GTTACCCCAA ACCTTCGTTA CCAGAAGCCA 
    GGTTCTTTTT TGAAAGAACA TCATCTCTTC CCACCATCTT TAAGGAAAAA GAGAGTATCT 
    ACAGACCATT TTTTTACTTC AGACTCTTTT CCTGGATTAT GCACTAGTGT ATTTGAAACC 
    CCGGAACAGA CGCACCTGCC TTGTTCTTTT AAAAACTCTG AGAGGATTAT AGAAATGGCC 
    AAAAGCCCTC TTCCCTCATC ACCATCCAAC TCACCATCAT CTCCTTCATC TGCTCCTTCT 
    TCACCCTCAT CGTCCCCCTC ATCATCATCT CCTGGTGGAA TGGGTACAAA CTACCAAGAG 
    AATGAAGACC GAGGCCATGC AGGTGATAAC AATGTCAGCA AAGGAAATGG AGACTTTGTG 
    TCATCCACTT CATCTTCTCT GGTGCCATCA TCAGTGCCTG TGCCGCCACC TTCTTCTGAT 
    CCTTCACTTC ATGCATCATC ATCATTTACA CATCCATGCA ATGATGGACA GAGCGAGAGT 
    TTAGAAAATG ATATATACGA CCCCTTTCAC CCAACTGAGG GTGAGGGGGA GAGAGACCGG 
    CCATCCACTG AAGACGAGGA TGAAGAGGTT GACAAGTATG ATCCGTTTGA ACCAACAGGT 
    TCTCCTGTAT CTGAAACAGA AGAAGAGAAA AGATGTTTCG ATGAGGAGAA TGAAGGAGGA 
    AGCAGCATTA TTAGTGAAGG GAATGTTAAA GCTGAAAAAG AAATGGAAAT CATGGAGCCT 
    GCTGGCACAG AGGCAGGCCC TCCAGATTCA ACAGAAACTG ATGCTCCATC TTCAGTCTTC 
    AATAATGTAC CTTTAGAACT CAGCACCAAG TGCTCCTTTA AAGACAGAAT GAGGGAACAG 
    GGGAAAATTA AAATACAAGG AACAGACTCT GAGCACTCTG AAATAGAAGA AGGAGAGATA 
    GTGGGGGCCA GTGAAAGAGT ACGAGAACGA GTGATTGAAA GAAGGAGAGA GGTGTTGCTT 
    CCATCCTCAA GTAGTCCTTC TTACCTCCAA GGTGGTGTCC CTAAGCCAGA GAGGATTTTG 
    CGAGTCTTGG AGGGTGATGG GTTTGTGTCT GTCCGTGCTG ATGAAGAATG GGAGAGGGAA 
    CCAGTGGCTT CTGTGGGTGT TGGAGACCTG AGGAGAAAAC TGACGAGTAG GCGGAAAGAG 
    AAATTTAGAT CATGCCCTTC TTCTGCATCT ATTTCACCTC CACCGACATC TGTTTTGCCT 
    TTACCTTCTT CATCTTTCCC AGGTTCACCA CCTCTATCCA CGGATAAAGG AAGAAGTCGC 
    AAATCATCCA AAAGTTCAAA GGACAGGGAT AGACGTAAGC GGAAGGAGGG AAGAGGAGAC 
    AAGGAAAAGA GAAAAAAGAG GAAAGAGGAG AAGGAATCAG GTGAAGGTAA AAGGGAAAGT 
    AAAGCGGGTG ACCATGAAAA TAGGAGTGAA AAAGAGATCA AAGACAAGGA TAGGGAACAA 
    AGAAGTAGTC GAAGTGATAG TCGCAGGAGG AAAAAGAGAC GCAGGAGCAC TCCAGAACAT 
    TCCTCCCGCT CCCACTCACA GAATGCCTCC CGACACAACA CGCATAGCCG CAGATCTTGG 
    TCCAGCCACT CAGAAGACAG GCACAAAGAT AAAGAGAGGG AGAGAGAGCG AGAAAGGAAC 
    CATGCAAGAG ACAGGGATAG GGACCGTTGG CGAGATGACA GGGATAGAGA GAGAGACAGA 
    GAATCCAGAA GAAGAGATGA AAGAAGGAGA GATAGAGAGG AAGATACTAG GAGGTCCAAT 
    AGCAGAGAGA GAGTCAATAC AAGAAGAAGC AGAGACAGGA GAGACAGAGA GAAAGAAATG 
    GTAAGAGACA GAGATCGAGA CAGGGACAGG AGAAGAGACA GCAGACCTGT TGTACCCCCG 
    TCAATTCAGG ATCTCAATGG CTCTGATCTT TTCGCAATTA AACGTACAAT TACTGTTACT 
    ACCACTACTA CCACCACCAC AGTCCCAAAT TCACCACCAC GTAGCCAACG GCGCTCCCAT 
    AGCCGATCTC AGAGTTCAGA CAAACATCGT AAGAGGAAGA AGAAACGCAG GAGACGATCA 
    GAGGATGAAG AAAGGAAGGA TGAGGGAAGC AGGAGCAGGT CCCGACCCAC CTCCCTCTCA 
    CCTCCTCGTT TTGGGTATGA ATCAGATCAT CTTTCAGACC GTCCTGAGGT AGACATGCTC 
    TCTTTGGATG GGGAAGCACT AGATTCAGAT TACCCTTCTC TAGAGGACTC ACCACTACTT 
    TCCCCTCCTC CTGAGCCCCC TATACCCAGT CCCAAAATTC AATCCGGAGC ACCTAAAACC 
    AGCCGTCATC ATCTGAAGAA GAAATCCAGA TCTGGCAAGA CAGTTGGTCA GTCTGAATCC 
    ACCTCATCCT CTTCTTCTCA TAGACCAAAA CCCAAAATTA AAAACCTTTC ATCTGTCTCA 
    CCACCTCTTT CTGCATCCTC AGGCAACACC AATTCCCTTC AGCCCACAGC TTCCTCATCT 
    ACTACCAAGC GGGAAAGGAA AACTGGTAAG GAAAAAGTTG GAAAGAAGGA TGCCGGGCGT 
    TCTGGGAGGT CCAAGAAGCT CAGTGGGGGC AGCAGAAAGG GTAAGCTCCA GTCTAAAGTG 
    TCTGTCCTAG TACGTGAGGG TGTTAGCAGC ACCACTGGAA ACTCTGGGAA ATTGGGCCTT 
    GATCTTCTTG GACCTGGTGG TGTTGTAAGT GGAGCTTCGG GGCCCTCAGT CGTTGGTGGG 
    TCTATTGCCG TGGTGTTCCG CCGAGACAAT GAGAGCCGGT CACCTTTTCT TAAGCCCTGC 
    TCAGATACAT TGGCTCTTCC CGGAAGAGGC AAAGACCCAA GCAAAACTGG GAAGCAACGC 
    AACATCCTCG GGCCTCCGTC ATCAACAAAC CAGAGTGGAC TGAAGCCTAA GAAAGCCAAG 
    CCAAGCTCTG CTACATCCAC ATCCTCATCT GCCTCTTCCC CTACTTCCTC ACTGGCAGCA 
    AAACGTAGAA GGAGGCCTGG AAAGAAGCCT AGAGAAAAAG GACTGACTGT GGATGGAAGT 
    GATTCTAAAG GTGCTAATAG TAGTTGTAGC ACAGTTGGTG GTGGTTGGGG CGGAGTATCA 
    ACAGAAATGC AGCCGTTGAT TGGGGTTGGA TCCAAGCCAT CCAGTCCTCC TTCAGCTCCT 
    CCTGGACCCA CTCCCTCATC CTCTTCATCG TCCTCCACTT CTTCATCAGC TAGTATCCTT 
    CCTCCATCCT CCTCACCACC ACACACATCC CCACTGTCTT TGCCTCCATC TCGAGATACA 
    AGAGAGTCGT CCCCAGACTC TCAAACTGTT GATAGTAGCT GCAAGACGCC AGAGCCTTCA 
    TTTCTCTTAG AGGATGGCCC TGTTCAGTCC AAAGCCTCAT CTCTTACACC ATCAAAGTCC 
    CCTGCCAGCC CTCCTGGTCT GCTGACATCA CAGATAAGGG GTGATACAAT ATCCCAGTCC 
    ACTACCATTT CTAAGCCTCC CCCACCAGAT GATCAAAAAG CATCGCCACC ATGCTCTACT 
    TCAGCTGCTT CATTGTCAGT TATCTCCCAT TCCAGTGCTA CGCTAGCAAA TGATCCTTCT 
    TCCTCCTCCT CCTCTTCAGT ATCTTCATCT TCAGTAAACA AGCCACCACC ACCTCCGCCT 
    CCACCCCCAT CAGCTCCACC ATTACCCTGG AGTCTACAAA CCGGAGTGGA CTGCACTGCT 
    GGAGGTGTTT TGGCATTGAC TGCTCTCCTT TTCAAAATGG AGGAGGCCAA TATAGCCAGT 
    AGAGCCAAAG CACAGGAGTT TATACAGGCT ACAAGTCAGA TTCTCTCTCA GGCCAATCAG 
    AACCAGTCAC AGCCTCACCC TTCTTCATCA TCTTGTTCAT CTGTTTCCTC ACAAGTTCCT 
    CCACCTCCAT CACATGCTCC ACCCCCAGGC CCCACTCCTG CGCAGTTTAT TCTTCACAGC 
    TCTGTTCCTA TGGTTGGCTG CACCAAAACC CCTCCCTCAC ACTTGCATTC TGGACTCTCC 
    ATGGGTGGAG GCTGTGCTCA AACTCCTCCA CCTCCAGGAT TAACTGGGCC AACAGGAGGC 
    AGTGAAACAG GCTGGGACAG TGAAAGCAAA GACCCAGATA AGTATCTGAA AAAGCTGCAC 
    ACCCAGGAGA GGGCAGTAGA GGAAGTCAAA TTGGCAATCA AGCCATATTA CCAGCGCAAG 
    GACATCAACA AAGATGACTA CAAGGATATT TTAAGGAAAG CTGTGCACAA GATTTGTCAC 
    AGCCGAACAG GCGAAATCAA TCCAGTGAAA GTGAGTAACC TGGTCAAGCT TTACGTCCAG 
    AGGTACAAAT ATTTCAGAAA GCACGGCCGC AAGATGGACG ACGAAGAGAG AGAAGACAGA 
    GAGTCTGCCT CCATGCATTC CTCATCATGA

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

    RefSeq XP_005164125.1
    CDS327..5036
    Translation

    Target ORF information:

    RefSeq Version XM_005164068.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005164068.4

    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
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAAGATGG GAACAGATGG ACAGGCTGAA AAGGATGAAG CAGATGTTGT GCCAGGAGAG 
    TCACAGACTG AACAATCTCC TAATGAAGAG GAGGAAGTGG AGTCTAAAAC AGACAGAAGG 
    ACACTTGGCT TAAGATGTTT CCAAGGAAAC AGAGAGACCT CAGAGGATGA GCCTAGTGAA 
    CTGGGTGCTG CAGCTGTTGC TTCTTCTGAG CCTGTGTTTC TTGTGCCTCA GCTAAGCTCA 
    CATCCTCAGT TTCTGGGCTG CGATTTTGAT GTGGAGTTAA CCGCAGAAGT GAAAGTAGAT 
    GATGGTGCAT CTCTTGCTTT GTTGACATCT GTTACCCCAA ACCTTCGTTA CCAGAAGCCA 
    GGTTCTTTTT TGAAAGAACA TCATCTCTTC CCACCATCTT TAAGGAAAAA GAGAGTATCT 
    ACAGACCATT TTTTTACTTC AGACTCTTTT CCTGGATTAT GCACTAGTGT ATTTGAAACC 
    CCGGAACAGA CGCACCTGCC TTGTTCTTTT AAAAACTCTG AGAGGATTAT AGAAATGGCC 
    AAAAGCCCTC TTCCCTCATC ACCATCCAAC TCACCATCAT CTCCTTCATC TGCTCCTTCT 
    TCACCCTCAT CGTCCCCCTC ATCATCATCT CCTGGTGGAA TGGGTACAAA CTACCAAGAG 
    AATGAAGACC GAGGCCATGC AGGTGATAAC AATGTCAGCA AAGGAAATGG AGACTTTGTG 
    TCATCCACTT CATCTTCTCT GGTGCCATCA TCAGTGCCTG TGCCGCCACC TTCTTCTGAT 
    CCTTCACTTC ATGCATCATC ATCATTTACA CATCCATGCA ATGATGGACA GAGCGAGAGT 
    TTAGAAAATG ATATATACGA CCCCTTTCAC CCAACTGAGG GTGAGGGGGA GAGAGACCGG 
    CCATCCACTG AAGACGAGGA TGAAGAGGTT GACAAGTATG ATCCGTTTGA ACCAACAGGT 
    TCTCCTGTAT CTGAAACAGA AGAAGAGAAA AGATGTTTCG ATGAGGAGAA TGAAGGAGGA 
    AGCAGCATTA TTAGTGAAGG GAATGTTAAA GCTGAAAAAG AAATGGAAAT CATGGAGCCT 
    GCTGGCACAG AGGCAGGCCC TCCAGATTCA ACAGAAACTG ATGCTCCATC TTCAGTCTTC 
    AATAATGTAC CTTTAGAACT CAGCACCAAG TGCTCCTTTA AAGACAGAAT GAGGGAACAG 
    GGGAAAATTA AAATACAAGG AACAGACTCT GAGCACTCTG AAATAGAAGA AGGAGAGATA 
    GTGGGGGCCA GTGAAAGAGT ACGAGAACGA GTGATTGAAA GAAGGAGAGA GGTGTTGCTT 
    CCATCCTCAA GTAGTCCTTC TTACCTCCAA GGTGGTGTCC CTAAGCCAGA GAGGATTTTG 
    CGAGTCTTGG AGGGTGATGG GTTTGTGTCT GTCCGTGCTG ATGAAGAATG GGAGAGGGAA 
    CCAGTGGCTT CTGTGGGTGT TGGAGACCTG AGGAGAAAAC TGACGAGTAG GCGGAAAGAG 
    AAATTTAGAT CATGCCCTTC TTCTGCATCT ATTTCACCTC CACCGACATC TGTTTTGCCT 
    TTACCTTCTT CATCTTTCCC AGGTTCACCA CCTCTATCCA CGGATAAAGG AAGAAGTCGC 
    AAATCATCCA AAAGTTCAAA GGACAGGGAT AGACGTAAGC GGAAGGAGGG AAGAGGAGAC 
    AAGGAAAAGA GAAAAAAGAG GAAAGAGGAG AAGGAATCAG GTGAAGGTAA AAGGGAAAGT 
    AAAGCGGGTG ACCATGAAAA TAGGAGTGAA AAAGAGATCA AAGACAAGGA TAGGGAACAA 
    AGAAGTAGTC GAAGTGATAG TCGCAGGAGG AAAAAGAGAC GCAGGAGCAC TCCAGAACAT 
    TCCTCCCGCT CCCACTCACA GAATGCCTCC CGACACAACA CGCATAGCCG CAGATCTTGG 
    TCCAGCCACT CAGAAGACAG GCACAAAGAT AAAGAGAGGG AGAGAGAGCG AGAAAGGAAC 
    CATGCAAGAG ACAGGGATAG GGACCGTTGG CGAGATGACA GGGATAGAGA GAGAGACAGA 
    GAATCCAGAA GAAGAGATGA AAGAAGGAGA GATAGAGAGG AAGATACTAG GAGGTCCAAT 
    AGCAGAGAGA GAGTCAATAC AAGAAGAAGC AGAGACAGGA GAGACAGAGA GAAAGAAATG 
    GTAAGAGACA GAGATCGAGA CAGGGACAGG AGAAGAGACA GCAGACCTGT TGTACCCCCG 
    TCAATTCAGG ATCTCAATGG CTCTGATCTT TTCGCAATTA AACGTACAAT TACTGTTACT 
    ACCACTACTA CCACCACCAC AGTCCCAAAT TCACCACCAC GTAGCCAACG GCGCTCCCAT 
    AGCCGATCTC AGAGTTCAGA CAAACATCGT AAGAGGAAGA AGAAACGCAG GAGACGATCA 
    GAGGATGAAG AAAGGAAGGA TGAGGGAAGC AGGAGCAGGT CCCGACCCAC CTCCCTCTCA 
    CCTCCTCGTT TTGGGTATGA ATCAGATCAT CTTTCAGACC GTCCTGAGGT AGACATGCTC 
    TCTTTGGATG GGGAAGCACT AGATTCAGAT TACCCTTCTC TAGAGGACTC ACCACTACTT 
    TCCCCTCCTC CTGAGCCCCC TATACCCAGT CCCAAAATTC AATCCGGAGC ACCTAAAACC 
    AGCCGTCATC ATCTGAAGAA GAAATCCAGA TCTGGCAAGA CAGTTGGTCA GTCTGAATCC 
    ACCTCATCCT CTTCTTCTCA TAGACCAAAA CCCAAAATTA AAAACCTTTC ATCTGTCTCA 
    CCACCTCTTT CTGCATCCTC AGGCAACACC AATTCCCTTC AGCCCACAGC TTCCTCATCT 
    ACTACCAAGC GGGAAAGGAA AACTGGTAAG GAAAAAGTTG GAAAGAAGGA TGCCGGGCGT 
    TCTGGGAGGT CCAAGAAGCT CAGTGGGGGC AGCAGAAAGG GTAAGCTCCA GTCTAAAGTG 
    TCTGTCCTAG TACGTGAGGG TGTTAGCAGC ACCACTGGAA ACTCTGGGAA ATTGGGCCTT 
    GATCTTCTTG GACCTGGTGG TGTTGTAAGT GGAGCTTCGG GGCCCTCAGT CGTTGGTGGG 
    TCTATTGCCG TGGTGTTCCG CCGAGACAAT GAGAGCCGGT CACCTTTTCT TAAGCCCTGC 
    TCAGATACAT TGGCTCTTCC CGGAAGAGGC AAAGACCCAA GCAAAACTGG GAAGCAACGC 
    AACATCCTCG GGCCTCCGTC ATCAACAAAC CAGAGTGGAC TGAAGCCTAA GAAAGCCAAG 
    CCAAGCTCTG CTACATCCAC ATCCTCATCT GCCTCTTCCC CTACTTCCTC ACTGGCAGCA 
    AAACGTAGAA GGAGGCCTGG AAAGAAGCCT AGAGAAAAAG GACTGACTGT GGATGGAAGT 
    GATTCTAAAG GTGCTAATAG TAGTTGTAGC ACAGTTGGTG GTGGTTGGGG CGGAGTATCA 
    ACAGAAATGC AGCCGTTGAT TGGGGTTGGA TCCAAGCCAT CCAGTCCTCC TTCAGCTCCT 
    CCTGGACCCA CTCCCTCATC CTCTTCATCG TCCTCCACTT CTTCATCAGC TAGTATCCTT 
    CCTCCATCCT CCTCACCACC ACACACATCC CCACTGTCTT TGCCTCCATC TCGAGATACA 
    AGAGAGTCGT CCCCAGACTC TCAAACTGTT GATAGTAGCT GCAAGACGCC AGAGCCTTCA 
    TTTCTCTTAG AGGATGGCCC TGTTCAGTCC AAAGCCTCAT CTCTTACACC ATCAAAGTCC 
    CCTGCCAGCC CTCCTGGTCT GCTGACATCA CAGATAAGGG GTGATACAAT ATCCCAGTCC 
    ACTACCATTT CTAAGCCTCC CCCACCAGAT GATCAAAAAG CATCGCCACC ATGCTCTACT 
    TCAGCTGCTT CATTGTCAGT TATCTCCCAT TCCAGTGCTA CGCTAGCAAA TGATCCTTCT 
    TCCTCCTCCT CCTCTTCAGT ATCTTCATCT TCAGTAAACA AGCCACCACC ACCTCCGCCT 
    CCACCCCCAT CAGCTCCACC ATTACCCTGG AGTCTACAAA CCGGAGTGGA CTGCACTGCT 
    GGAGGTGTTT TGGCATTGAC TGCTCTCCTT TTCAAAATGG AGGAGGCCAA TATAGCCAGT 
    AGAGCCAAAG CACAGGAGTT TATACAGGCT ACAAGTCAGA TTCTCTCTCA GGCCAATCAG 
    AACCAGTCAC AGCCTCACCC TTCTTCATCA TCTTGTTCAT CTGTTTCCTC ACAAGTTCCT 
    CCACCTCCAT CACATGCTCC ACCCCCAGGC CCCACTCCTG CGCAGTTTAT TCTTCACAGC 
    TCTGTTCCTA TGGTTGGCTG CACCAAAACC CCTCCCTCAC ACTTGCATTC TGGACTCTCC 
    ATGGGTGGAG GCTGTGCTCA AACTCCTCCA CCTCCAGGAT TAACTGGGCC AACAGGAGGC 
    AGTGAAACAG GCTGGGACAG TGAAAGCAAA GACCCAGATA AGTATCTGAA AAAGCTGCAC 
    ACCCAGGAGA GGGCAGTAGA GGAAGTCAAA TTGGCAATCA AGCCATATTA CCAGCGCAAG 
    GACATCAACA AAGATGACTA CAAGGATATT TTAAGGAAAG CTGTGCACAA GATTTGTCAC 
    AGCCGAACAG GCGAAATCAA TCCAGTGAAA GTGAGTAACC TGGTCAAGCT TTACGTCCAG 
    AGGTACAAAT ATTTCAGAAA GCACGGCCGC AAGATGGACG ACGAAGAGAG AGAAGACAGA 
    GAGTCTGCCT CCATGCATTC CTCATCATGA

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

    SCAF1 ( XM_005164068.3 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_005164125.1 Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa08505
    Clone ID Related Accession (Same CDS sequence) XM_005164068.4 , XM_005164068.3
    Accession Version XM_005164068.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4710bp)
    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 splicing factor, arginine/serine-rich 19 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007114.6) 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_005164068.2. ##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
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAAGATGG GAACAGATGG ACAGGCTGAA AAGGATGAAG CAGATGTTGT GCCAGGAGAG 
    TCACAGACTG AACAATCTCC TAATGAAGAG GAGGAAGTGG AGTCTAAAAC AGACAGAAGG 
    ACACTTGGCT TAAGATGTTT CCAAGGAAAC AGAGAGACCT CAGAGGATGA GCCTAGTGAA 
    CTGGGTGCTG CAGCTGTTGC TTCTTCTGAG CCTGTGTTTC TTGTGCCTCA GCTAAGCTCA 
    CATCCTCAGT TTCTGGGCTG CGATTTTGAT GTGGAGTTAA CCGCAGAAGT GAAAGTAGAT 
    GATGGTGCAT CTCTTGCTTT GTTGACATCT GTTACCCCAA ACCTTCGTTA CCAGAAGCCA 
    GGTTCTTTTT TGAAAGAACA TCATCTCTTC CCACCATCTT TAAGGAAAAA GAGAGTATCT 
    ACAGACCATT TTTTTACTTC AGACTCTTTT CCTGGATTAT GCACTAGTGT ATTTGAAACC 
    CCGGAACAGA CGCACCTGCC TTGTTCTTTT AAAAACTCTG AGAGGATTAT AGAAATGGCC 
    AAAAGCCCTC TTCCCTCATC ACCATCCAAC TCACCATCAT CTCCTTCATC TGCTCCTTCT 
    TCACCCTCAT CGTCCCCCTC ATCATCATCT CCTGGTGGAA TGGGTACAAA CTACCAAGAG 
    AATGAAGACC GAGGCCATGC AGGTGATAAC AATGTCAGCA AAGGAAATGG AGACTTTGTG 
    TCATCCACTT CATCTTCTCT GGTGCCATCA TCAGTGCCTG TGCCGCCACC TTCTTCTGAT 
    CCTTCACTTC ATGCATCATC ATCATTTACA CATCCATGCA ATGATGGACA GAGCGAGAGT 
    TTAGAAAATG ATATATACGA CCCCTTTCAC CCAACTGAGG GTGAGGGGGA GAGAGACCGG 
    CCATCCACTG AAGACGAGGA TGAAGAGGTT GACAAGTATG ATCCGTTTGA ACCAACAGGT 
    TCTCCTGTAT CTGAAACAGA AGAAGAGAAA AGATGTTTCG ATGAGGAGAA TGAAGGAGGA 
    AGCAGCATTA TTAGTGAAGG GAATGTTAAA GCTGAAAAAG AAATGGAAAT CATGGAGCCT 
    GCTGGCACAG AGGCAGGCCC TCCAGATTCA ACAGAAACTG ATGCTCCATC TTCAGTCTTC 
    AATAATGTAC CTTTAGAACT CAGCACCAAG TGCTCCTTTA AAGACAGAAT GAGGGAACAG 
    GGGAAAATTA AAATACAAGG AACAGACTCT GAGCACTCTG AAATAGAAGA AGGAGAGATA 
    GTGGGGGCCA GTGAAAGAGT ACGAGAACGA GTGATTGAAA GAAGGAGAGA GGTGTTGCTT 
    CCATCCTCAA GTAGTCCTTC TTACCTCCAA GGTGGTGTCC CTAAGCCAGA GAGGATTTTG 
    CGAGTCTTGG AGGGTGATGG GTTTGTGTCT GTCCGTGCTG ATGAAGAATG GGAGAGGGAA 
    CCAGTGGCTT CTGTGGGTGT TGGAGACCTG AGGAGAAAAC TGACGAGTAG GCGGAAAGAG 
    AAATTTAGAT CATGCCCTTC TTCTGCATCT ATTTCACCTC CACCGACATC TGTTTTGCCT 
    TTACCTTCTT CATCTTTCCC AGGTTCACCA CCTCTATCCA CGGATAAAGG AAGAAGTCGC 
    AAATCATCCA AAAGTTCAAA GGACAGGGAT AGACGTAAGC GGAAGGAGGG AAGAGGAGAC 
    AAGGAAAAGA GAAAAAAGAG GAAAGAGGAG AAGGAATCAG GTGAAGGTAA AAGGGAAAGT 
    AAAGCGGGTG ACCATGAAAA TAGGAGTGAA AAAGAGATCA AAGACAAGGA TAGGGAACAA 
    AGAAGTAGTC GAAGTGATAG TCGCAGGAGG AAAAAGAGAC GCAGGAGCAC TCCAGAACAT 
    TCCTCCCGCT CCCACTCACA GAATGCCTCC CGACACAACA CGCATAGCCG CAGATCTTGG 
    TCCAGCCACT CAGAAGACAG GCACAAAGAT AAAGAGAGGG AGAGAGAGCG AGAAAGGAAC 
    CATGCAAGAG ACAGGGATAG GGACCGTTGG CGAGATGACA GGGATAGAGA GAGAGACAGA 
    GAATCCAGAA GAAGAGATGA AAGAAGGAGA GATAGAGAGG AAGATACTAG GAGGTCCAAT 
    AGCAGAGAGA GAGTCAATAC AAGAAGAAGC AGAGACAGGA GAGACAGAGA GAAAGAAATG 
    GTAAGAGACA GAGATCGAGA CAGGGACAGG AGAAGAGACA GCAGACCTGT TGTACCCCCG 
    TCAATTCAGG ATCTCAATGG CTCTGATCTT TTCGCAATTA AACGTACAAT TACTGTTACT 
    ACCACTACTA CCACCACCAC AGTCCCAAAT TCACCACCAC GTAGCCAACG GCGCTCCCAT 
    AGCCGATCTC AGAGTTCAGA CAAACATCGT AAGAGGAAGA AGAAACGCAG GAGACGATCA 
    GAGGATGAAG AAAGGAAGGA TGAGGGAAGC AGGAGCAGGT CCCGACCCAC CTCCCTCTCA 
    CCTCCTCGTT TTGGGTATGA ATCAGATCAT CTTTCAGACC GTCCTGAGGT AGACATGCTC 
    TCTTTGGATG GGGAAGCACT AGATTCAGAT TACCCTTCTC TAGAGGACTC ACCACTACTT 
    TCCCCTCCTC CTGAGCCCCC TATACCCAGT CCCAAAATTC AATCCGGAGC ACCTAAAACC 
    AGCCGTCATC ATCTGAAGAA GAAATCCAGA TCTGGCAAGA CAGTTGGTCA GTCTGAATCC 
    ACCTCATCCT CTTCTTCTCA TAGACCAAAA CCCAAAATTA AAAACCTTTC ATCTGTCTCA 
    CCACCTCTTT CTGCATCCTC AGGCAACACC AATTCCCTTC AGCCCACAGC TTCCTCATCT 
    ACTACCAAGC GGGAAAGGAA AACTGGTAAG GAAAAAGTTG GAAAGAAGGA TGCCGGGCGT 
    TCTGGGAGGT CCAAGAAGCT CAGTGGGGGC AGCAGAAAGG GTAAGCTCCA GTCTAAAGTG 
    TCTGTCCTAG TACGTGAGGG TGTTAGCAGC ACCACTGGAA ACTCTGGGAA ATTGGGCCTT 
    GATCTTCTTG GACCTGGTGG TGTTGTAAGT GGAGCTTCGG GGCCCTCAGT CGTTGGTGGG 
    TCTATTGCCG TGGTGTTCCG CCGAGACAAT GAGAGCCGGT CACCTTTTCT TAAGCCCTGC 
    TCAGATACAT TGGCTCTTCC CGGAAGAGGC AAAGACCCAA GCAAAACTGG GAAGCAACGC 
    AACATCCTCG GGCCTCCGTC ATCAACAAAC CAGAGTGGAC TGAAGCCTAA GAAAGCCAAG 
    CCAAGCTCTG CTACATCCAC ATCCTCATCT GCCTCTTCCC CTACTTCCTC ACTGGCAGCA 
    AAACGTAGAA GGAGGCCTGG AAAGAAGCCT AGAGAAAAAG GACTGACTGT GGATGGAAGT 
    GATTCTAAAG GTGCTAATAG TAGTTGTAGC ACAGTTGGTG GTGGTTGGGG CGGAGTATCA 
    ACAGAAATGC AGCCGTTGAT TGGGGTTGGA TCCAAGCCAT CCAGTCCTCC TTCAGCTCCT 
    CCTGGACCCA CTCCCTCATC CTCTTCATCG TCCTCCACTT CTTCATCAGC TAGTATCCTT 
    CCTCCATCCT CCTCACCACC ACACACATCC CCACTGTCTT TGCCTCCATC TCGAGATACA 
    AGAGAGTCGT CCCCAGACTC TCAAACTGTT GATAGTAGCT GCAAGACGCC AGAGCCTTCA 
    TTTCTCTTAG AGGATGGCCC TGTTCAGTCC AAAGCCTCAT CTCTTACACC ATCAAAGTCC 
    CCTGCCAGCC CTCCTGGTCT GCTGACATCA CAGATAAGGG GTGATACAAT ATCCCAGTCC 
    ACTACCATTT CTAAGCCTCC CCCACCAGAT GATCAAAAAG CATCGCCACC ATGCTCTACT 
    TCAGCTGCTT CATTGTCAGT TATCTCCCAT TCCAGTGCTA CGCTAGCAAA TGATCCTTCT 
    TCCTCCTCCT CCTCTTCAGT ATCTTCATCT TCAGTAAACA AGCCACCACC ACCTCCGCCT 
    CCACCCCCAT CAGCTCCACC ATTACCCTGG AGTCTACAAA CCGGAGTGGA CTGCACTGCT 
    GGAGGTGTTT TGGCATTGAC TGCTCTCCTT TTCAAAATGG AGGAGGCCAA TATAGCCAGT 
    AGAGCCAAAG CACAGGAGTT TATACAGGCT ACAAGTCAGA TTCTCTCTCA GGCCAATCAG 
    AACCAGTCAC AGCCTCACCC TTCTTCATCA TCTTGTTCAT CTGTTTCCTC ACAAGTTCCT 
    CCACCTCCAT CACATGCTCC ACCCCCAGGC CCCACTCCTG CGCAGTTTAT TCTTCACAGC 
    TCTGTTCCTA TGGTTGGCTG CACCAAAACC CCTCCCTCAC ACTTGCATTC TGGACTCTCC 
    ATGGGTGGAG GCTGTGCTCA AACTCCTCCA CCTCCAGGAT TAACTGGGCC AACAGGAGGC 
    AGTGAAACAG GCTGGGACAG TGAAAGCAAA GACCCAGATA AGTATCTGAA AAAGCTGCAC 
    ACCCAGGAGA GGGCAGTAGA GGAAGTCAAA TTGGCAATCA AGCCATATTA CCAGCGCAAG 
    GACATCAACA AAGATGACTA CAAGGATATT TTAAGGAAAG CTGTGCACAA GATTTGTCAC 
    AGCCGAACAG GCGAAATCAA TCCAGTGAAA GTGAGTAACC TGGTCAAGCT TTACGTCCAG 
    AGGTACAAAT ATTTCAGAAA GCACGGCCGC AAGATGGACG ACGAAGAGAG AGAAGACAGA 
    GAGTCTGCCT CCATGCATTC CTCATCATGA

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

    RefSeq XP_005164125.1
    CDS170..4879
    Translation

    Target ORF information:

    RefSeq Version XM_005164068.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005164068.3

    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
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAAGATGG GAACAGATGG ACAGGCTGAA AAGGATGAAG CAGATGTTGT GCCAGGAGAG 
    TCACAGACTG AACAATCTCC TAATGAAGAG GAGGAAGTGG AGTCTAAAAC AGACAGAAGG 
    ACACTTGGCT TAAGATGTTT CCAAGGAAAC AGAGAGACCT CAGAGGATGA GCCTAGTGAA 
    CTGGGTGCTG CAGCTGTTGC TTCTTCTGAG CCTGTGTTTC TTGTGCCTCA GCTAAGCTCA 
    CATCCTCAGT TTCTGGGCTG CGATTTTGAT GTGGAGTTAA CCGCAGAAGT GAAAGTAGAT 
    GATGGTGCAT CTCTTGCTTT GTTGACATCT GTTACCCCAA ACCTTCGTTA CCAGAAGCCA 
    GGTTCTTTTT TGAAAGAACA TCATCTCTTC CCACCATCTT TAAGGAAAAA GAGAGTATCT 
    ACAGACCATT TTTTTACTTC AGACTCTTTT CCTGGATTAT GCACTAGTGT ATTTGAAACC 
    CCGGAACAGA CGCACCTGCC TTGTTCTTTT AAAAACTCTG AGAGGATTAT AGAAATGGCC 
    AAAAGCCCTC TTCCCTCATC ACCATCCAAC TCACCATCAT CTCCTTCATC TGCTCCTTCT 
    TCACCCTCAT CGTCCCCCTC ATCATCATCT CCTGGTGGAA TGGGTACAAA CTACCAAGAG 
    AATGAAGACC GAGGCCATGC AGGTGATAAC AATGTCAGCA AAGGAAATGG AGACTTTGTG 
    TCATCCACTT CATCTTCTCT GGTGCCATCA TCAGTGCCTG TGCCGCCACC TTCTTCTGAT 
    CCTTCACTTC ATGCATCATC ATCATTTACA CATCCATGCA ATGATGGACA GAGCGAGAGT 
    TTAGAAAATG ATATATACGA CCCCTTTCAC CCAACTGAGG GTGAGGGGGA GAGAGACCGG 
    CCATCCACTG AAGACGAGGA TGAAGAGGTT GACAAGTATG ATCCGTTTGA ACCAACAGGT 
    TCTCCTGTAT CTGAAACAGA AGAAGAGAAA AGATGTTTCG ATGAGGAGAA TGAAGGAGGA 
    AGCAGCATTA TTAGTGAAGG GAATGTTAAA GCTGAAAAAG AAATGGAAAT CATGGAGCCT 
    GCTGGCACAG AGGCAGGCCC TCCAGATTCA ACAGAAACTG ATGCTCCATC TTCAGTCTTC 
    AATAATGTAC CTTTAGAACT CAGCACCAAG TGCTCCTTTA AAGACAGAAT GAGGGAACAG 
    GGGAAAATTA AAATACAAGG AACAGACTCT GAGCACTCTG AAATAGAAGA AGGAGAGATA 
    GTGGGGGCCA GTGAAAGAGT ACGAGAACGA GTGATTGAAA GAAGGAGAGA GGTGTTGCTT 
    CCATCCTCAA GTAGTCCTTC TTACCTCCAA GGTGGTGTCC CTAAGCCAGA GAGGATTTTG 
    CGAGTCTTGG AGGGTGATGG GTTTGTGTCT GTCCGTGCTG ATGAAGAATG GGAGAGGGAA 
    CCAGTGGCTT CTGTGGGTGT TGGAGACCTG AGGAGAAAAC TGACGAGTAG GCGGAAAGAG 
    AAATTTAGAT CATGCCCTTC TTCTGCATCT ATTTCACCTC CACCGACATC TGTTTTGCCT 
    TTACCTTCTT CATCTTTCCC AGGTTCACCA CCTCTATCCA CGGATAAAGG AAGAAGTCGC 
    AAATCATCCA AAAGTTCAAA GGACAGGGAT AGACGTAAGC GGAAGGAGGG AAGAGGAGAC 
    AAGGAAAAGA GAAAAAAGAG GAAAGAGGAG AAGGAATCAG GTGAAGGTAA AAGGGAAAGT 
    AAAGCGGGTG ACCATGAAAA TAGGAGTGAA AAAGAGATCA AAGACAAGGA TAGGGAACAA 
    AGAAGTAGTC GAAGTGATAG TCGCAGGAGG AAAAAGAGAC GCAGGAGCAC TCCAGAACAT 
    TCCTCCCGCT CCCACTCACA GAATGCCTCC CGACACAACA CGCATAGCCG CAGATCTTGG 
    TCCAGCCACT CAGAAGACAG GCACAAAGAT AAAGAGAGGG AGAGAGAGCG AGAAAGGAAC 
    CATGCAAGAG ACAGGGATAG GGACCGTTGG CGAGATGACA GGGATAGAGA GAGAGACAGA 
    GAATCCAGAA GAAGAGATGA AAGAAGGAGA GATAGAGAGG AAGATACTAG GAGGTCCAAT 
    AGCAGAGAGA GAGTCAATAC AAGAAGAAGC AGAGACAGGA GAGACAGAGA GAAAGAAATG 
    GTAAGAGACA GAGATCGAGA CAGGGACAGG AGAAGAGACA GCAGACCTGT TGTACCCCCG 
    TCAATTCAGG ATCTCAATGG CTCTGATCTT TTCGCAATTA AACGTACAAT TACTGTTACT 
    ACCACTACTA CCACCACCAC AGTCCCAAAT TCACCACCAC GTAGCCAACG GCGCTCCCAT 
    AGCCGATCTC AGAGTTCAGA CAAACATCGT AAGAGGAAGA AGAAACGCAG GAGACGATCA 
    GAGGATGAAG AAAGGAAGGA TGAGGGAAGC AGGAGCAGGT CCCGACCCAC CTCCCTCTCA 
    CCTCCTCGTT TTGGGTATGA ATCAGATCAT CTTTCAGACC GTCCTGAGGT AGACATGCTC 
    TCTTTGGATG GGGAAGCACT AGATTCAGAT TACCCTTCTC TAGAGGACTC ACCACTACTT 
    TCCCCTCCTC CTGAGCCCCC TATACCCAGT CCCAAAATTC AATCCGGAGC ACCTAAAACC 
    AGCCGTCATC ATCTGAAGAA GAAATCCAGA TCTGGCAAGA CAGTTGGTCA GTCTGAATCC 
    ACCTCATCCT CTTCTTCTCA TAGACCAAAA CCCAAAATTA AAAACCTTTC ATCTGTCTCA 
    CCACCTCTTT CTGCATCCTC AGGCAACACC AATTCCCTTC AGCCCACAGC TTCCTCATCT 
    ACTACCAAGC GGGAAAGGAA AACTGGTAAG GAAAAAGTTG GAAAGAAGGA TGCCGGGCGT 
    TCTGGGAGGT CCAAGAAGCT CAGTGGGGGC AGCAGAAAGG GTAAGCTCCA GTCTAAAGTG 
    TCTGTCCTAG TACGTGAGGG TGTTAGCAGC ACCACTGGAA ACTCTGGGAA ATTGGGCCTT 
    GATCTTCTTG GACCTGGTGG TGTTGTAAGT GGAGCTTCGG GGCCCTCAGT CGTTGGTGGG 
    TCTATTGCCG TGGTGTTCCG CCGAGACAAT GAGAGCCGGT CACCTTTTCT TAAGCCCTGC 
    TCAGATACAT TGGCTCTTCC CGGAAGAGGC AAAGACCCAA GCAAAACTGG GAAGCAACGC 
    AACATCCTCG GGCCTCCGTC ATCAACAAAC CAGAGTGGAC TGAAGCCTAA GAAAGCCAAG 
    CCAAGCTCTG CTACATCCAC ATCCTCATCT GCCTCTTCCC CTACTTCCTC ACTGGCAGCA 
    AAACGTAGAA GGAGGCCTGG AAAGAAGCCT AGAGAAAAAG GACTGACTGT GGATGGAAGT 
    GATTCTAAAG GTGCTAATAG TAGTTGTAGC ACAGTTGGTG GTGGTTGGGG CGGAGTATCA 
    ACAGAAATGC AGCCGTTGAT TGGGGTTGGA TCCAAGCCAT CCAGTCCTCC TTCAGCTCCT 
    CCTGGACCCA CTCCCTCATC CTCTTCATCG TCCTCCACTT CTTCATCAGC TAGTATCCTT 
    CCTCCATCCT CCTCACCACC ACACACATCC CCACTGTCTT TGCCTCCATC TCGAGATACA 
    AGAGAGTCGT CCCCAGACTC TCAAACTGTT GATAGTAGCT GCAAGACGCC AGAGCCTTCA 
    TTTCTCTTAG AGGATGGCCC TGTTCAGTCC AAAGCCTCAT CTCTTACACC ATCAAAGTCC 
    CCTGCCAGCC CTCCTGGTCT GCTGACATCA CAGATAAGGG GTGATACAAT ATCCCAGTCC 
    ACTACCATTT CTAAGCCTCC CCCACCAGAT GATCAAAAAG CATCGCCACC ATGCTCTACT 
    TCAGCTGCTT CATTGTCAGT TATCTCCCAT TCCAGTGCTA CGCTAGCAAA TGATCCTTCT 
    TCCTCCTCCT CCTCTTCAGT ATCTTCATCT TCAGTAAACA AGCCACCACC ACCTCCGCCT 
    CCACCCCCAT CAGCTCCACC ATTACCCTGG AGTCTACAAA CCGGAGTGGA CTGCACTGCT 
    GGAGGTGTTT TGGCATTGAC TGCTCTCCTT TTCAAAATGG AGGAGGCCAA TATAGCCAGT 
    AGAGCCAAAG CACAGGAGTT TATACAGGCT ACAAGTCAGA TTCTCTCTCA GGCCAATCAG 
    AACCAGTCAC AGCCTCACCC TTCTTCATCA TCTTGTTCAT CTGTTTCCTC ACAAGTTCCT 
    CCACCTCCAT CACATGCTCC ACCCCCAGGC CCCACTCCTG CGCAGTTTAT TCTTCACAGC 
    TCTGTTCCTA TGGTTGGCTG CACCAAAACC CCTCCCTCAC ACTTGCATTC TGGACTCTCC 
    ATGGGTGGAG GCTGTGCTCA AACTCCTCCA CCTCCAGGAT TAACTGGGCC AACAGGAGGC 
    AGTGAAACAG GCTGGGACAG TGAAAGCAAA GACCCAGATA AGTATCTGAA AAAGCTGCAC 
    ACCCAGGAGA GGGCAGTAGA GGAAGTCAAA TTGGCAATCA AGCCATATTA CCAGCGCAAG 
    GACATCAACA AAGATGACTA CAAGGATATT TTAAGGAAAG CTGTGCACAA GATTTGTCAC 
    AGCCGAACAG GCGAAATCAA TCCAGTGAAA GTGAGTAACC TGGTCAAGCT TTACGTCCAG 
    AGGTACAAAT ATTTCAGAAA GCACGGCCGC AAGATGGACG ACGAAGAGAG AGAAGACAGA 
    GAGTCTGCCT CCATGCATTC CTCATCATGA

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

    SCAF1 ( XM_005164069.4 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_005164126.1 Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa08506
    Clone ID Related Accession (Same CDS sequence) XM_005164069.4 , XM_005164069.3
    Accession Version XM_005164069.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    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 splicing factor, arginine/serine-rich 19 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007114.7) 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_005164069.3. ##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
    4381
    4441
    4501
    4561
    ATGAAGATGG GAACAGATGG ACAGGCTGAA AAGGATGAAG CAGATGTTGT GCCAGGAGAG 
    TCACAGACTG AACAATCTCC TAATGAAGAG GAGGAAGTGG AGTCTAAAAC AGACAGAAGG 
    ACACTTGGCT TAAGATGTTT CCAAGGAAAC AGAGAGACCT CAGAGGATGA GCCTAGTGAA 
    CTGGGTGCTG CAGCTGTTGC TTCTTCTGAG CCTGTGTTTC TTGTGCCTCA GCTAAGCTCA 
    CATCCTCAGT TTCTGGGCTG CGATTTTGAT GTGGAGTTAA CCGCAGAAGT GAAAGTAGAT 
    GATGGTGCAT CTCTTGCTTT GTTGACATCT GTTACCCCAA ACCTTCGTTA CCAGAAGCCA 
    GGTTCTTTTT TGAAAGAACA TCATCTCTTC CCACCATCTT TAAGGAAAAA GAGAGTATCT 
    ACAGACCATT TTTTTACTTC AGACTCTTTT CCTGGATTAT GCACTAGTGT ATTTGAAACC 
    CCGGAACAGA CGCACCTGCC TTGTTCTTTT AAAAACTCTG AGAGGATTAT AGAAATGGCC 
    AAAAGCCCTC TTCCCTCATC ACCATCCAAC TCACCATCAT CTCCTTCATC TGCTCCTTCT 
    TCACCCTCAT CGTCCCCCTC ATCATCATCT CCTGGTGGAA TGGGTACAAA CTACCAAGAG 
    AATGAAGACC GAGGCCATGC AGGTGATAAC AATGTCAGCA AAGGAAATGG AGACTTTGTG 
    TCATCCACTT CATCTTCTCT GGTGCCATCA TCAGTGCCTG TGCCGCCACC TTCTTCTGAT 
    CCTTCACTTC ATGCATCATC ATCATTTACA CATCCATGCA ATGATGGACA GAGCGAGAGT 
    TTAGAAAATG ATATATACGA CCCCTTTCAC CCAACTGAGG GTGAGGGGGA GAGAGACCGG 
    CCATCCACTG AAGACGAGGA TGAAGAGGTT GACAAGTATG ATCCGTTTGA ACCAACAGGT 
    TCTCCTGTAT CTGAAACAGA AGAAGAGAAA AGATGTTTCG ATGAGGAGAA TGAAGGAGGA 
    AGCAGCATTA TTAGTGAAGG GAATGTTAAA GCTGAAAAAG AAATGGAAAT CATGGAGCCT 
    GCTGGCACAG AGGCAGGCCC TCCAGATTCA ACAGAAACTG ATGCTCCATC TTCAGTCTTC 
    AATAATGTAC CTTTAGAACT CAGCACCAAG TGCTCCTTTA AAGACAGAAT GAGGGAACAG 
    GGGAAAATTA AAATACAAGG AACAGACTCT GAGCACTCTG AAATAGAAGA AGGAGAGATA 
    GTGGGGGCCA GTGAAAGAGT ACGAGAACGA GTGATTGAAA GAAGGAGAGA GGTGTTGCTT 
    CCATCCTCAA GTAGTCCTTC TTACCTCCAA GGTGGTGTCC CTAAGCCAGA GAGGATTTTG 
    CGAGTCTTGG AGGGTGATGG GTTTGTGTCT GTCCGTGCTG ATGAAGAATG GGAGAGGGAA 
    CCAGTGGCTT CTGTGGGTGT TGGAGACCTG AGGAGAAAAC TGACGAGTAG GCGGAAAGAG 
    AAATTTAGAT CATGCCCTTC TTCTGCATCT ATTTCACCTC CACCGACATC TGTTTTGCCT 
    TTACCTTCTT CATCTTTCCC AGGTTCACCA CCTCTATCCA CGGATAAAGG AAGAAGTCGC 
    AAATCATCCA AAAGTTCAAA GGACAGGGAT AGACGTAAGC GGAAGGAGGG AAGAGGAGAC 
    AAGGAAAAGA GAAAAAAGAG GAAAGAGGAG AAGGAATCAG GTGAAGGTAA AAGGGAAAGT 
    AAAGCGGGTG ACCATGAAAA TAGGAGTGAA AAAGAGATCA AAGACAAGGA TAGGGAACAA 
    AGAAGTAGTC GAAGTGATAG TCGCAGGAGG AAAAAGAGAC GCAGGAGCAC TCCAGAACAT 
    TCCTCCCGCT CCCACTCACA GAATGCCTCC CGACACAACA CGCATAGCCG CAGATCTTGG 
    TCCAGCCACT CAGAAGACAG GCACAAAGAT AAAGAGAGGG AGAGAGAGCG AGAAAGGAAC 
    CATGCAAGAG ACAGGGATAG GGACCGTTGG CGAGATGACA GGGATAGAGA GAGAGACAGA 
    GAATCCAGAA GAAGAGATGA AAGAAGGAGA GATAGAGAGG AAGATACTAG GAGGTCCAAT 
    AGCAGAGAGA GAGTCAATAC AAGAAGAAGC AGAGACAGGA GAGACAGAGA GAAAGAAATG 
    GTAAGAGACA GAGATCGAGA CAGGGACAGG AGAAGAGACA GCAGACCTGT TGTACCCCCG 
    TCAATTCAGG ATCTCAATGG CTCTGATCTT TTCGCAATTA AACGTACAAT TACTGTTACT 
    ACCACTACTA CCACCACCAC AGTCCCAAAT TCACCACCAC GTAGCCAACG GCGCTCCCAT 
    AGCCGATCTC AGAGTTCAGA CAAACATCGT AAGAGGAAGA AGAAACGCAG GAGACGATCA 
    GAGGATGAAG AAAGGAAGGA TGAGGGAAGC AGGAGCAGGT CCCGACCCAC CTCCCTCTCA 
    CCTCCTCGTT TTGGGTATGA ATCAGATCAT CTTTCAGACC GTCCTGAGGT AGACATGCTC 
    TCTTTGGATG GGGAAGCACT AGATTCAGAT TACCCTTCTC TAGAGGACTC ACCACTACTT 
    TCCCCTCCTC CTGAGCCCCC TATACCCAGT CCCAAAATTC AATCCGGAGC ACCTAAAACC 
    AGCCGTCATC ATCTGAAGAA GAAATCCAGA TCTGGCAAGA CAGTTGGCAA CACCAATTCC 
    CTTCAGCCCA CAGCTTCCTC ATCTACTACC AAGCGGGAAA GGAAAACTGG TAAGGAAAAA 
    GTTGGAAAGA AGGATGCCGG GCGTTCTGGG AGGTCCAAGA AGCTCAGTGG GGGCAGCAGA 
    AAGGGTAAGC TCCAGTCTAA AGTGTCTGTC CTAGTACGTG AGGGTGTTAG CAGCACCACT 
    GGAAACTCTG GGAAATTGGG CCTTGATCTT CTTGGACCTG GTGGTGTTGT AAGTGGAGCT 
    TCGGGGCCCT CAGTCGTTGG TGGGTCTATT GCCGTGGTGT TCCGCCGAGA CAATGAGAGC 
    CGGTCACCTT TTCTTAAGCC CTGCTCAGAT ACATTGGCTC TTCCCGGAAG AGGCAAAGAC 
    CCAAGCAAAA CTGGGAAGCA ACGCAACATC CTCGGGCCTC CGTCATCAAC AAACCAGAGT 
    GGACTGAAGC CTAAGAAAGC CAAGCCAAGC TCTGCTACAT CCACATCCTC ATCTGCCTCT 
    TCCCCTACTT CCTCACTGGC AGCAAAACGT AGAAGGAGGC CTGGAAAGAA GCCTAGAGAA 
    AAAGGACTGA CTGTGGATGG AAGTGATTCT AAAGGTGCTA ATAGTAGTTG TAGCACAGTT 
    GGTGGTGGTT GGGGCGGAGT ATCAACAGAA ATGCAGCCGT TGATTGGGGT TGGATCCAAG 
    CCATCCAGTC CTCCTTCAGC TCCTCCTGGA CCCACTCCCT CATCCTCTTC ATCGTCCTCC 
    ACTTCTTCAT CAGCTAGTAT CCTTCCTCCA TCCTCCTCAC CACCACACAC ATCCCCACTG 
    TCTTTGCCTC CATCTCGAGA TACAAGAGAG TCGTCCCCAG ACTCTCAAAC TGTTGATAGT 
    AGCTGCAAGA CGCCAGAGCC TTCATTTCTC TTAGAGGATG GCCCTGTTCA GTCCAAAGCC 
    TCATCTCTTA CACCATCAAA GTCCCCTGCC AGCCCTCCTG GTCTGCTGAC ATCACAGATA 
    AGGGGTGATA CAATATCCCA GTCCACTACC ATTTCTAAGC CTCCCCCACC AGATGATCAA 
    AAAGCATCGC CACCATGCTC TACTTCAGCT GCTTCATTGT CAGTTATCTC CCATTCCAGT 
    GCTACGCTAG CAAATGATCC TTCTTCCTCC TCCTCCTCTT CAGTATCTTC ATCTTCAGTA 
    AACAAGCCAC CACCACCTCC GCCTCCACCC CCATCAGCTC CACCATTACC CTGGAGTCTA 
    CAAACCGGAG TGGACTGCAC TGCTGGAGGT GTTTTGGCAT TGACTGCTCT CCTTTTCAAA 
    ATGGAGGAGG CCAATATAGC CAGTAGAGCC AAAGCACAGG AGTTTATACA GGCTACAAGT 
    CAGATTCTCT CTCAGGCCAA TCAGAACCAG TCACAGCCTC ACCCTTCTTC ATCATCTTGT 
    TCATCTGTTT CCTCACAAGT TCCTCCACCT CCATCACATG CTCCACCCCC AGGCCCCACT 
    CCTGCGCAGT TTATTCTTCA CAGCTCTGTT CCTATGGTTG GCTGCACCAA AACCCCTCCC 
    TCACACTTGC ATTCTGGACT CTCCATGGGT GGAGGCTGTG CTCAAACTCC TCCACCTCCA 
    GGATTAACTG GGCCAACAGG AGGCAGTGAA ACAGGCTGGG ACAGTGAAAG CAAAGACCCA 
    GATAAGTATC TGAAAAAGCT GCACACCCAG GAGAGGGCAG TAGAGGAAGT CAAATTGGCA 
    ATCAAGCCAT ATTACCAGCG CAAGGACATC AACAAAGATG ACTACAAGGA TATTTTAAGG 
    AAAGCTGTGC ACAAGATTTG TCACAGCCGA ACAGGCGAAA TCAATCCAGT GAAAGTGAGT 
    AACCTGGTCA AGCTTTACGT CCAGAGGTAC AAATATTTCA GAAAGCACGG CCGCAAGATG 
    GACGACGAAG AGAGAGAAGA CAGAGAGTCT GCCTCCATGC ATTCCTCATC ATGA

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

    RefSeq XP_005164126.1
    CDS325..4938
    Translation

    Target ORF information:

    RefSeq Version XM_005164069.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005164069.4

    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
    4381
    4441
    4501
    4561
    ATGAAGATGG GAACAGATGG ACAGGCTGAA AAGGATGAAG CAGATGTTGT GCCAGGAGAG 
    TCACAGACTG AACAATCTCC TAATGAAGAG GAGGAAGTGG AGTCTAAAAC AGACAGAAGG 
    ACACTTGGCT TAAGATGTTT CCAAGGAAAC AGAGAGACCT CAGAGGATGA GCCTAGTGAA 
    CTGGGTGCTG CAGCTGTTGC TTCTTCTGAG CCTGTGTTTC TTGTGCCTCA GCTAAGCTCA 
    CATCCTCAGT TTCTGGGCTG CGATTTTGAT GTGGAGTTAA CCGCAGAAGT GAAAGTAGAT 
    GATGGTGCAT CTCTTGCTTT GTTGACATCT GTTACCCCAA ACCTTCGTTA CCAGAAGCCA 
    GGTTCTTTTT TGAAAGAACA TCATCTCTTC CCACCATCTT TAAGGAAAAA GAGAGTATCT 
    ACAGACCATT TTTTTACTTC AGACTCTTTT CCTGGATTAT GCACTAGTGT ATTTGAAACC 
    CCGGAACAGA CGCACCTGCC TTGTTCTTTT AAAAACTCTG AGAGGATTAT AGAAATGGCC 
    AAAAGCCCTC TTCCCTCATC ACCATCCAAC TCACCATCAT CTCCTTCATC TGCTCCTTCT 
    TCACCCTCAT CGTCCCCCTC ATCATCATCT CCTGGTGGAA TGGGTACAAA CTACCAAGAG 
    AATGAAGACC GAGGCCATGC AGGTGATAAC AATGTCAGCA AAGGAAATGG AGACTTTGTG 
    TCATCCACTT CATCTTCTCT GGTGCCATCA TCAGTGCCTG TGCCGCCACC TTCTTCTGAT 
    CCTTCACTTC ATGCATCATC ATCATTTACA CATCCATGCA ATGATGGACA GAGCGAGAGT 
    TTAGAAAATG ATATATACGA CCCCTTTCAC CCAACTGAGG GTGAGGGGGA GAGAGACCGG 
    CCATCCACTG AAGACGAGGA TGAAGAGGTT GACAAGTATG ATCCGTTTGA ACCAACAGGT 
    TCTCCTGTAT CTGAAACAGA AGAAGAGAAA AGATGTTTCG ATGAGGAGAA TGAAGGAGGA 
    AGCAGCATTA TTAGTGAAGG GAATGTTAAA GCTGAAAAAG AAATGGAAAT CATGGAGCCT 
    GCTGGCACAG AGGCAGGCCC TCCAGATTCA ACAGAAACTG ATGCTCCATC TTCAGTCTTC 
    AATAATGTAC CTTTAGAACT CAGCACCAAG TGCTCCTTTA AAGACAGAAT GAGGGAACAG 
    GGGAAAATTA AAATACAAGG AACAGACTCT GAGCACTCTG AAATAGAAGA AGGAGAGATA 
    GTGGGGGCCA GTGAAAGAGT ACGAGAACGA GTGATTGAAA GAAGGAGAGA GGTGTTGCTT 
    CCATCCTCAA GTAGTCCTTC TTACCTCCAA GGTGGTGTCC CTAAGCCAGA GAGGATTTTG 
    CGAGTCTTGG AGGGTGATGG GTTTGTGTCT GTCCGTGCTG ATGAAGAATG GGAGAGGGAA 
    CCAGTGGCTT CTGTGGGTGT TGGAGACCTG AGGAGAAAAC TGACGAGTAG GCGGAAAGAG 
    AAATTTAGAT CATGCCCTTC TTCTGCATCT ATTTCACCTC CACCGACATC TGTTTTGCCT 
    TTACCTTCTT CATCTTTCCC AGGTTCACCA CCTCTATCCA CGGATAAAGG AAGAAGTCGC 
    AAATCATCCA AAAGTTCAAA GGACAGGGAT AGACGTAAGC GGAAGGAGGG AAGAGGAGAC 
    AAGGAAAAGA GAAAAAAGAG GAAAGAGGAG AAGGAATCAG GTGAAGGTAA AAGGGAAAGT 
    AAAGCGGGTG ACCATGAAAA TAGGAGTGAA AAAGAGATCA AAGACAAGGA TAGGGAACAA 
    AGAAGTAGTC GAAGTGATAG TCGCAGGAGG AAAAAGAGAC GCAGGAGCAC TCCAGAACAT 
    TCCTCCCGCT CCCACTCACA GAATGCCTCC CGACACAACA CGCATAGCCG CAGATCTTGG 
    TCCAGCCACT CAGAAGACAG GCACAAAGAT AAAGAGAGGG AGAGAGAGCG AGAAAGGAAC 
    CATGCAAGAG ACAGGGATAG GGACCGTTGG CGAGATGACA GGGATAGAGA GAGAGACAGA 
    GAATCCAGAA GAAGAGATGA AAGAAGGAGA GATAGAGAGG AAGATACTAG GAGGTCCAAT 
    AGCAGAGAGA GAGTCAATAC AAGAAGAAGC AGAGACAGGA GAGACAGAGA GAAAGAAATG 
    GTAAGAGACA GAGATCGAGA CAGGGACAGG AGAAGAGACA GCAGACCTGT TGTACCCCCG 
    TCAATTCAGG ATCTCAATGG CTCTGATCTT TTCGCAATTA AACGTACAAT TACTGTTACT 
    ACCACTACTA CCACCACCAC AGTCCCAAAT TCACCACCAC GTAGCCAACG GCGCTCCCAT 
    AGCCGATCTC AGAGTTCAGA CAAACATCGT AAGAGGAAGA AGAAACGCAG GAGACGATCA 
    GAGGATGAAG AAAGGAAGGA TGAGGGAAGC AGGAGCAGGT CCCGACCCAC CTCCCTCTCA 
    CCTCCTCGTT TTGGGTATGA ATCAGATCAT CTTTCAGACC GTCCTGAGGT AGACATGCTC 
    TCTTTGGATG GGGAAGCACT AGATTCAGAT TACCCTTCTC TAGAGGACTC ACCACTACTT 
    TCCCCTCCTC CTGAGCCCCC TATACCCAGT CCCAAAATTC AATCCGGAGC ACCTAAAACC 
    AGCCGTCATC ATCTGAAGAA GAAATCCAGA TCTGGCAAGA CAGTTGGCAA CACCAATTCC 
    CTTCAGCCCA CAGCTTCCTC ATCTACTACC AAGCGGGAAA GGAAAACTGG TAAGGAAAAA 
    GTTGGAAAGA AGGATGCCGG GCGTTCTGGG AGGTCCAAGA AGCTCAGTGG GGGCAGCAGA 
    AAGGGTAAGC TCCAGTCTAA AGTGTCTGTC CTAGTACGTG AGGGTGTTAG CAGCACCACT 
    GGAAACTCTG GGAAATTGGG CCTTGATCTT CTTGGACCTG GTGGTGTTGT AAGTGGAGCT 
    TCGGGGCCCT CAGTCGTTGG TGGGTCTATT GCCGTGGTGT TCCGCCGAGA CAATGAGAGC 
    CGGTCACCTT TTCTTAAGCC CTGCTCAGAT ACATTGGCTC TTCCCGGAAG AGGCAAAGAC 
    CCAAGCAAAA CTGGGAAGCA ACGCAACATC CTCGGGCCTC CGTCATCAAC AAACCAGAGT 
    GGACTGAAGC CTAAGAAAGC CAAGCCAAGC TCTGCTACAT CCACATCCTC ATCTGCCTCT 
    TCCCCTACTT CCTCACTGGC AGCAAAACGT AGAAGGAGGC CTGGAAAGAA GCCTAGAGAA 
    AAAGGACTGA CTGTGGATGG AAGTGATTCT AAAGGTGCTA ATAGTAGTTG TAGCACAGTT 
    GGTGGTGGTT GGGGCGGAGT ATCAACAGAA ATGCAGCCGT TGATTGGGGT TGGATCCAAG 
    CCATCCAGTC CTCCTTCAGC TCCTCCTGGA CCCACTCCCT CATCCTCTTC ATCGTCCTCC 
    ACTTCTTCAT CAGCTAGTAT CCTTCCTCCA TCCTCCTCAC CACCACACAC ATCCCCACTG 
    TCTTTGCCTC CATCTCGAGA TACAAGAGAG TCGTCCCCAG ACTCTCAAAC TGTTGATAGT 
    AGCTGCAAGA CGCCAGAGCC TTCATTTCTC TTAGAGGATG GCCCTGTTCA GTCCAAAGCC 
    TCATCTCTTA CACCATCAAA GTCCCCTGCC AGCCCTCCTG GTCTGCTGAC ATCACAGATA 
    AGGGGTGATA CAATATCCCA GTCCACTACC ATTTCTAAGC CTCCCCCACC AGATGATCAA 
    AAAGCATCGC CACCATGCTC TACTTCAGCT GCTTCATTGT CAGTTATCTC CCATTCCAGT 
    GCTACGCTAG CAAATGATCC TTCTTCCTCC TCCTCCTCTT CAGTATCTTC ATCTTCAGTA 
    AACAAGCCAC CACCACCTCC GCCTCCACCC CCATCAGCTC CACCATTACC CTGGAGTCTA 
    CAAACCGGAG TGGACTGCAC TGCTGGAGGT GTTTTGGCAT TGACTGCTCT CCTTTTCAAA 
    ATGGAGGAGG CCAATATAGC CAGTAGAGCC AAAGCACAGG AGTTTATACA GGCTACAAGT 
    CAGATTCTCT CTCAGGCCAA TCAGAACCAG TCACAGCCTC ACCCTTCTTC ATCATCTTGT 
    TCATCTGTTT CCTCACAAGT TCCTCCACCT CCATCACATG CTCCACCCCC AGGCCCCACT 
    CCTGCGCAGT TTATTCTTCA CAGCTCTGTT CCTATGGTTG GCTGCACCAA AACCCCTCCC 
    TCACACTTGC ATTCTGGACT CTCCATGGGT GGAGGCTGTG CTCAAACTCC TCCACCTCCA 
    GGATTAACTG GGCCAACAGG AGGCAGTGAA ACAGGCTGGG ACAGTGAAAG CAAAGACCCA 
    GATAAGTATC TGAAAAAGCT GCACACCCAG GAGAGGGCAG TAGAGGAAGT CAAATTGGCA 
    ATCAAGCCAT ATTACCAGCG CAAGGACATC AACAAAGATG ACTACAAGGA TATTTTAAGG 
    AAAGCTGTGC ACAAGATTTG TCACAGCCGA ACAGGCGAAA TCAATCCAGT GAAAGTGAGT 
    AACCTGGTCA AGCTTTACGT CCAGAGGTAC AAATATTTCA GAAAGCACGG CCGCAAGATG 
    GACGACGAAG AGAGAGAAGA CAGAGAGTCT GCCTCCATGC ATTCCTCATC ATGA

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

    SCAF1 ( XM_005164069.3 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_005164126.1 Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa08506
    Clone ID Related Accession (Same CDS sequence) XM_005164069.4 , XM_005164069.3
    Accession Version XM_005164069.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    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 splicing factor, arginine/serine-rich 19 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007114.6) 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_005164069.2. ##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
    4381
    4441
    4501
    4561
    ATGAAGATGG GAACAGATGG ACAGGCTGAA AAGGATGAAG CAGATGTTGT GCCAGGAGAG 
    TCACAGACTG AACAATCTCC TAATGAAGAG GAGGAAGTGG AGTCTAAAAC AGACAGAAGG 
    ACACTTGGCT TAAGATGTTT CCAAGGAAAC AGAGAGACCT CAGAGGATGA GCCTAGTGAA 
    CTGGGTGCTG CAGCTGTTGC TTCTTCTGAG CCTGTGTTTC TTGTGCCTCA GCTAAGCTCA 
    CATCCTCAGT TTCTGGGCTG CGATTTTGAT GTGGAGTTAA CCGCAGAAGT GAAAGTAGAT 
    GATGGTGCAT CTCTTGCTTT GTTGACATCT GTTACCCCAA ACCTTCGTTA CCAGAAGCCA 
    GGTTCTTTTT TGAAAGAACA TCATCTCTTC CCACCATCTT TAAGGAAAAA GAGAGTATCT 
    ACAGACCATT TTTTTACTTC AGACTCTTTT CCTGGATTAT GCACTAGTGT ATTTGAAACC 
    CCGGAACAGA CGCACCTGCC TTGTTCTTTT AAAAACTCTG AGAGGATTAT AGAAATGGCC 
    AAAAGCCCTC TTCCCTCATC ACCATCCAAC TCACCATCAT CTCCTTCATC TGCTCCTTCT 
    TCACCCTCAT CGTCCCCCTC ATCATCATCT CCTGGTGGAA TGGGTACAAA CTACCAAGAG 
    AATGAAGACC GAGGCCATGC AGGTGATAAC AATGTCAGCA AAGGAAATGG AGACTTTGTG 
    TCATCCACTT CATCTTCTCT GGTGCCATCA TCAGTGCCTG TGCCGCCACC TTCTTCTGAT 
    CCTTCACTTC ATGCATCATC ATCATTTACA CATCCATGCA ATGATGGACA GAGCGAGAGT 
    TTAGAAAATG ATATATACGA CCCCTTTCAC CCAACTGAGG GTGAGGGGGA GAGAGACCGG 
    CCATCCACTG AAGACGAGGA TGAAGAGGTT GACAAGTATG ATCCGTTTGA ACCAACAGGT 
    TCTCCTGTAT CTGAAACAGA AGAAGAGAAA AGATGTTTCG ATGAGGAGAA TGAAGGAGGA 
    AGCAGCATTA TTAGTGAAGG GAATGTTAAA GCTGAAAAAG AAATGGAAAT CATGGAGCCT 
    GCTGGCACAG AGGCAGGCCC TCCAGATTCA ACAGAAACTG ATGCTCCATC TTCAGTCTTC 
    AATAATGTAC CTTTAGAACT CAGCACCAAG TGCTCCTTTA AAGACAGAAT GAGGGAACAG 
    GGGAAAATTA AAATACAAGG AACAGACTCT GAGCACTCTG AAATAGAAGA AGGAGAGATA 
    GTGGGGGCCA GTGAAAGAGT ACGAGAACGA GTGATTGAAA GAAGGAGAGA GGTGTTGCTT 
    CCATCCTCAA GTAGTCCTTC TTACCTCCAA GGTGGTGTCC CTAAGCCAGA GAGGATTTTG 
    CGAGTCTTGG AGGGTGATGG GTTTGTGTCT GTCCGTGCTG ATGAAGAATG GGAGAGGGAA 
    CCAGTGGCTT CTGTGGGTGT TGGAGACCTG AGGAGAAAAC TGACGAGTAG GCGGAAAGAG 
    AAATTTAGAT CATGCCCTTC TTCTGCATCT ATTTCACCTC CACCGACATC TGTTTTGCCT 
    TTACCTTCTT CATCTTTCCC AGGTTCACCA CCTCTATCCA CGGATAAAGG AAGAAGTCGC 
    AAATCATCCA AAAGTTCAAA GGACAGGGAT AGACGTAAGC GGAAGGAGGG AAGAGGAGAC 
    AAGGAAAAGA GAAAAAAGAG GAAAGAGGAG AAGGAATCAG GTGAAGGTAA AAGGGAAAGT 
    AAAGCGGGTG ACCATGAAAA TAGGAGTGAA AAAGAGATCA AAGACAAGGA TAGGGAACAA 
    AGAAGTAGTC GAAGTGATAG TCGCAGGAGG AAAAAGAGAC GCAGGAGCAC TCCAGAACAT 
    TCCTCCCGCT CCCACTCACA GAATGCCTCC CGACACAACA CGCATAGCCG CAGATCTTGG 
    TCCAGCCACT CAGAAGACAG GCACAAAGAT AAAGAGAGGG AGAGAGAGCG AGAAAGGAAC 
    CATGCAAGAG ACAGGGATAG GGACCGTTGG CGAGATGACA GGGATAGAGA GAGAGACAGA 
    GAATCCAGAA GAAGAGATGA AAGAAGGAGA GATAGAGAGG AAGATACTAG GAGGTCCAAT 
    AGCAGAGAGA GAGTCAATAC AAGAAGAAGC AGAGACAGGA GAGACAGAGA GAAAGAAATG 
    GTAAGAGACA GAGATCGAGA CAGGGACAGG AGAAGAGACA GCAGACCTGT TGTACCCCCG 
    TCAATTCAGG ATCTCAATGG CTCTGATCTT TTCGCAATTA AACGTACAAT TACTGTTACT 
    ACCACTACTA CCACCACCAC AGTCCCAAAT TCACCACCAC GTAGCCAACG GCGCTCCCAT 
    AGCCGATCTC AGAGTTCAGA CAAACATCGT AAGAGGAAGA AGAAACGCAG GAGACGATCA 
    GAGGATGAAG AAAGGAAGGA TGAGGGAAGC AGGAGCAGGT CCCGACCCAC CTCCCTCTCA 
    CCTCCTCGTT TTGGGTATGA ATCAGATCAT CTTTCAGACC GTCCTGAGGT AGACATGCTC 
    TCTTTGGATG GGGAAGCACT AGATTCAGAT TACCCTTCTC TAGAGGACTC ACCACTACTT 
    TCCCCTCCTC CTGAGCCCCC TATACCCAGT CCCAAAATTC AATCCGGAGC ACCTAAAACC 
    AGCCGTCATC ATCTGAAGAA GAAATCCAGA TCTGGCAAGA CAGTTGGCAA CACCAATTCC 
    CTTCAGCCCA CAGCTTCCTC ATCTACTACC AAGCGGGAAA GGAAAACTGG TAAGGAAAAA 
    GTTGGAAAGA AGGATGCCGG GCGTTCTGGG AGGTCCAAGA AGCTCAGTGG GGGCAGCAGA 
    AAGGGTAAGC TCCAGTCTAA AGTGTCTGTC CTAGTACGTG AGGGTGTTAG CAGCACCACT 
    GGAAACTCTG GGAAATTGGG CCTTGATCTT CTTGGACCTG GTGGTGTTGT AAGTGGAGCT 
    TCGGGGCCCT CAGTCGTTGG TGGGTCTATT GCCGTGGTGT TCCGCCGAGA CAATGAGAGC 
    CGGTCACCTT TTCTTAAGCC CTGCTCAGAT ACATTGGCTC TTCCCGGAAG AGGCAAAGAC 
    CCAAGCAAAA CTGGGAAGCA ACGCAACATC CTCGGGCCTC CGTCATCAAC AAACCAGAGT 
    GGACTGAAGC CTAAGAAAGC CAAGCCAAGC TCTGCTACAT CCACATCCTC ATCTGCCTCT 
    TCCCCTACTT CCTCACTGGC AGCAAAACGT AGAAGGAGGC CTGGAAAGAA GCCTAGAGAA 
    AAAGGACTGA CTGTGGATGG AAGTGATTCT AAAGGTGCTA ATAGTAGTTG TAGCACAGTT 
    GGTGGTGGTT GGGGCGGAGT ATCAACAGAA ATGCAGCCGT TGATTGGGGT TGGATCCAAG 
    CCATCCAGTC CTCCTTCAGC TCCTCCTGGA CCCACTCCCT CATCCTCTTC ATCGTCCTCC 
    ACTTCTTCAT CAGCTAGTAT CCTTCCTCCA TCCTCCTCAC CACCACACAC ATCCCCACTG 
    TCTTTGCCTC CATCTCGAGA TACAAGAGAG TCGTCCCCAG ACTCTCAAAC TGTTGATAGT 
    AGCTGCAAGA CGCCAGAGCC TTCATTTCTC TTAGAGGATG GCCCTGTTCA GTCCAAAGCC 
    TCATCTCTTA CACCATCAAA GTCCCCTGCC AGCCCTCCTG GTCTGCTGAC ATCACAGATA 
    AGGGGTGATA CAATATCCCA GTCCACTACC ATTTCTAAGC CTCCCCCACC AGATGATCAA 
    AAAGCATCGC CACCATGCTC TACTTCAGCT GCTTCATTGT CAGTTATCTC CCATTCCAGT 
    GCTACGCTAG CAAATGATCC TTCTTCCTCC TCCTCCTCTT CAGTATCTTC ATCTTCAGTA 
    AACAAGCCAC CACCACCTCC GCCTCCACCC CCATCAGCTC CACCATTACC CTGGAGTCTA 
    CAAACCGGAG TGGACTGCAC TGCTGGAGGT GTTTTGGCAT TGACTGCTCT CCTTTTCAAA 
    ATGGAGGAGG CCAATATAGC CAGTAGAGCC AAAGCACAGG AGTTTATACA GGCTACAAGT 
    CAGATTCTCT CTCAGGCCAA TCAGAACCAG TCACAGCCTC ACCCTTCTTC ATCATCTTGT 
    TCATCTGTTT CCTCACAAGT TCCTCCACCT CCATCACATG CTCCACCCCC AGGCCCCACT 
    CCTGCGCAGT TTATTCTTCA CAGCTCTGTT CCTATGGTTG GCTGCACCAA AACCCCTCCC 
    TCACACTTGC ATTCTGGACT CTCCATGGGT GGAGGCTGTG CTCAAACTCC TCCACCTCCA 
    GGATTAACTG GGCCAACAGG AGGCAGTGAA ACAGGCTGGG ACAGTGAAAG CAAAGACCCA 
    GATAAGTATC TGAAAAAGCT GCACACCCAG GAGAGGGCAG TAGAGGAAGT CAAATTGGCA 
    ATCAAGCCAT ATTACCAGCG CAAGGACATC AACAAAGATG ACTACAAGGA TATTTTAAGG 
    AAAGCTGTGC ACAAGATTTG TCACAGCCGA ACAGGCGAAA TCAATCCAGT GAAAGTGAGT 
    AACCTGGTCA AGCTTTACGT CCAGAGGTAC AAATATTTCA GAAAGCACGG CCGCAAGATG 
    GACGACGAAG AGAGAGAAGA CAGAGAGTCT GCCTCCATGC ATTCCTCATC ATGA

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

    RefSeq XP_005164126.1
    CDS170..4783
    Translation

    Target ORF information:

    RefSeq Version XM_005164069.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SR-related CTD-associated factor 1 (scaf1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005164069.3

    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
    4381
    4441
    4501
    4561
    ATGAAGATGG GAACAGATGG ACAGGCTGAA AAGGATGAAG CAGATGTTGT GCCAGGAGAG 
    TCACAGACTG AACAATCTCC TAATGAAGAG GAGGAAGTGG AGTCTAAAAC AGACAGAAGG 
    ACACTTGGCT TAAGATGTTT CCAAGGAAAC AGAGAGACCT CAGAGGATGA GCCTAGTGAA 
    CTGGGTGCTG CAGCTGTTGC TTCTTCTGAG CCTGTGTTTC TTGTGCCTCA GCTAAGCTCA 
    CATCCTCAGT TTCTGGGCTG CGATTTTGAT GTGGAGTTAA CCGCAGAAGT GAAAGTAGAT 
    GATGGTGCAT CTCTTGCTTT GTTGACATCT GTTACCCCAA ACCTTCGTTA CCAGAAGCCA 
    GGTTCTTTTT TGAAAGAACA TCATCTCTTC CCACCATCTT TAAGGAAAAA GAGAGTATCT 
    ACAGACCATT TTTTTACTTC AGACTCTTTT CCTGGATTAT GCACTAGTGT ATTTGAAACC 
    CCGGAACAGA CGCACCTGCC TTGTTCTTTT AAAAACTCTG AGAGGATTAT AGAAATGGCC 
    AAAAGCCCTC TTCCCTCATC ACCATCCAAC TCACCATCAT CTCCTTCATC TGCTCCTTCT 
    TCACCCTCAT CGTCCCCCTC ATCATCATCT CCTGGTGGAA TGGGTACAAA CTACCAAGAG 
    AATGAAGACC GAGGCCATGC AGGTGATAAC AATGTCAGCA AAGGAAATGG AGACTTTGTG 
    TCATCCACTT CATCTTCTCT GGTGCCATCA TCAGTGCCTG TGCCGCCACC TTCTTCTGAT 
    CCTTCACTTC ATGCATCATC ATCATTTACA CATCCATGCA ATGATGGACA GAGCGAGAGT 
    TTAGAAAATG ATATATACGA CCCCTTTCAC CCAACTGAGG GTGAGGGGGA GAGAGACCGG 
    CCATCCACTG AAGACGAGGA TGAAGAGGTT GACAAGTATG ATCCGTTTGA ACCAACAGGT 
    TCTCCTGTAT CTGAAACAGA AGAAGAGAAA AGATGTTTCG ATGAGGAGAA TGAAGGAGGA 
    AGCAGCATTA TTAGTGAAGG GAATGTTAAA GCTGAAAAAG AAATGGAAAT CATGGAGCCT 
    GCTGGCACAG AGGCAGGCCC TCCAGATTCA ACAGAAACTG ATGCTCCATC TTCAGTCTTC 
    AATAATGTAC CTTTAGAACT CAGCACCAAG TGCTCCTTTA AAGACAGAAT GAGGGAACAG 
    GGGAAAATTA AAATACAAGG AACAGACTCT GAGCACTCTG AAATAGAAGA AGGAGAGATA 
    GTGGGGGCCA GTGAAAGAGT ACGAGAACGA GTGATTGAAA GAAGGAGAGA GGTGTTGCTT 
    CCATCCTCAA GTAGTCCTTC TTACCTCCAA GGTGGTGTCC CTAAGCCAGA GAGGATTTTG 
    CGAGTCTTGG AGGGTGATGG GTTTGTGTCT GTCCGTGCTG ATGAAGAATG GGAGAGGGAA 
    CCAGTGGCTT CTGTGGGTGT TGGAGACCTG AGGAGAAAAC TGACGAGTAG GCGGAAAGAG 
    AAATTTAGAT CATGCCCTTC TTCTGCATCT ATTTCACCTC CACCGACATC TGTTTTGCCT 
    TTACCTTCTT CATCTTTCCC AGGTTCACCA CCTCTATCCA CGGATAAAGG AAGAAGTCGC 
    AAATCATCCA AAAGTTCAAA GGACAGGGAT AGACGTAAGC GGAAGGAGGG AAGAGGAGAC 
    AAGGAAAAGA GAAAAAAGAG GAAAGAGGAG AAGGAATCAG GTGAAGGTAA AAGGGAAAGT 
    AAAGCGGGTG ACCATGAAAA TAGGAGTGAA AAAGAGATCA AAGACAAGGA TAGGGAACAA 
    AGAAGTAGTC GAAGTGATAG TCGCAGGAGG AAAAAGAGAC GCAGGAGCAC TCCAGAACAT 
    TCCTCCCGCT CCCACTCACA GAATGCCTCC CGACACAACA CGCATAGCCG CAGATCTTGG 
    TCCAGCCACT CAGAAGACAG GCACAAAGAT AAAGAGAGGG AGAGAGAGCG AGAAAGGAAC 
    CATGCAAGAG ACAGGGATAG GGACCGTTGG CGAGATGACA GGGATAGAGA GAGAGACAGA 
    GAATCCAGAA GAAGAGATGA AAGAAGGAGA GATAGAGAGG AAGATACTAG GAGGTCCAAT 
    AGCAGAGAGA GAGTCAATAC AAGAAGAAGC AGAGACAGGA GAGACAGAGA GAAAGAAATG 
    GTAAGAGACA GAGATCGAGA CAGGGACAGG AGAAGAGACA GCAGACCTGT TGTACCCCCG 
    TCAATTCAGG ATCTCAATGG CTCTGATCTT TTCGCAATTA AACGTACAAT TACTGTTACT 
    ACCACTACTA CCACCACCAC AGTCCCAAAT TCACCACCAC GTAGCCAACG GCGCTCCCAT 
    AGCCGATCTC AGAGTTCAGA CAAACATCGT AAGAGGAAGA AGAAACGCAG GAGACGATCA 
    GAGGATGAAG AAAGGAAGGA TGAGGGAAGC AGGAGCAGGT CCCGACCCAC CTCCCTCTCA 
    CCTCCTCGTT TTGGGTATGA ATCAGATCAT CTTTCAGACC GTCCTGAGGT AGACATGCTC 
    TCTTTGGATG GGGAAGCACT AGATTCAGAT TACCCTTCTC TAGAGGACTC ACCACTACTT 
    TCCCCTCCTC CTGAGCCCCC TATACCCAGT CCCAAAATTC AATCCGGAGC ACCTAAAACC 
    AGCCGTCATC ATCTGAAGAA GAAATCCAGA TCTGGCAAGA CAGTTGGCAA CACCAATTCC 
    CTTCAGCCCA CAGCTTCCTC ATCTACTACC AAGCGGGAAA GGAAAACTGG TAAGGAAAAA 
    GTTGGAAAGA AGGATGCCGG GCGTTCTGGG AGGTCCAAGA AGCTCAGTGG GGGCAGCAGA 
    AAGGGTAAGC TCCAGTCTAA AGTGTCTGTC CTAGTACGTG AGGGTGTTAG CAGCACCACT 
    GGAAACTCTG GGAAATTGGG CCTTGATCTT CTTGGACCTG GTGGTGTTGT AAGTGGAGCT 
    TCGGGGCCCT CAGTCGTTGG TGGGTCTATT GCCGTGGTGT TCCGCCGAGA CAATGAGAGC 
    CGGTCACCTT TTCTTAAGCC CTGCTCAGAT ACATTGGCTC TTCCCGGAAG AGGCAAAGAC 
    CCAAGCAAAA CTGGGAAGCA ACGCAACATC CTCGGGCCTC CGTCATCAAC AAACCAGAGT 
    GGACTGAAGC CTAAGAAAGC CAAGCCAAGC TCTGCTACAT CCACATCCTC ATCTGCCTCT 
    TCCCCTACTT CCTCACTGGC AGCAAAACGT AGAAGGAGGC CTGGAAAGAA GCCTAGAGAA 
    AAAGGACTGA CTGTGGATGG AAGTGATTCT AAAGGTGCTA ATAGTAGTTG TAGCACAGTT 
    GGTGGTGGTT GGGGCGGAGT ATCAACAGAA ATGCAGCCGT TGATTGGGGT TGGATCCAAG 
    CCATCCAGTC CTCCTTCAGC TCCTCCTGGA CCCACTCCCT CATCCTCTTC ATCGTCCTCC 
    ACTTCTTCAT CAGCTAGTAT CCTTCCTCCA TCCTCCTCAC CACCACACAC ATCCCCACTG 
    TCTTTGCCTC CATCTCGAGA TACAAGAGAG TCGTCCCCAG ACTCTCAAAC TGTTGATAGT 
    AGCTGCAAGA CGCCAGAGCC TTCATTTCTC TTAGAGGATG GCCCTGTTCA GTCCAAAGCC 
    TCATCTCTTA CACCATCAAA GTCCCCTGCC AGCCCTCCTG GTCTGCTGAC ATCACAGATA 
    AGGGGTGATA CAATATCCCA GTCCACTACC ATTTCTAAGC CTCCCCCACC AGATGATCAA 
    AAAGCATCGC CACCATGCTC TACTTCAGCT GCTTCATTGT CAGTTATCTC CCATTCCAGT 
    GCTACGCTAG CAAATGATCC TTCTTCCTCC TCCTCCTCTT CAGTATCTTC ATCTTCAGTA 
    AACAAGCCAC CACCACCTCC GCCTCCACCC CCATCAGCTC CACCATTACC CTGGAGTCTA 
    CAAACCGGAG TGGACTGCAC TGCTGGAGGT GTTTTGGCAT TGACTGCTCT CCTTTTCAAA 
    ATGGAGGAGG CCAATATAGC CAGTAGAGCC AAAGCACAGG AGTTTATACA GGCTACAAGT 
    CAGATTCTCT CTCAGGCCAA TCAGAACCAG TCACAGCCTC ACCCTTCTTC ATCATCTTGT 
    TCATCTGTTT CCTCACAAGT TCCTCCACCT CCATCACATG CTCCACCCCC AGGCCCCACT 
    CCTGCGCAGT TTATTCTTCA CAGCTCTGTT CCTATGGTTG GCTGCACCAA AACCCCTCCC 
    TCACACTTGC ATTCTGGACT CTCCATGGGT GGAGGCTGTG CTCAAACTCC TCCACCTCCA 
    GGATTAACTG GGCCAACAGG AGGCAGTGAA ACAGGCTGGG ACAGTGAAAG CAAAGACCCA 
    GATAAGTATC TGAAAAAGCT GCACACCCAG GAGAGGGCAG TAGAGGAAGT CAAATTGGCA 
    ATCAAGCCAT ATTACCAGCG CAAGGACATC AACAAAGATG ACTACAAGGA TATTTTAAGG 
    AAAGCTGTGC ACAAGATTTG TCACAGCCGA ACAGGCGAAA TCAATCCAGT GAAAGTGAGT 
    AACCTGGTCA AGCTTTACGT CCAGAGGTAC AAATATTTCA GAAAGCACGG CCGCAAGATG 
    GACGACGAAG AGAGAGAAGA CAGAGAGTCT GCCTCCATGC ATTCCTCATC ATGA

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

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