SCAF8 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following SCAF8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SCAF8 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.

Online Only Promotion

Up to 50% OFF! Starting
from $49/clone

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu00986 NM_001286188.1
Latest version!
Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu01060 NM_001286189.1
Latest version!
Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu01140 NM_001286194.1
Latest version!
Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu10108 NM_001286199.1
Latest version!
Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $384.30
$549.00
OHu10108 NM_014892.4
Latest version!
Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $384.30
$549.00

ORF Online Only Promotion

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

*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

  • Reference Sequences (Refseq)
    CloneID OHu00986
    Clone ID Related Accession (Same CDS sequence) NM_001286188.1
    Accession Version NM_001286188.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4050bp)
    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 2019-09-21
    Organism Homo sapiens(human)
    Product SR-related and CTD-associated factor 8 isoform a
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC070071.1, AK295651.1 and BX090356.1. Transcript Variant: This variant (1) encodes the longest isoform (a). ##Evidence-Data-START## Transcript exon combination :: AK295651.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGCCGCAGC CGCTGCTGCC AGCGCTTCCT CCTCTGTCTT CGCCGAGCGG GGCTGGTTCC 
    TGCGGCCCGA GCGGCGGGGA GGTGAAACAG GAGCCCGTCG GAGGAAGGGG CAGAAGGGAG
    TGGAGAGTCG CCCCCTCCTC GCGGCCACGC AGCAGCCCGC GTCTCGCTCT CCCCACCCAG
    TGCAGTGGCC GCCGCCTCTT CCGCCGCCGG GCTCGGGGCC TCCGCAGCGA CAACATGGAG
    GCCGTGAAGA CCTTCAATAG CGAGTTGTAT TCCCTGAATG ACTATAAACC ACCCATTTCG
    AAAGCGAAAA TGACCCAAAT TACTAAGGCA GCCATCAAAG CTATTAAGTT CTATAAACAT
    GTGGTACAGA GTGTTGAGAA GTTTATTCAG AAATGTAAAC CAGAATACAA AGTACCTGGA
    CTTTATGTTA TTGACTCCAT TGTGCGACAA TCCCGACATC AGTTTGGTCA AGAAAAGGAT
    GTGTTTGCAC CCAGATTTAG TAATAACATC ATTAGCACTT TCCAGAATTT ATATCGTTGC
    CCTGGGGATG ACAAGAGTAA AATAGTGAGA GTACTAAACT TATGGCAGAA GAATAATGTA
    TTTAAGAGTG AGATTATTCA GCCCCTTTTG GATATGGCAG CCGGGATTCC GCCTCCAGTT
    GTCACACCTG TTTTGGCCAG CACTACCACT GCTATGAGCA ATACTCCAGG AACTCCTGTG
    ACACCTGTTA CTCCGGCCAA TGTGGTCCAA GGCTTACCTG ATCCGTGGGT ATCTCAGATA
    ACAAATACAG ATACACTTGC GGCTGTAGCT CAGATCTTGC AAAGTCCTCA AGGCCAGCAG
    CTTCAACAAT TAATACAAAC CTTACAGATA CAACAACAGA AGCCCCAGCC TTCCATTCTG
    CAGGCCCTAG ATGCTGGTCT TGTTGTTCAG TTGCAAGCTC TTACGGCACA ACTTACAGCT
    GCAGCTGCAG CTGCCAACAC TCTTACTCCC TTAGAACAGG GAGTCTCCTT TAACAAGAAG
    TTGATGGATA GGTTTGATTT TGGGGAAGAC TCTGAGCATA GTGAAGAACC CAAAAAGGAA
    ATTCCAGCTT CACAACTTTC TCACGTTTCA GAATCTGTGA ACAATTCCAT TTTTCATCAG
    ATAGCAGAAC AACTACAACA GCAAAACCTA GAACATCTCA GACAGCAGCT CTTGGAGCAG
    CAACAGCCTC AAAAGGCCAC TCCTCAGGAT AGTCAGGAAG GAACCTTTGG GTCAGAGCAT
    TCAGCGTCAC CATCACAAGG GAGTAGTCAG CAGCATTTTC TTGAACCTGA AGTCAATTTG
    GATGATTCCA TAGATATTCA GCAACAGGAT ATGGATATAG ATGAAGGGCA AGATGGAGTG
    GAAGAGGAGG TCTTTGAACA AGAAGCTAAG AAAGTGGCGG TTCGCTCAAG ATCAAGAACA
    CATTCACGAT CTCGTTCAAG ATCACCAAGA AAACGAAGGT CTAGGTCACG GTCTGGCTCT
    AGAAAGCGTA AACACAGAAA GCGATCACGC TCCCGCTCAA GAGAAAGAAA GAGGAAATCA
    TCACGGTCGT ATTCAAGTGA AAGGAGAGCC AGAGAAAGGG AGAAAGAACG ACAGAAAAAG
    GGATTACCTC CAATTAGATC TAAAACACTA AGTGTATGTA GTACTACTCT CTGGGTTGGG
    CAAGTGGACA AGAAGGCAAC ACAGCAAGAC TTAACCAACC TGTTTGAAGA GTTTGGACAG
    ATTGAATCCA TTAATATGAT TCCTCCCCGG GGCTGTGCTT ATGTCTGCAT GGTTCATCGA
    CAAGATGCAT TTCGAGCTCT TCAGAAACTC AGTTCTGGAT CATATAAAAT TGGGTCCAAG
    GTCATTAAGA TCGCTTGGGC TTTAAACAAA GGTGTAAAAA CAGAATACAA ACAATTCTGG
    GATGTGGATC TTGGAGTTAC ATATATACCA TGGGAAAAAG TTAAAGTGGA TGACTTGGAA
    GGTTTTGCAG AAGGAGGCAT GATTGATCAG GAGACTGTAA ATACTGAGTG GGAAACTGTG
    AAAAGCTCAG AACCTGTTAA AGAGACGGTC CAGACAACTC AGAGCCCAAC TCCAGTTGAA
    AAGGAGACAG TGGTCACAAC CCAGGCAGAG GTTTTCCCTC CTCCTGTTGC TATGTTGCAG
    ATTCCAGTGG CGCCAGCCGT GCCTACAGTT AGTTTAGTCC CACCAGCATT TCCTGTGTCG
    ATGCCGGTTC CTCCTCCTGG ATTCAGTCCA ATCCCTCCAC CTCCTTTTTT AAGAGCAAGT
    TTTAACCCTT CACAACCACC ACCTGGTTTC ATGCCGCCTC CAGTTCCCCC ACCTGTTGTG
    CCACCCCCTA CGATTCCACC AGTAGTACCA ACATCTTTAG TGCAGCCGTC ATTATCCATG
    ACACCGGAAA CTGTGAAAGA TGTTGGATTT GGTAGCCTTG TTATACCAGG CGGTTCTGTT
    GCCAGCAATC TTGCTACTTC CGCTCTGCCA GCTGGAAATG TTTTTAATGC TCCAACTAAA
    CAGGCAGAGC CTGAAGAAAA AGTACCTCAT CTTATAGACC ACCAGATTTC TTCTGGTGAA
    AACACCAGAT CAGTGATTCC AAATGATATT TCAAGTAATG CTGCAATTTT AGGAGGACAG
    CCGCCAAATG TGACAAGCAA TTCTGGAATT CTGGGAGTCC AAAGACCAAA TGTATCAAGT
    AATTCTGAAA TTCTTGGGGT CCGGCCATCT AATGTTTCCA GTAGTTCTGG GATTATTGCA
    GCCCAACCAC CAAATATTCT AAATAACTCT GGAATATTGG GAATACAGCC ACCCAGTGTG
    TCAAATAGTT CTGGACTTTT GGGAGTGCTA CCCCCAAATA TACCTAACAA TTCTGGACTT
    GTAGGAGTAC AGCCACCAAA TGTTCCAAAT ACTCCTGGAC TTCTGGGAAC ACAGCCACCA
    GCTGGACCTC AAAACTTACC CCCTTTAAGT ATCCCTAATC AAAGGATGCC CACAATGCCA
    ATGTTAGACA TTCGTCCGGG ACTAATACCA CAGGCACCTG GGCCAAGATT CCCTTTAATA
    CAGCCTGGAA TTCCACCCCA ACGGGGAATC CCACCCCCAT CGGTACTTGA TTCAGCTCTT
    CATCCACCAC CCCGTGGACC TTTTCCTCCA GGAGATATTT TTAGTCAACC AGAAAGACCT
    TTTTTAGCTC CTGGAAGACA AAGCGTAGAC AATGTTACTA ACCCAGAAAA AAGGATACCA
    CTTGGGAATG ATAACATTCA ACAGGAAGGA GATAGAGATT ACCGGTTTCC TCCTATAGAA
    ACCAGGGAAA GCATTAGTAG ACCTCCCCCT GTGGATGTTA GAGATGTGGT TGGGCGGCCT
    ATAGATCCAA GAGAAGGTCC TGGACGGCCT CCACTAGATG GTAGGGATCA TTTTGGAAGA
    CCTCCTGTAG ATATAAGAGA GAATCTTGTG AGGCCAGGTA TAGATCATCT TGGTCGAAGA
    GACCACTTTG GCTTTAATCC AGAGAAGCCC TGGGGGCATA GAGGAGATTT TGATGAGAGA
    GAGCATCGGG TTCTACCGGT CTATGGTGGT CCAAAAGGCT TACATGAAGA AAGAGGTAGA
    TTTCGGTCTG GAAACTATCG ATTTGATCCT AGAAGTGGTC CTTGGAACCG AGGATTTGGA
    CAAGAAGTTC ACAGAGATTT TGATGACCGC AGAAGACCCT GGGAGAGGCA AAGGGATAGG
    GATGACAGAG ATTTTGATTT CTGCAGAGAA ATGAATGGAA ATCGTCTTGG ACGAGACAGA
    ATTCAAAACA CTTGGGTTCC CCCTCCTCAT GCTCGGGTTT TTGATTATTT TGAAGGGGCC
    ACTTCTCAAC GAAAAGGTGA TAATGTGCCT CAGGTTAATG GTGAAAATAC AGAGAGACAT
    GCTCAGCCAC CACCTATACC AGTACAGAAT GATCCTGAAC TTTATGAAAA ACTGACATCT
    TCAAATGAAA TAAACAAGGA GAAGAGTGAC ACAGTTGCTG ATATAGAAAG TGAACCAGTG
    GTAGAAAGCA CAGAAACTGA GGGGACATAA

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

    RefSeq NP_001273117.1
    CDS46..4095
    Translation

    Target ORF information:

    RefSeq Version NM_001286188.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001286188.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGCCGCAGC CGCTGCTGCC AGCGCTTCCT CCTCTGTCTT CGCCGAGCGG GGCTGGTTCC 
    TGCGGCCCGA GCGGCGGGGA GGTGAAACAG GAGCCCGTCG GAGGAAGGGG CAGAAGGGAG
    TGGAGAGTCG CCCCCTCCTC GCGGCCACGC AGCAGCCCGC GTCTCGCTCT CCCCACCCAG
    TGCAGTGGCC GCCGCCTCTT CCGCCGCCGG GCTCGGGGCC TCCGCAGCGA CAACATGGAG
    GCCGTGAAGA CCTTCAATAG CGAGTTGTAT TCCCTGAATG ACTATAAACC ACCCATTTCG
    AAAGCGAAAA TGACCCAAAT TACTAAGGCA GCCATCAAAG CTATTAAGTT CTATAAACAT
    GTGGTACAGA GTGTTGAGAA GTTTATTCAG AAATGTAAAC CAGAATACAA AGTACCTGGA
    CTTTATGTTA TTGACTCCAT TGTGCGACAA TCCCGACATC AGTTTGGTCA AGAAAAGGAT
    GTGTTTGCAC CCAGATTTAG TAATAACATC ATTAGCACTT TCCAGAATTT ATATCGTTGC
    CCTGGGGATG ACAAGAGTAA AATAGTGAGA GTACTAAACT TATGGCAGAA GAATAATGTA
    TTTAAGAGTG AGATTATTCA GCCCCTTTTG GATATGGCAG CCGGGATTCC GCCTCCAGTT
    GTCACACCTG TTTTGGCCAG CACTACCACT GCTATGAGCA ATACTCCAGG AACTCCTGTG
    ACACCTGTTA CTCCGGCCAA TGTGGTCCAA GGCTTACCTG ATCCGTGGGT ATCTCAGATA
    ACAAATACAG ATACACTTGC GGCTGTAGCT CAGATCTTGC AAAGTCCTCA AGGCCAGCAG
    CTTCAACAAT TAATACAAAC CTTACAGATA CAACAACAGA AGCCCCAGCC TTCCATTCTG
    CAGGCCCTAG ATGCTGGTCT TGTTGTTCAG TTGCAAGCTC TTACGGCACA ACTTACAGCT
    GCAGCTGCAG CTGCCAACAC TCTTACTCCC TTAGAACAGG GAGTCTCCTT TAACAAGAAG
    TTGATGGATA GGTTTGATTT TGGGGAAGAC TCTGAGCATA GTGAAGAACC CAAAAAGGAA
    ATTCCAGCTT CACAACTTTC TCACGTTTCA GAATCTGTGA ACAATTCCAT TTTTCATCAG
    ATAGCAGAAC AACTACAACA GCAAAACCTA GAACATCTCA GACAGCAGCT CTTGGAGCAG
    CAACAGCCTC AAAAGGCCAC TCCTCAGGAT AGTCAGGAAG GAACCTTTGG GTCAGAGCAT
    TCAGCGTCAC CATCACAAGG GAGTAGTCAG CAGCATTTTC TTGAACCTGA AGTCAATTTG
    GATGATTCCA TAGATATTCA GCAACAGGAT ATGGATATAG ATGAAGGGCA AGATGGAGTG
    GAAGAGGAGG TCTTTGAACA AGAAGCTAAG AAAGTGGCGG TTCGCTCAAG ATCAAGAACA
    CATTCACGAT CTCGTTCAAG ATCACCAAGA AAACGAAGGT CTAGGTCACG GTCTGGCTCT
    AGAAAGCGTA AACACAGAAA GCGATCACGC TCCCGCTCAA GAGAAAGAAA GAGGAAATCA
    TCACGGTCGT ATTCAAGTGA AAGGAGAGCC AGAGAAAGGG AGAAAGAACG ACAGAAAAAG
    GGATTACCTC CAATTAGATC TAAAACACTA AGTGTATGTA GTACTACTCT CTGGGTTGGG
    CAAGTGGACA AGAAGGCAAC ACAGCAAGAC TTAACCAACC TGTTTGAAGA GTTTGGACAG
    ATTGAATCCA TTAATATGAT TCCTCCCCGG GGCTGTGCTT ATGTCTGCAT GGTTCATCGA
    CAAGATGCAT TTCGAGCTCT TCAGAAACTC AGTTCTGGAT CATATAAAAT TGGGTCCAAG
    GTCATTAAGA TCGCTTGGGC TTTAAACAAA GGTGTAAAAA CAGAATACAA ACAATTCTGG
    GATGTGGATC TTGGAGTTAC ATATATACCA TGGGAAAAAG TTAAAGTGGA TGACTTGGAA
    GGTTTTGCAG AAGGAGGCAT GATTGATCAG GAGACTGTAA ATACTGAGTG GGAAACTGTG
    AAAAGCTCAG AACCTGTTAA AGAGACGGTC CAGACAACTC AGAGCCCAAC TCCAGTTGAA
    AAGGAGACAG TGGTCACAAC CCAGGCAGAG GTTTTCCCTC CTCCTGTTGC TATGTTGCAG
    ATTCCAGTGG CGCCAGCCGT GCCTACAGTT AGTTTAGTCC CACCAGCATT TCCTGTGTCG
    ATGCCGGTTC CTCCTCCTGG ATTCAGTCCA ATCCCTCCAC CTCCTTTTTT AAGAGCAAGT
    TTTAACCCTT CACAACCACC ACCTGGTTTC ATGCCGCCTC CAGTTCCCCC ACCTGTTGTG
    CCACCCCCTA CGATTCCACC AGTAGTACCA ACATCTTTAG TGCAGCCGTC ATTATCCATG
    ACACCGGAAA CTGTGAAAGA TGTTGGATTT GGTAGCCTTG TTATACCAGG CGGTTCTGTT
    GCCAGCAATC TTGCTACTTC CGCTCTGCCA GCTGGAAATG TTTTTAATGC TCCAACTAAA
    CAGGCAGAGC CTGAAGAAAA AGTACCTCAT CTTATAGACC ACCAGATTTC TTCTGGTGAA
    AACACCAGAT CAGTGATTCC AAATGATATT TCAAGTAATG CTGCAATTTT AGGAGGACAG
    CCGCCAAATG TGACAAGCAA TTCTGGAATT CTGGGAGTCC AAAGACCAAA TGTATCAAGT
    AATTCTGAAA TTCTTGGGGT CCGGCCATCT AATGTTTCCA GTAGTTCTGG GATTATTGCA
    GCCCAACCAC CAAATATTCT AAATAACTCT GGAATATTGG GAATACAGCC ACCCAGTGTG
    TCAAATAGTT CTGGACTTTT GGGAGTGCTA CCCCCAAATA TACCTAACAA TTCTGGACTT
    GTAGGAGTAC AGCCACCAAA TGTTCCAAAT ACTCCTGGAC TTCTGGGAAC ACAGCCACCA
    GCTGGACCTC AAAACTTACC CCCTTTAAGT ATCCCTAATC AAAGGATGCC CACAATGCCA
    ATGTTAGACA TTCGTCCGGG ACTAATACCA CAGGCACCTG GGCCAAGATT CCCTTTAATA
    CAGCCTGGAA TTCCACCCCA ACGGGGAATC CCACCCCCAT CGGTACTTGA TTCAGCTCTT
    CATCCACCAC CCCGTGGACC TTTTCCTCCA GGAGATATTT TTAGTCAACC AGAAAGACCT
    TTTTTAGCTC CTGGAAGACA AAGCGTAGAC AATGTTACTA ACCCAGAAAA AAGGATACCA
    CTTGGGAATG ATAACATTCA ACAGGAAGGA GATAGAGATT ACCGGTTTCC TCCTATAGAA
    ACCAGGGAAA GCATTAGTAG ACCTCCCCCT GTGGATGTTA GAGATGTGGT TGGGCGGCCT
    ATAGATCCAA GAGAAGGTCC TGGACGGCCT CCACTAGATG GTAGGGATCA TTTTGGAAGA
    CCTCCTGTAG ATATAAGAGA GAATCTTGTG AGGCCAGGTA TAGATCATCT TGGTCGAAGA
    GACCACTTTG GCTTTAATCC AGAGAAGCCC TGGGGGCATA GAGGAGATTT TGATGAGAGA
    GAGCATCGGG TTCTACCGGT CTATGGTGGT CCAAAAGGCT TACATGAAGA AAGAGGTAGA
    TTTCGGTCTG GAAACTATCG ATTTGATCCT AGAAGTGGTC CTTGGAACCG AGGATTTGGA
    CAAGAAGTTC ACAGAGATTT TGATGACCGC AGAAGACCCT GGGAGAGGCA AAGGGATAGG
    GATGACAGAG ATTTTGATTT CTGCAGAGAA ATGAATGGAA ATCGTCTTGG ACGAGACAGA
    ATTCAAAACA CTTGGGTTCC CCCTCCTCAT GCTCGGGTTT TTGATTATTT TGAAGGGGCC
    ACTTCTCAAC GAAAAGGTGA TAATGTGCCT CAGGTTAATG GTGAAAATAC AGAGAGACAT
    GCTCAGCCAC CACCTATACC AGTACAGAAT GATCCTGAAC TTTATGAAAA ACTGACATCT
    TCAAATGAAA TAAACAAGGA GAAGAGTGAC ACAGTTGCTG ATATAGAAAG TGAACCAGTG
    GTAGAAAGCA CAGAAACTGA GGGGACATAA

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

    CloneID OHu01060
    Clone ID Related Accession (Same CDS sequence) NM_001286189.1
    Accession Version NM_001286189.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4014bp)
    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 2019-09-21
    Organism Homo sapiens(human)
    Product SR-related and CTD-associated factor 8 isoform b
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC070071.1, AK303001.1 and BX090356.1. On Oct 31, 2013 this sequence version replaced XM_005266866.1. Transcript Variant: This variant (2) uses two alternate splice sites that result in the loss of an in-frame segment in the 5' coding region, and it also includes an additional in-frame exon in the 5' coding region, compared to variant 1. The encoded isoform (b) is shorter than isoform a. ##Evidence-Data-START## Transcript exon combination :: AK303001.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2161674, SAMEA2467143 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGCCGCAGC CGCTGCTGCC AGCGCTTCCT CCTCTGTCTT CGCCGAGCGG GGCTGGTTCC 
    TGCGGCCCGA GCGGCGGGGA GTGCAGTGGC CGCCGCCTCT TCCGCCGCCG GGCTCGGGGC
    CTCCGCAGCG ACAACATGGA GGCCGTGAAG ACCTTCAATA GCGAGGATTG TGCCTCTACT
    CCTGCTTGTA CAGACTGCTT TTCCAGCAGC ATGGACACAA GAAGCATATT GTATTCCCTG
    AATGACTATA AACCACCCAT TTCGAAAGCG AAAATGACCC AAATTACTAA GGCAGCCATC
    AAAGCTATTA AGTTCTATAA ACATGTGGTA CAGAGTGTTG AGAAGTTTAT TCAGAAATGT
    AAACCAGAAT ACAAAGTACC TGGACTTTAT GTTATTGACT CCATTGTGCG ACAATCCCGA
    CATCAGTTTG GTCAAGAAAA GGATGTGTTT GCACCCAGAT TTAGTAATAA CATCATTAGC
    ACTTTCCAGA ATTTATATCG TTGCCCTGGG GATGACAAGA GTAAAATAGT GAGAGTACTA
    AACTTATGGC AGAAGAATAA TGTATTTAAG AGTGAGATTA TTCAGCCCCT TTTGGATATG
    GCAGCCGGGA TTCCGCCTCC AGTTGTCACA CCTGTTTTGG CCAGCACTAC CACTGCTATG
    AGCAATACTC CAGGAACTCC TGTGACACCT GTTACTCCGG CCAATGTGGT CCAAGGCTTA
    CCTGATCCGT GGGTATCTCA GATAACAAAT ACAGATACAC TTGCGGCTGT AGCTCAGATC
    TTGCAAAGTC CTCAAGGCCA GCAGCTTCAA CAATTAATAC AAACCTTACA GATACAACAA
    CAGAAGCCCC AGCCTTCCAT TCTGCAGGCC CTAGATGCTG GTCTTGTTGT TCAGTTGCAA
    GCTCTTACGG CACAACTTAC AGCTGCAGCT GCAGCTGCCA ACACTCTTAC TCCCTTAGAA
    CAGGGAGTCT CCTTTAACAA GAAGTTGATG GATAGGTTTG ATTTTGGGGA AGACTCTGAG
    CATAGTGAAG AACCCAAAAA GGAAATTCCA GCTTCACAAC TTTCTCACGT TTCAGAATCT
    GTGAACAATT CCATTTTTCA TCAGATAGCA GAACAACTAC AACAGCAAAA CCTAGAACAT
    CTCAGACAGC AGCTCTTGGA GCAGCAACAG CCTCAAAAGG CCACTCCTCA GGATAGTCAG
    GAAGGAACCT TTGGGTCAGA GCATTCAGCG TCACCATCAC AAGGGAGTAG TCAGCAGCAT
    TTTCTTGAAC CTGAAGTCAA TTTGGATGAT TCCATAGATA TTCAGCAACA GGATATGGAT
    ATAGATGAAG GGCAAGATGG AGTGGAAGAG GAGGTCTTTG AACAAGAAGC TAAGAAAGTG
    GCGGTTCGCT CAAGATCAAG AACACATTCA CGATCTCGTT CAAGATCACC AAGAAAACGA
    AGGTCTAGGT CACGGTCTGG CTCTAGAAAG CGTAAACACA GAAAGCGATC ACGCTCCCGC
    TCAAGAGAAA GAAAGAGGAA ATCATCACGG TCGTATTCAA GTGAAAGGAG AGCCAGAGAA
    AGGGAGAAAG AACGACAGAA AAAGGGATTA CCTCCAATTA GATCTAAAAC ACTAAGTGTA
    TGTAGTACTA CTCTCTGGGT TGGGCAAGTG GACAAGAAGG CAACACAGCA AGACTTAACC
    AACCTGTTTG AAGAGTTTGG ACAGATTGAA TCCATTAATA TGATTCCTCC CCGGGGCTGT
    GCTTATGTCT GCATGGTTCA TCGACAAGAT GCATTTCGAG CTCTTCAGAA ACTCAGTTCT
    GGATCATATA AAATTGGGTC CAAGGTCATT AAGATCGCTT GGGCTTTAAA CAAAGGTGTA
    AAAACAGAAT ACAAACAATT CTGGGATGTG GATCTTGGAG TTACATATAT ACCATGGGAA
    AAAGTTAAAG TGGATGACTT GGAAGGTTTT GCAGAAGGAG GCATGATTGA TCAGGAGACT
    GTAAATACTG AGTGGGAAAC TGTGAAAAGC TCAGAACCTG TTAAAGAGAC GGTCCAGACA
    ACTCAGAGCC CAACTCCAGT TGAAAAGGAG ACAGTGGTCA CAACCCAGGC AGAGGTTTTC
    CCTCCTCCTG TTGCTATGTT GCAGATTCCA GTGGCGCCAG CCGTGCCTAC AGTTAGTTTA
    GTCCCACCAG CATTTCCTGT GTCGATGCCG GTTCCTCCTC CTGGATTCAG TCCAATCCCT
    CCACCTCCTT TTTTAAGAGC AAGTTTTAAC CCTTCACAAC CACCACCTGG TTTCATGCCG
    CCTCCAGTTC CCCCACCTGT TGTGCCACCC CCTACGATTC CACCAGTAGT ACCAACATCT
    TTAGTGCAGC CGTCATTATC CATGACACCG GAAACTGTGA AAGATGTTGG ATTTGGTAGC
    CTTGTTATAC CAGGCGGTTC TGTTGCCAGC AATCTTGCTA CTTCCGCTCT GCCAGCTGGA
    AATGTTTTTA ATGCTCCAAC TAAACAGGCA GAGCCTGAAG AAAAAGTACC TCATCTTATA
    GACCACCAGA TTTCTTCTGG TGAAAACACC AGATCAGTGA TTCCAAATGA TATTTCAAGT
    AATGCTGCAA TTTTAGGAGG ACAGCCGCCA AATGTGACAA GCAATTCTGG AATTCTGGGA
    GTCCAAAGAC CAAATGTATC AAGTAATTCT GAAATTCTTG GGGTCCGGCC ATCTAATGTT
    TCCAGTAGTT CTGGGATTAT TGCAGCCCAA CCACCAAATA TTCTAAATAA CTCTGGAATA
    TTGGGAATAC AGCCACCCAG TGTGTCAAAT AGTTCTGGAC TTTTGGGAGT GCTACCCCCA
    AATATACCTA ACAATTCTGG ACTTGTAGGA GTACAGCCAC CAAATGTTCC AAATACTCCT
    GGACTTCTGG GAACACAGCC ACCAGCTGGA CCTCAAAACT TACCCCCTTT AAGTATCCCT
    AATCAAAGGA TGCCCACAAT GCCAATGTTA GACATTCGTC CGGGACTAAT ACCACAGGCA
    CCTGGGCCAA GATTCCCTTT AATACAGCCT GGAATTCCAC CCCAACGGGG AATCCCACCC
    CCATCGGTAC TTGATTCAGC TCTTCATCCA CCACCCCGTG GACCTTTTCC TCCAGGAGAT
    ATTTTTAGTC AACCAGAAAG ACCTTTTTTA GCTCCTGGAA GACAAAGCGT AGACAATGTT
    ACTAACCCAG AAAAAAGGAT ACCACTTGGG AATGATAACA TTCAACAGGA AGGAGATAGA
    GATTACCGGT TTCCTCCTAT AGAAACCAGG GAAAGCATTA GTAGACCTCC CCCTGTGGAT
    GTTAGAGATG TGGTTGGGCG GCCTATAGAT CCAAGAGAAG GTCCTGGACG GCCTCCACTA
    GATGGTAGGG ATCATTTTGG AAGACCTCCT GTAGATATAA GAGAGAATCT TGTGAGGCCA
    GGTATAGATC ATCTTGGTCG AAGAGACCAC TTTGGCTTTA ATCCAGAGAA GCCCTGGGGG
    CATAGAGGAG ATTTTGATGA GAGAGAGCAT CGGGTTCTAC CGGTCTATGG TGGTCCAAAA
    GGCTTACATG AAGAAAGAGG TAGATTTCGG TCTGGAAACT ATCGATTTGA TCCTAGAAGT
    GGTCCTTGGA ACCGAGGATT TGGACAAGAA GTTCACAGAG ATTTTGATGA CCGCAGAAGA
    CCCTGGGAGA GGCAAAGGGA TAGGGATGAC AGAGATTTTG ATTTCTGCAG AGAAATGAAT
    GGAAATCGTC TTGGACGAGA CAGAATTCAA AACACTTGGG TTCCCCCTCC TCATGCTCGG
    GTTTTTGATT ATTTTGAAGG GGCCACTTCT CAACGAAAAG GTGATAATGT GCCTCAGGTT
    AATGGTGAAA ATACAGAGAG ACATGCTCAG CCACCACCTA TACCAGTACA GAATGATCCT
    GAACTTTATG AAAAACTGAC ATCTTCAAAT GAAATAAACA AGGAGAAGAG TGACACAGTT
    GCTGATATAG AAAGTGAACC AGTGGTAGAA AGCACAGAAA CTGAGGGGAC ATAA

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

    RefSeq NP_001273118.1
    CDS46..4059
    Translation

    Target ORF information:

    RefSeq Version NM_001286189.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001286189.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGCCGCAGC CGCTGCTGCC AGCGCTTCCT CCTCTGTCTT CGCCGAGCGG GGCTGGTTCC 
    TGCGGCCCGA GCGGCGGGGA GTGCAGTGGC CGCCGCCTCT TCCGCCGCCG GGCTCGGGGC
    CTCCGCAGCG ACAACATGGA GGCCGTGAAG ACCTTCAATA GCGAGGATTG TGCCTCTACT
    CCTGCTTGTA CAGACTGCTT TTCCAGCAGC ATGGACACAA GAAGCATATT GTATTCCCTG
    AATGACTATA AACCACCCAT TTCGAAAGCG AAAATGACCC AAATTACTAA GGCAGCCATC
    AAAGCTATTA AGTTCTATAA ACATGTGGTA CAGAGTGTTG AGAAGTTTAT TCAGAAATGT
    AAACCAGAAT ACAAAGTACC TGGACTTTAT GTTATTGACT CCATTGTGCG ACAATCCCGA
    CATCAGTTTG GTCAAGAAAA GGATGTGTTT GCACCCAGAT TTAGTAATAA CATCATTAGC
    ACTTTCCAGA ATTTATATCG TTGCCCTGGG GATGACAAGA GTAAAATAGT GAGAGTACTA
    AACTTATGGC AGAAGAATAA TGTATTTAAG AGTGAGATTA TTCAGCCCCT TTTGGATATG
    GCAGCCGGGA TTCCGCCTCC AGTTGTCACA CCTGTTTTGG CCAGCACTAC CACTGCTATG
    AGCAATACTC CAGGAACTCC TGTGACACCT GTTACTCCGG CCAATGTGGT CCAAGGCTTA
    CCTGATCCGT GGGTATCTCA GATAACAAAT ACAGATACAC TTGCGGCTGT AGCTCAGATC
    TTGCAAAGTC CTCAAGGCCA GCAGCTTCAA CAATTAATAC AAACCTTACA GATACAACAA
    CAGAAGCCCC AGCCTTCCAT TCTGCAGGCC CTAGATGCTG GTCTTGTTGT TCAGTTGCAA
    GCTCTTACGG CACAACTTAC AGCTGCAGCT GCAGCTGCCA ACACTCTTAC TCCCTTAGAA
    CAGGGAGTCT CCTTTAACAA GAAGTTGATG GATAGGTTTG ATTTTGGGGA AGACTCTGAG
    CATAGTGAAG AACCCAAAAA GGAAATTCCA GCTTCACAAC TTTCTCACGT TTCAGAATCT
    GTGAACAATT CCATTTTTCA TCAGATAGCA GAACAACTAC AACAGCAAAA CCTAGAACAT
    CTCAGACAGC AGCTCTTGGA GCAGCAACAG CCTCAAAAGG CCACTCCTCA GGATAGTCAG
    GAAGGAACCT TTGGGTCAGA GCATTCAGCG TCACCATCAC AAGGGAGTAG TCAGCAGCAT
    TTTCTTGAAC CTGAAGTCAA TTTGGATGAT TCCATAGATA TTCAGCAACA GGATATGGAT
    ATAGATGAAG GGCAAGATGG AGTGGAAGAG GAGGTCTTTG AACAAGAAGC TAAGAAAGTG
    GCGGTTCGCT CAAGATCAAG AACACATTCA CGATCTCGTT CAAGATCACC AAGAAAACGA
    AGGTCTAGGT CACGGTCTGG CTCTAGAAAG CGTAAACACA GAAAGCGATC ACGCTCCCGC
    TCAAGAGAAA GAAAGAGGAA ATCATCACGG TCGTATTCAA GTGAAAGGAG AGCCAGAGAA
    AGGGAGAAAG AACGACAGAA AAAGGGATTA CCTCCAATTA GATCTAAAAC ACTAAGTGTA
    TGTAGTACTA CTCTCTGGGT TGGGCAAGTG GACAAGAAGG CAACACAGCA AGACTTAACC
    AACCTGTTTG AAGAGTTTGG ACAGATTGAA TCCATTAATA TGATTCCTCC CCGGGGCTGT
    GCTTATGTCT GCATGGTTCA TCGACAAGAT GCATTTCGAG CTCTTCAGAA ACTCAGTTCT
    GGATCATATA AAATTGGGTC CAAGGTCATT AAGATCGCTT GGGCTTTAAA CAAAGGTGTA
    AAAACAGAAT ACAAACAATT CTGGGATGTG GATCTTGGAG TTACATATAT ACCATGGGAA
    AAAGTTAAAG TGGATGACTT GGAAGGTTTT GCAGAAGGAG GCATGATTGA TCAGGAGACT
    GTAAATACTG AGTGGGAAAC TGTGAAAAGC TCAGAACCTG TTAAAGAGAC GGTCCAGACA
    ACTCAGAGCC CAACTCCAGT TGAAAAGGAG ACAGTGGTCA CAACCCAGGC AGAGGTTTTC
    CCTCCTCCTG TTGCTATGTT GCAGATTCCA GTGGCGCCAG CCGTGCCTAC AGTTAGTTTA
    GTCCCACCAG CATTTCCTGT GTCGATGCCG GTTCCTCCTC CTGGATTCAG TCCAATCCCT
    CCACCTCCTT TTTTAAGAGC AAGTTTTAAC CCTTCACAAC CACCACCTGG TTTCATGCCG
    CCTCCAGTTC CCCCACCTGT TGTGCCACCC CCTACGATTC CACCAGTAGT ACCAACATCT
    TTAGTGCAGC CGTCATTATC CATGACACCG GAAACTGTGA AAGATGTTGG ATTTGGTAGC
    CTTGTTATAC CAGGCGGTTC TGTTGCCAGC AATCTTGCTA CTTCCGCTCT GCCAGCTGGA
    AATGTTTTTA ATGCTCCAAC TAAACAGGCA GAGCCTGAAG AAAAAGTACC TCATCTTATA
    GACCACCAGA TTTCTTCTGG TGAAAACACC AGATCAGTGA TTCCAAATGA TATTTCAAGT
    AATGCTGCAA TTTTAGGAGG ACAGCCGCCA AATGTGACAA GCAATTCTGG AATTCTGGGA
    GTCCAAAGAC CAAATGTATC AAGTAATTCT GAAATTCTTG GGGTCCGGCC ATCTAATGTT
    TCCAGTAGTT CTGGGATTAT TGCAGCCCAA CCACCAAATA TTCTAAATAA CTCTGGAATA
    TTGGGAATAC AGCCACCCAG TGTGTCAAAT AGTTCTGGAC TTTTGGGAGT GCTACCCCCA
    AATATACCTA ACAATTCTGG ACTTGTAGGA GTACAGCCAC CAAATGTTCC AAATACTCCT
    GGACTTCTGG GAACACAGCC ACCAGCTGGA CCTCAAAACT TACCCCCTTT AAGTATCCCT
    AATCAAAGGA TGCCCACAAT GCCAATGTTA GACATTCGTC CGGGACTAAT ACCACAGGCA
    CCTGGGCCAA GATTCCCTTT AATACAGCCT GGAATTCCAC CCCAACGGGG AATCCCACCC
    CCATCGGTAC TTGATTCAGC TCTTCATCCA CCACCCCGTG GACCTTTTCC TCCAGGAGAT
    ATTTTTAGTC AACCAGAAAG ACCTTTTTTA GCTCCTGGAA GACAAAGCGT AGACAATGTT
    ACTAACCCAG AAAAAAGGAT ACCACTTGGG AATGATAACA TTCAACAGGA AGGAGATAGA
    GATTACCGGT TTCCTCCTAT AGAAACCAGG GAAAGCATTA GTAGACCTCC CCCTGTGGAT
    GTTAGAGATG TGGTTGGGCG GCCTATAGAT CCAAGAGAAG GTCCTGGACG GCCTCCACTA
    GATGGTAGGG ATCATTTTGG AAGACCTCCT GTAGATATAA GAGAGAATCT TGTGAGGCCA
    GGTATAGATC ATCTTGGTCG AAGAGACCAC TTTGGCTTTA ATCCAGAGAA GCCCTGGGGG
    CATAGAGGAG ATTTTGATGA GAGAGAGCAT CGGGTTCTAC CGGTCTATGG TGGTCCAAAA
    GGCTTACATG AAGAAAGAGG TAGATTTCGG TCTGGAAACT ATCGATTTGA TCCTAGAAGT
    GGTCCTTGGA ACCGAGGATT TGGACAAGAA GTTCACAGAG ATTTTGATGA CCGCAGAAGA
    CCCTGGGAGA GGCAAAGGGA TAGGGATGAC AGAGATTTTG ATTTCTGCAG AGAAATGAAT
    GGAAATCGTC TTGGACGAGA CAGAATTCAA AACACTTGGG TTCCCCCTCC TCATGCTCGG
    GTTTTTGATT ATTTTGAAGG GGCCACTTCT CAACGAAAAG GTGATAATGT GCCTCAGGTT
    AATGGTGAAA ATACAGAGAG ACATGCTCAG CCACCACCTA TACCAGTACA GAATGATCCT
    GAACTTTATG AAAAACTGAC ATCTTCAAAT GAAATAAACA AGGAGAAGAG TGACACAGTT
    GCTGATATAG AAAGTGAACC AGTGGTAGAA AGCACAGAAA CTGAGGGGAC ATAA

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

    CloneID OHu01140
    Clone ID Related Accession (Same CDS sequence) NM_001286194.1
    Accession Version NM_001286194.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3951bp)
    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 2019-09-21
    Organism Homo sapiens(human)
    Product SR-related and CTD-associated factor 8 isoform c
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC070071.1, AK302969.1, AK295651.1 and BX090356.1. Transcript Variant: This variant (3) uses two alternate splice sites that result in the loss of an in-frame segment in the 5' coding region, compared to variant 1. The encoded isoform (c) is shorter than isoform a. ##Evidence-Data-START## Transcript exon combination :: AK302969.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2142680, SAMEA2155751 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGCCGCAGC CGCTGCTGCC AGCGCTTCCT CCTCTGTCTT CGCCGAGCGG GGCTGGTTCC 
    TGCGGCCCGA GCGGCGGGGA GTGCAGTGGC CGCCGCCTCT TCCGCCGCCG GGCTCGGGGC
    CTCCGCAGCG ACAACATGGA GGCCGTGAAG ACCTTCAATA GCGAGTTGTA TTCCCTGAAT
    GACTATAAAC CACCCATTTC GAAAGCGAAA ATGACCCAAA TTACTAAGGC AGCCATCAAA
    GCTATTAAGT TCTATAAACA TGTGGTACAG AGTGTTGAGA AGTTTATTCA GAAATGTAAA
    CCAGAATACA AAGTACCTGG ACTTTATGTT ATTGACTCCA TTGTGCGACA ATCCCGACAT
    CAGTTTGGTC AAGAAAAGGA TGTGTTTGCA CCCAGATTTA GTAATAACAT CATTAGCACT
    TTCCAGAATT TATATCGTTG CCCTGGGGAT GACAAGAGTA AAATAGTGAG AGTACTAAAC
    TTATGGCAGA AGAATAATGT ATTTAAGAGT GAGATTATTC AGCCCCTTTT GGATATGGCA
    GCCGGGATTC CGCCTCCAGT TGTCACACCT GTTTTGGCCA GCACTACCAC TGCTATGAGC
    AATACTCCAG GAACTCCTGT GACACCTGTT ACTCCGGCCA ATGTGGTCCA AGGCTTACCT
    GATCCGTGGG TATCTCAGAT AACAAATACA GATACACTTG CGGCTGTAGC TCAGATCTTG
    CAAAGTCCTC AAGGCCAGCA GCTTCAACAA TTAATACAAA CCTTACAGAT ACAACAACAG
    AAGCCCCAGC CTTCCATTCT GCAGGCCCTA GATGCTGGTC TTGTTGTTCA GTTGCAAGCT
    CTTACGGCAC AACTTACAGC TGCAGCTGCA GCTGCCAACA CTCTTACTCC CTTAGAACAG
    GGAGTCTCCT TTAACAAGAA GTTGATGGAT AGGTTTGATT TTGGGGAAGA CTCTGAGCAT
    AGTGAAGAAC CCAAAAAGGA AATTCCAGCT TCACAACTTT CTCACGTTTC AGAATCTGTG
    AACAATTCCA TTTTTCATCA GATAGCAGAA CAACTACAAC AGCAAAACCT AGAACATCTC
    AGACAGCAGC TCTTGGAGCA GCAACAGCCT CAAAAGGCCA CTCCTCAGGA TAGTCAGGAA
    GGAACCTTTG GGTCAGAGCA TTCAGCGTCA CCATCACAAG GGAGTAGTCA GCAGCATTTT
    CTTGAACCTG AAGTCAATTT GGATGATTCC ATAGATATTC AGCAACAGGA TATGGATATA
    GATGAAGGGC AAGATGGAGT GGAAGAGGAG GTCTTTGAAC AAGAAGCTAA GAAAGTGGCG
    GTTCGCTCAA GATCAAGAAC ACATTCACGA TCTCGTTCAA GATCACCAAG AAAACGAAGG
    TCTAGGTCAC GGTCTGGCTC TAGAAAGCGT AAACACAGAA AGCGATCACG CTCCCGCTCA
    AGAGAAAGAA AGAGGAAATC ATCACGGTCG TATTCAAGTG AAAGGAGAGC CAGAGAAAGG
    GAGAAAGAAC GACAGAAAAA GGGATTACCT CCAATTAGAT CTAAAACACT AAGTGTATGT
    AGTACTACTC TCTGGGTTGG GCAAGTGGAC AAGAAGGCAA CACAGCAAGA CTTAACCAAC
    CTGTTTGAAG AGTTTGGACA GATTGAATCC ATTAATATGA TTCCTCCCCG GGGCTGTGCT
    TATGTCTGCA TGGTTCATCG ACAAGATGCA TTTCGAGCTC TTCAGAAACT CAGTTCTGGA
    TCATATAAAA TTGGGTCCAA GGTCATTAAG ATCGCTTGGG CTTTAAACAA AGGTGTAAAA
    ACAGAATACA AACAATTCTG GGATGTGGAT CTTGGAGTTA CATATATACC ATGGGAAAAA
    GTTAAAGTGG ATGACTTGGA AGGTTTTGCA GAAGGAGGCA TGATTGATCA GGAGACTGTA
    AATACTGAGT GGGAAACTGT GAAAAGCTCA GAACCTGTTA AAGAGACGGT CCAGACAACT
    CAGAGCCCAA CTCCAGTTGA AAAGGAGACA GTGGTCACAA CCCAGGCAGA GGTTTTCCCT
    CCTCCTGTTG CTATGTTGCA GATTCCAGTG GCGCCAGCCG TGCCTACAGT TAGTTTAGTC
    CCACCAGCAT TTCCTGTGTC GATGCCGGTT CCTCCTCCTG GATTCAGTCC AATCCCTCCA
    CCTCCTTTTT TAAGAGCAAG TTTTAACCCT TCACAACCAC CACCTGGTTT CATGCCGCCT
    CCAGTTCCCC CACCTGTTGT GCCACCCCCT ACGATTCCAC CAGTAGTACC AACATCTTTA
    GTGCAGCCGT CATTATCCAT GACACCGGAA ACTGTGAAAG ATGTTGGATT TGGTAGCCTT
    GTTATACCAG GCGGTTCTGT TGCCAGCAAT CTTGCTACTT CCGCTCTGCC AGCTGGAAAT
    GTTTTTAATG CTCCAACTAA ACAGGCAGAG CCTGAAGAAA AAGTACCTCA TCTTATAGAC
    CACCAGATTT CTTCTGGTGA AAACACCAGA TCAGTGATTC CAAATGATAT TTCAAGTAAT
    GCTGCAATTT TAGGAGGACA GCCGCCAAAT GTGACAAGCA ATTCTGGAAT TCTGGGAGTC
    CAAAGACCAA ATGTATCAAG TAATTCTGAA ATTCTTGGGG TCCGGCCATC TAATGTTTCC
    AGTAGTTCTG GGATTATTGC AGCCCAACCA CCAAATATTC TAAATAACTC TGGAATATTG
    GGAATACAGC CACCCAGTGT GTCAAATAGT TCTGGACTTT TGGGAGTGCT ACCCCCAAAT
    ATACCTAACA ATTCTGGACT TGTAGGAGTA CAGCCACCAA ATGTTCCAAA TACTCCTGGA
    CTTCTGGGAA CACAGCCACC AGCTGGACCT CAAAACTTAC CCCCTTTAAG TATCCCTAAT
    CAAAGGATGC CCACAATGCC AATGTTAGAC ATTCGTCCGG GACTAATACC ACAGGCACCT
    GGGCCAAGAT TCCCTTTAAT ACAGCCTGGA ATTCCACCCC AACGGGGAAT CCCACCCCCA
    TCGGTACTTG ATTCAGCTCT TCATCCACCA CCCCGTGGAC CTTTTCCTCC AGGAGATATT
    TTTAGTCAAC CAGAAAGACC TTTTTTAGCT CCTGGAAGAC AAAGCGTAGA CAATGTTACT
    AACCCAGAAA AAAGGATACC ACTTGGGAAT GATAACATTC AACAGGAAGG AGATAGAGAT
    TACCGGTTTC CTCCTATAGA AACCAGGGAA AGCATTAGTA GACCTCCCCC TGTGGATGTT
    AGAGATGTGG TTGGGCGGCC TATAGATCCA AGAGAAGGTC CTGGACGGCC TCCACTAGAT
    GGTAGGGATC ATTTTGGAAG ACCTCCTGTA GATATAAGAG AGAATCTTGT GAGGCCAGGT
    ATAGATCATC TTGGTCGAAG AGACCACTTT GGCTTTAATC CAGAGAAGCC CTGGGGGCAT
    AGAGGAGATT TTGATGAGAG AGAGCATCGG GTTCTACCGG TCTATGGTGG TCCAAAAGGC
    TTACATGAAG AAAGAGGTAG ATTTCGGTCT GGAAACTATC GATTTGATCC TAGAAGTGGT
    CCTTGGAACC GAGGATTTGG ACAAGAAGTT CACAGAGATT TTGATGACCG CAGAAGACCC
    TGGGAGAGGC AAAGGGATAG GGATGACAGA GATTTTGATT TCTGCAGAGA AATGAATGGA
    AATCGTCTTG GACGAGACAG AATTCAAAAC ACTTGGGTTC CCCCTCCTCA TGCTCGGGTT
    TTTGATTATT TTGAAGGGGC CACTTCTCAA CGAAAAGGTG ATAATGTGCC TCAGGTTAAT
    GGTGAAAATA CAGAGAGACA TGCTCAGCCA CCACCTATAC CAGTACAGAA TGATCCTGAA
    CTTTATGAAA AACTGACATC TTCAAATGAA ATAAACAAGG AGAAGAGTGA CACAGTTGCT
    GATATAGAAA GTGAACCAGT GGTAGAAAGC ACAGAAACTG AGGGGACATA A

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

    RefSeq NP_001273123.1
    CDS46..3996
    Translation

    Target ORF information:

    RefSeq Version NM_001286194.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001286194.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCCGCAGC CGCTGCTGCC AGCGCTTCCT CCTCTGTCTT CGCCGAGCGG GGCTGGTTCC 
    TGCGGCCCGA GCGGCGGGGA GTGCAGTGGC CGCCGCCTCT TCCGCCGCCG GGCTCGGGGC
    CTCCGCAGCG ACAACATGGA GGCCGTGAAG ACCTTCAATA GCGAGTTGTA TTCCCTGAAT
    GACTATAAAC CACCCATTTC GAAAGCGAAA ATGACCCAAA TTACTAAGGC AGCCATCAAA
    GCTATTAAGT TCTATAAACA TGTGGTACAG AGTGTTGAGA AGTTTATTCA GAAATGTAAA
    CCAGAATACA AAGTACCTGG ACTTTATGTT ATTGACTCCA TTGTGCGACA ATCCCGACAT
    CAGTTTGGTC AAGAAAAGGA TGTGTTTGCA CCCAGATTTA GTAATAACAT CATTAGCACT
    TTCCAGAATT TATATCGTTG CCCTGGGGAT GACAAGAGTA AAATAGTGAG AGTACTAAAC
    TTATGGCAGA AGAATAATGT ATTTAAGAGT GAGATTATTC AGCCCCTTTT GGATATGGCA
    GCCGGGATTC CGCCTCCAGT TGTCACACCT GTTTTGGCCA GCACTACCAC TGCTATGAGC
    AATACTCCAG GAACTCCTGT GACACCTGTT ACTCCGGCCA ATGTGGTCCA AGGCTTACCT
    GATCCGTGGG TATCTCAGAT AACAAATACA GATACACTTG CGGCTGTAGC TCAGATCTTG
    CAAAGTCCTC AAGGCCAGCA GCTTCAACAA TTAATACAAA CCTTACAGAT ACAACAACAG
    AAGCCCCAGC CTTCCATTCT GCAGGCCCTA GATGCTGGTC TTGTTGTTCA GTTGCAAGCT
    CTTACGGCAC AACTTACAGC TGCAGCTGCA GCTGCCAACA CTCTTACTCC CTTAGAACAG
    GGAGTCTCCT TTAACAAGAA GTTGATGGAT AGGTTTGATT TTGGGGAAGA CTCTGAGCAT
    AGTGAAGAAC CCAAAAAGGA AATTCCAGCT TCACAACTTT CTCACGTTTC AGAATCTGTG
    AACAATTCCA TTTTTCATCA GATAGCAGAA CAACTACAAC AGCAAAACCT AGAACATCTC
    AGACAGCAGC TCTTGGAGCA GCAACAGCCT CAAAAGGCCA CTCCTCAGGA TAGTCAGGAA
    GGAACCTTTG GGTCAGAGCA TTCAGCGTCA CCATCACAAG GGAGTAGTCA GCAGCATTTT
    CTTGAACCTG AAGTCAATTT GGATGATTCC ATAGATATTC AGCAACAGGA TATGGATATA
    GATGAAGGGC AAGATGGAGT GGAAGAGGAG GTCTTTGAAC AAGAAGCTAA GAAAGTGGCG
    GTTCGCTCAA GATCAAGAAC ACATTCACGA TCTCGTTCAA GATCACCAAG AAAACGAAGG
    TCTAGGTCAC GGTCTGGCTC TAGAAAGCGT AAACACAGAA AGCGATCACG CTCCCGCTCA
    AGAGAAAGAA AGAGGAAATC ATCACGGTCG TATTCAAGTG AAAGGAGAGC CAGAGAAAGG
    GAGAAAGAAC GACAGAAAAA GGGATTACCT CCAATTAGAT CTAAAACACT AAGTGTATGT
    AGTACTACTC TCTGGGTTGG GCAAGTGGAC AAGAAGGCAA CACAGCAAGA CTTAACCAAC
    CTGTTTGAAG AGTTTGGACA GATTGAATCC ATTAATATGA TTCCTCCCCG GGGCTGTGCT
    TATGTCTGCA TGGTTCATCG ACAAGATGCA TTTCGAGCTC TTCAGAAACT CAGTTCTGGA
    TCATATAAAA TTGGGTCCAA GGTCATTAAG ATCGCTTGGG CTTTAAACAA AGGTGTAAAA
    ACAGAATACA AACAATTCTG GGATGTGGAT CTTGGAGTTA CATATATACC ATGGGAAAAA
    GTTAAAGTGG ATGACTTGGA AGGTTTTGCA GAAGGAGGCA TGATTGATCA GGAGACTGTA
    AATACTGAGT GGGAAACTGT GAAAAGCTCA GAACCTGTTA AAGAGACGGT CCAGACAACT
    CAGAGCCCAA CTCCAGTTGA AAAGGAGACA GTGGTCACAA CCCAGGCAGA GGTTTTCCCT
    CCTCCTGTTG CTATGTTGCA GATTCCAGTG GCGCCAGCCG TGCCTACAGT TAGTTTAGTC
    CCACCAGCAT TTCCTGTGTC GATGCCGGTT CCTCCTCCTG GATTCAGTCC AATCCCTCCA
    CCTCCTTTTT TAAGAGCAAG TTTTAACCCT TCACAACCAC CACCTGGTTT CATGCCGCCT
    CCAGTTCCCC CACCTGTTGT GCCACCCCCT ACGATTCCAC CAGTAGTACC AACATCTTTA
    GTGCAGCCGT CATTATCCAT GACACCGGAA ACTGTGAAAG ATGTTGGATT TGGTAGCCTT
    GTTATACCAG GCGGTTCTGT TGCCAGCAAT CTTGCTACTT CCGCTCTGCC AGCTGGAAAT
    GTTTTTAATG CTCCAACTAA ACAGGCAGAG CCTGAAGAAA AAGTACCTCA TCTTATAGAC
    CACCAGATTT CTTCTGGTGA AAACACCAGA TCAGTGATTC CAAATGATAT TTCAAGTAAT
    GCTGCAATTT TAGGAGGACA GCCGCCAAAT GTGACAAGCA ATTCTGGAAT TCTGGGAGTC
    CAAAGACCAA ATGTATCAAG TAATTCTGAA ATTCTTGGGG TCCGGCCATC TAATGTTTCC
    AGTAGTTCTG GGATTATTGC AGCCCAACCA CCAAATATTC TAAATAACTC TGGAATATTG
    GGAATACAGC CACCCAGTGT GTCAAATAGT TCTGGACTTT TGGGAGTGCT ACCCCCAAAT
    ATACCTAACA ATTCTGGACT TGTAGGAGTA CAGCCACCAA ATGTTCCAAA TACTCCTGGA
    CTTCTGGGAA CACAGCCACC AGCTGGACCT CAAAACTTAC CCCCTTTAAG TATCCCTAAT
    CAAAGGATGC CCACAATGCC AATGTTAGAC ATTCGTCCGG GACTAATACC ACAGGCACCT
    GGGCCAAGAT TCCCTTTAAT ACAGCCTGGA ATTCCACCCC AACGGGGAAT CCCACCCCCA
    TCGGTACTTG ATTCAGCTCT TCATCCACCA CCCCGTGGAC CTTTTCCTCC AGGAGATATT
    TTTAGTCAAC CAGAAAGACC TTTTTTAGCT CCTGGAAGAC AAAGCGTAGA CAATGTTACT
    AACCCAGAAA AAAGGATACC ACTTGGGAAT GATAACATTC AACAGGAAGG AGATAGAGAT
    TACCGGTTTC CTCCTATAGA AACCAGGGAA AGCATTAGTA GACCTCCCCC TGTGGATGTT
    AGAGATGTGG TTGGGCGGCC TATAGATCCA AGAGAAGGTC CTGGACGGCC TCCACTAGAT
    GGTAGGGATC ATTTTGGAAG ACCTCCTGTA GATATAAGAG AGAATCTTGT GAGGCCAGGT
    ATAGATCATC TTGGTCGAAG AGACCACTTT GGCTTTAATC CAGAGAAGCC CTGGGGGCAT
    AGAGGAGATT TTGATGAGAG AGAGCATCGG GTTCTACCGG TCTATGGTGG TCCAAAAGGC
    TTACATGAAG AAAGAGGTAG ATTTCGGTCT GGAAACTATC GATTTGATCC TAGAAGTGGT
    CCTTGGAACC GAGGATTTGG ACAAGAAGTT CACAGAGATT TTGATGACCG CAGAAGACCC
    TGGGAGAGGC AAAGGGATAG GGATGACAGA GATTTTGATT TCTGCAGAGA AATGAATGGA
    AATCGTCTTG GACGAGACAG AATTCAAAAC ACTTGGGTTC CCCCTCCTCA TGCTCGGGTT
    TTTGATTATT TTGAAGGGGC CACTTCTCAA CGAAAAGGTG ATAATGTGCC TCAGGTTAAT
    GGTGAAAATA CAGAGAGACA TGCTCAGCCA CCACCTATAC CAGTACAGAA TGATCCTGAA
    CTTTATGAAA AACTGACATC TTCAAATGAA ATAAACAAGG AGAAGAGTGA CACAGTTGCT
    GATATAGAAA GTGAACCAGT GGTAGAAAGC ACAGAAACTG AGGGGACATA A

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

    CloneID OHu10108
    Clone ID Related Accession (Same CDS sequence) NM_001286199.1 , NM_014892.4
    Accession Version NM_001286199.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3816bp)
    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 2019-09-21
    Organism Homo sapiens(human)
    Product SR-related and CTD-associated factor 8 isoform d
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC070071.1, AK295651.1 and BX090356.1. Transcript Variant: This variant (5) contains an alternate 5' exon and it thus differs in its 5' UTR and initiates translation at an downstream in-frame start codon, compared to variant 1. The encoded isoform (d) is shorter at the N-terminus, compared to isoform a. Both variants 4 and 5 encode isoform d. ##Evidence-Data-START## Transcript exon combination :: BC070071.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2467146, SAMN01820695 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGAGGCCG TGAAGACCTT CAATAGCGAG TTGTATTCCC TGAATGACTA TAAACCACCC 
    ATTTCGAAAG CGAAAATGAC CCAAATTACT AAGGCAGCCA TCAAAGCTAT TAAGTTCTAT
    AAACATGTGG TACAGAGTGT TGAGAAGTTT ATTCAGAAAT GTAAACCAGA ATACAAAGTA
    CCTGGACTTT ATGTTATTGA CTCCATTGTG CGACAATCCC GACATCAGTT TGGTCAAGAA
    AAGGATGTGT TTGCACCCAG ATTTAGTAAT AACATCATTA GCACTTTCCA GAATTTATAT
    CGTTGCCCTG GGGATGACAA GAGTAAAATA GTGAGAGTAC TAAACTTATG GCAGAAGAAT
    AATGTATTTA AGAGTGAGAT TATTCAGCCC CTTTTGGATA TGGCAGCCGG GATTCCGCCT
    CCAGTTGTCA CACCTGTTTT GGCCAGCACT ACCACTGCTA TGAGCAATAC TCCAGGAACT
    CCTGTGACAC CTGTTACTCC GGCCAATGTG GTCCAAGGCT TACCTGATCC GTGGGTATCT
    CAGATAACAA ATACAGATAC ACTTGCGGCT GTAGCTCAGA TCTTGCAAAG TCCTCAAGGC
    CAGCAGCTTC AACAATTAAT ACAAACCTTA CAGATACAAC AACAGAAGCC CCAGCCTTCC
    ATTCTGCAGG CCCTAGATGC TGGTCTTGTT GTTCAGTTGC AAGCTCTTAC GGCACAACTT
    ACAGCTGCAG CTGCAGCTGC CAACACTCTT ACTCCCTTAG AACAGGGAGT CTCCTTTAAC
    AAGAAGTTGA TGGATAGGTT TGATTTTGGG GAAGACTCTG AGCATAGTGA AGAACCCAAA
    AAGGAAATTC CAGCTTCACA ACTTTCTCAC GTTTCAGAAT CTGTGAACAA TTCCATTTTT
    CATCAGATAG CAGAACAACT ACAACAGCAA AACCTAGAAC ATCTCAGACA GCAGCTCTTG
    GAGCAGCAAC AGCCTCAAAA GGCCACTCCT CAGGATAGTC AGGAAGGAAC CTTTGGGTCA
    GAGCATTCAG CGTCACCATC ACAAGGGAGT AGTCAGCAGC ATTTTCTTGA ACCTGAAGTC
    AATTTGGATG ATTCCATAGA TATTCAGCAA CAGGATATGG ATATAGATGA AGGGCAAGAT
    GGAGTGGAAG AGGAGGTCTT TGAACAAGAA GCTAAGAAAG TGGCGGTTCG CTCAAGATCA
    AGAACACATT CACGATCTCG TTCAAGATCA CCAAGAAAAC GAAGGTCTAG GTCACGGTCT
    GGCTCTAGAA AGCGTAAACA CAGAAAGCGA TCACGCTCCC GCTCAAGAGA AAGAAAGAGG
    AAATCATCAC GGTCGTATTC AAGTGAAAGG AGAGCCAGAG AAAGGGAGAA AGAACGACAG
    AAAAAGGGAT TACCTCCAAT TAGATCTAAA ACACTAAGTG TATGTAGTAC TACTCTCTGG
    GTTGGGCAAG TGGACAAGAA GGCAACACAG CAAGACTTAA CCAACCTGTT TGAAGAGTTT
    GGACAGATTG AATCCATTAA TATGATTCCT CCCCGGGGCT GTGCTTATGT CTGCATGGTT
    CATCGACAAG ATGCATTTCG AGCTCTTCAG AAACTCAGTT CTGGATCATA TAAAATTGGG
    TCCAAGGTCA TTAAGATCGC TTGGGCTTTA AACAAAGGTG TAAAAACAGA ATACAAACAA
    TTCTGGGATG TGGATCTTGG AGTTACATAT ATACCATGGG AAAAAGTTAA AGTGGATGAC
    TTGGAAGGTT TTGCAGAAGG AGGCATGATT GATCAGGAGA CTGTAAATAC TGAGTGGGAA
    ACTGTGAAAA GCTCAGAACC TGTTAAAGAG ACGGTCCAGA CAACTCAGAG CCCAACTCCA
    GTTGAAAAGG AGACAGTGGT CACAACCCAG GCAGAGGTTT TCCCTCCTCC TGTTGCTATG
    TTGCAGATTC CAGTGGCGCC AGCCGTGCCT ACAGTTAGTT TAGTCCCACC AGCATTTCCT
    GTGTCGATGC CGGTTCCTCC TCCTGGATTC AGTCCAATCC CTCCACCTCC TTTTTTAAGA
    GCAAGTTTTA ACCCTTCACA ACCACCACCT GGTTTCATGC CGCCTCCAGT TCCCCCACCT
    GTTGTGCCAC CCCCTACGAT TCCACCAGTA GTACCAACAT CTTTAGTGCA GCCGTCATTA
    TCCATGACAC CGGAAACTGT GAAAGATGTT GGATTTGGTA GCCTTGTTAT ACCAGGCGGT
    TCTGTTGCCA GCAATCTTGC TACTTCCGCT CTGCCAGCTG GAAATGTTTT TAATGCTCCA
    ACTAAACAGG CAGAGCCTGA AGAAAAAGTA CCTCATCTTA TAGACCACCA GATTTCTTCT
    GGTGAAAACA CCAGATCAGT GATTCCAAAT GATATTTCAA GTAATGCTGC AATTTTAGGA
    GGACAGCCGC CAAATGTGAC AAGCAATTCT GGAATTCTGG GAGTCCAAAG ACCAAATGTA
    TCAAGTAATT CTGAAATTCT TGGGGTCCGG CCATCTAATG TTTCCAGTAG TTCTGGGATT
    ATTGCAGCCC AACCACCAAA TATTCTAAAT AACTCTGGAA TATTGGGAAT ACAGCCACCC
    AGTGTGTCAA ATAGTTCTGG ACTTTTGGGA GTGCTACCCC CAAATATACC TAACAATTCT
    GGACTTGTAG GAGTACAGCC ACCAAATGTT CCAAATACTC CTGGACTTCT GGGAACACAG
    CCACCAGCTG GACCTCAAAA CTTACCCCCT TTAAGTATCC CTAATCAAAG GATGCCCACA
    ATGCCAATGT TAGACATTCG TCCGGGACTA ATACCACAGG CACCTGGGCC AAGATTCCCT
    TTAATACAGC CTGGAATTCC ACCCCAACGG GGAATCCCAC CCCCATCGGT ACTTGATTCA
    GCTCTTCATC CACCACCCCG TGGACCTTTT CCTCCAGGAG ATATTTTTAG TCAACCAGAA
    AGACCTTTTT TAGCTCCTGG AAGACAAAGC GTAGACAATG TTACTAACCC AGAAAAAAGG
    ATACCACTTG GGAATGATAA CATTCAACAG GAAGGAGATA GAGATTACCG GTTTCCTCCT
    ATAGAAACCA GGGAAAGCAT TAGTAGACCT CCCCCTGTGG ATGTTAGAGA TGTGGTTGGG
    CGGCCTATAG ATCCAAGAGA AGGTCCTGGA CGGCCTCCAC TAGATGGTAG GGATCATTTT
    GGAAGACCTC CTGTAGATAT AAGAGAGAAT CTTGTGAGGC CAGGTATAGA TCATCTTGGT
    CGAAGAGACC ACTTTGGCTT TAATCCAGAG AAGCCCTGGG GGCATAGAGG AGATTTTGAT
    GAGAGAGAGC ATCGGGTTCT ACCGGTCTAT GGTGGTCCAA AAGGCTTACA TGAAGAAAGA
    GGTAGATTTC GGTCTGGAAA CTATCGATTT GATCCTAGAA GTGGTCCTTG GAACCGAGGA
    TTTGGACAAG AAGTTCACAG AGATTTTGAT GACCGCAGAA GACCCTGGGA GAGGCAAAGG
    GATAGGGATG ACAGAGATTT TGATTTCTGC AGAGAAATGA ATGGAAATCG TCTTGGACGA
    GACAGAATTC AAAACACTTG GGTTCCCCCT CCTCATGCTC GGGTTTTTGA TTATTTTGAA
    GGGGCCACTT CTCAACGAAA AGGTGATAAT GTGCCTCAGG TTAATGGTGA AAATACAGAG
    AGACATGCTC AGCCACCACC TATACCAGTA CAGAATGATC CTGAACTTTA TGAAAAACTG
    ACATCTTCAA ATGAAATAAA CAAGGAGAAG AGTGACACAG TTGCTGATAT AGAAAGTGAA
    CCAGTGGTAG AAAGCACAGA AACTGAGGGG ACATAA

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

    RefSeq NP_001273128.1
    CDS233..4048
    Translation

    Target ORF information:

    RefSeq Version NM_001286199.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001286199.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGAGGCCG TGAAGACCTT CAATAGCGAG TTGTATTCCC TGAATGACTA TAAACCACCC 
    ATTTCGAAAG CGAAAATGAC CCAAATTACT AAGGCAGCCA TCAAAGCTAT TAAGTTCTAT
    AAACATGTGG TACAGAGTGT TGAGAAGTTT ATTCAGAAAT GTAAACCAGA ATACAAAGTA
    CCTGGACTTT ATGTTATTGA CTCCATTGTG CGACAATCCC GACATCAGTT TGGTCAAGAA
    AAGGATGTGT TTGCACCCAG ATTTAGTAAT AACATCATTA GCACTTTCCA GAATTTATAT
    CGTTGCCCTG GGGATGACAA GAGTAAAATA GTGAGAGTAC TAAACTTATG GCAGAAGAAT
    AATGTATTTA AGAGTGAGAT TATTCAGCCC CTTTTGGATA TGGCAGCCGG GATTCCGCCT
    CCAGTTGTCA CACCTGTTTT GGCCAGCACT ACCACTGCTA TGAGCAATAC TCCAGGAACT
    CCTGTGACAC CTGTTACTCC GGCCAATGTG GTCCAAGGCT TACCTGATCC GTGGGTATCT
    CAGATAACAA ATACAGATAC ACTTGCGGCT GTAGCTCAGA TCTTGCAAAG TCCTCAAGGC
    CAGCAGCTTC AACAATTAAT ACAAACCTTA CAGATACAAC AACAGAAGCC CCAGCCTTCC
    ATTCTGCAGG CCCTAGATGC TGGTCTTGTT GTTCAGTTGC AAGCTCTTAC GGCACAACTT
    ACAGCTGCAG CTGCAGCTGC CAACACTCTT ACTCCCTTAG AACAGGGAGT CTCCTTTAAC
    AAGAAGTTGA TGGATAGGTT TGATTTTGGG GAAGACTCTG AGCATAGTGA AGAACCCAAA
    AAGGAAATTC CAGCTTCACA ACTTTCTCAC GTTTCAGAAT CTGTGAACAA TTCCATTTTT
    CATCAGATAG CAGAACAACT ACAACAGCAA AACCTAGAAC ATCTCAGACA GCAGCTCTTG
    GAGCAGCAAC AGCCTCAAAA GGCCACTCCT CAGGATAGTC AGGAAGGAAC CTTTGGGTCA
    GAGCATTCAG CGTCACCATC ACAAGGGAGT AGTCAGCAGC ATTTTCTTGA ACCTGAAGTC
    AATTTGGATG ATTCCATAGA TATTCAGCAA CAGGATATGG ATATAGATGA AGGGCAAGAT
    GGAGTGGAAG AGGAGGTCTT TGAACAAGAA GCTAAGAAAG TGGCGGTTCG CTCAAGATCA
    AGAACACATT CACGATCTCG TTCAAGATCA CCAAGAAAAC GAAGGTCTAG GTCACGGTCT
    GGCTCTAGAA AGCGTAAACA CAGAAAGCGA TCACGCTCCC GCTCAAGAGA AAGAAAGAGG
    AAATCATCAC GGTCGTATTC AAGTGAAAGG AGAGCCAGAG AAAGGGAGAA AGAACGACAG
    AAAAAGGGAT TACCTCCAAT TAGATCTAAA ACACTAAGTG TATGTAGTAC TACTCTCTGG
    GTTGGGCAAG TGGACAAGAA GGCAACACAG CAAGACTTAA CCAACCTGTT TGAAGAGTTT
    GGACAGATTG AATCCATTAA TATGATTCCT CCCCGGGGCT GTGCTTATGT CTGCATGGTT
    CATCGACAAG ATGCATTTCG AGCTCTTCAG AAACTCAGTT CTGGATCATA TAAAATTGGG
    TCCAAGGTCA TTAAGATCGC TTGGGCTTTA AACAAAGGTG TAAAAACAGA ATACAAACAA
    TTCTGGGATG TGGATCTTGG AGTTACATAT ATACCATGGG AAAAAGTTAA AGTGGATGAC
    TTGGAAGGTT TTGCAGAAGG AGGCATGATT GATCAGGAGA CTGTAAATAC TGAGTGGGAA
    ACTGTGAAAA GCTCAGAACC TGTTAAAGAG ACGGTCCAGA CAACTCAGAG CCCAACTCCA
    GTTGAAAAGG AGACAGTGGT CACAACCCAG GCAGAGGTTT TCCCTCCTCC TGTTGCTATG
    TTGCAGATTC CAGTGGCGCC AGCCGTGCCT ACAGTTAGTT TAGTCCCACC AGCATTTCCT
    GTGTCGATGC CGGTTCCTCC TCCTGGATTC AGTCCAATCC CTCCACCTCC TTTTTTAAGA
    GCAAGTTTTA ACCCTTCACA ACCACCACCT GGTTTCATGC CGCCTCCAGT TCCCCCACCT
    GTTGTGCCAC CCCCTACGAT TCCACCAGTA GTACCAACAT CTTTAGTGCA GCCGTCATTA
    TCCATGACAC CGGAAACTGT GAAAGATGTT GGATTTGGTA GCCTTGTTAT ACCAGGCGGT
    TCTGTTGCCA GCAATCTTGC TACTTCCGCT CTGCCAGCTG GAAATGTTTT TAATGCTCCA
    ACTAAACAGG CAGAGCCTGA AGAAAAAGTA CCTCATCTTA TAGACCACCA GATTTCTTCT
    GGTGAAAACA CCAGATCAGT GATTCCAAAT GATATTTCAA GTAATGCTGC AATTTTAGGA
    GGACAGCCGC CAAATGTGAC AAGCAATTCT GGAATTCTGG GAGTCCAAAG ACCAAATGTA
    TCAAGTAATT CTGAAATTCT TGGGGTCCGG CCATCTAATG TTTCCAGTAG TTCTGGGATT
    ATTGCAGCCC AACCACCAAA TATTCTAAAT AACTCTGGAA TATTGGGAAT ACAGCCACCC
    AGTGTGTCAA ATAGTTCTGG ACTTTTGGGA GTGCTACCCC CAAATATACC TAACAATTCT
    GGACTTGTAG GAGTACAGCC ACCAAATGTT CCAAATACTC CTGGACTTCT GGGAACACAG
    CCACCAGCTG GACCTCAAAA CTTACCCCCT TTAAGTATCC CTAATCAAAG GATGCCCACA
    ATGCCAATGT TAGACATTCG TCCGGGACTA ATACCACAGG CACCTGGGCC AAGATTCCCT
    TTAATACAGC CTGGAATTCC ACCCCAACGG GGAATCCCAC CCCCATCGGT ACTTGATTCA
    GCTCTTCATC CACCACCCCG TGGACCTTTT CCTCCAGGAG ATATTTTTAG TCAACCAGAA
    AGACCTTTTT TAGCTCCTGG AAGACAAAGC GTAGACAATG TTACTAACCC AGAAAAAAGG
    ATACCACTTG GGAATGATAA CATTCAACAG GAAGGAGATA GAGATTACCG GTTTCCTCCT
    ATAGAAACCA GGGAAAGCAT TAGTAGACCT CCCCCTGTGG ATGTTAGAGA TGTGGTTGGG
    CGGCCTATAG ATCCAAGAGA AGGTCCTGGA CGGCCTCCAC TAGATGGTAG GGATCATTTT
    GGAAGACCTC CTGTAGATAT AAGAGAGAAT CTTGTGAGGC CAGGTATAGA TCATCTTGGT
    CGAAGAGACC ACTTTGGCTT TAATCCAGAG AAGCCCTGGG GGCATAGAGG AGATTTTGAT
    GAGAGAGAGC ATCGGGTTCT ACCGGTCTAT GGTGGTCCAA AAGGCTTACA TGAAGAAAGA
    GGTAGATTTC GGTCTGGAAA CTATCGATTT GATCCTAGAA GTGGTCCTTG GAACCGAGGA
    TTTGGACAAG AAGTTCACAG AGATTTTGAT GACCGCAGAA GACCCTGGGA GAGGCAAAGG
    GATAGGGATG ACAGAGATTT TGATTTCTGC AGAGAAATGA ATGGAAATCG TCTTGGACGA
    GACAGAATTC AAAACACTTG GGTTCCCCCT CCTCATGCTC GGGTTTTTGA TTATTTTGAA
    GGGGCCACTT CTCAACGAAA AGGTGATAAT GTGCCTCAGG TTAATGGTGA AAATACAGAG
    AGACATGCTC AGCCACCACC TATACCAGTA CAGAATGATC CTGAACTTTA TGAAAAACTG
    ACATCTTCAA ATGAAATAAA CAAGGAGAAG AGTGACACAG TTGCTGATAT AGAAAGTGAA
    CCAGTGGTAG AAAGCACAGA AACTGAGGGG ACATAA

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

    CloneID OHu10108
    Clone ID Related Accession (Same CDS sequence) NM_001286199.1 , NM_014892.4
    Accession Version NM_014892.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3816bp)
    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 2019-09-21
    Organism Homo sapiens(human)
    Product SR-related and CTD-associated factor 8 isoform d
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC070071.1, DA219101.1, AB029039.1, AK295651.1 and BX090356.1. On Oct 31, 2013 this sequence version replaced NM_014892.3. Transcript Variant: This variant (4) contains an alternate 5' exon and it thus differs in its 5' UTR and initiates translation at an downstream in-frame start codon, compared to variant 1. The encoded isoform (d) is shorter at the N-terminus, compared to isoform a. Both variants 4 and 5 encode isoform d. ##Evidence-Data-START## Transcript exon combination :: AB029039.1, SRR1803615.146224.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    ATGGAGGCCG TGAAGACCTT CAATAGCGAG TTGTATTCCC TGAATGACTA TAAACCACCC 
    ATTTCGAAAG CGAAAATGAC CCAAATTACT AAGGCAGCCA TCAAAGCTAT TAAGTTCTAT
    AAACATGTGG TACAGAGTGT TGAGAAGTTT ATTCAGAAAT GTAAACCAGA ATACAAAGTA
    CCTGGACTTT ATGTTATTGA CTCCATTGTG CGACAATCCC GACATCAGTT TGGTCAAGAA
    AAGGATGTGT TTGCACCCAG ATTTAGTAAT AACATCATTA GCACTTTCCA GAATTTATAT
    CGTTGCCCTG GGGATGACAA GAGTAAAATA GTGAGAGTAC TAAACTTATG GCAGAAGAAT
    AATGTATTTA AGAGTGAGAT TATTCAGCCC CTTTTGGATA TGGCAGCCGG GATTCCGCCT
    CCAGTTGTCA CACCTGTTTT GGCCAGCACT ACCACTGCTA TGAGCAATAC TCCAGGAACT
    CCTGTGACAC CTGTTACTCC GGCCAATGTG GTCCAAGGCT TACCTGATCC GTGGGTATCT
    CAGATAACAA ATACAGATAC ACTTGCGGCT GTAGCTCAGA TCTTGCAAAG TCCTCAAGGC
    CAGCAGCTTC AACAATTAAT ACAAACCTTA CAGATACAAC AACAGAAGCC CCAGCCTTCC
    ATTCTGCAGG CCCTAGATGC TGGTCTTGTT GTTCAGTTGC AAGCTCTTAC GGCACAACTT
    ACAGCTGCAG CTGCAGCTGC CAACACTCTT ACTCCCTTAG AACAGGGAGT CTCCTTTAAC
    AAGAAGTTGA TGGATAGGTT TGATTTTGGG GAAGACTCTG AGCATAGTGA AGAACCCAAA
    AAGGAAATTC CAGCTTCACA ACTTTCTCAC GTTTCAGAAT CTGTGAACAA TTCCATTTTT
    CATCAGATAG CAGAACAACT ACAACAGCAA AACCTAGAAC ATCTCAGACA GCAGCTCTTG
    GAGCAGCAAC AGCCTCAAAA GGCCACTCCT CAGGATAGTC AGGAAGGAAC CTTTGGGTCA
    GAGCATTCAG CGTCACCATC ACAAGGGAGT AGTCAGCAGC ATTTTCTTGA ACCTGAAGTC
    AATTTGGATG ATTCCATAGA TATTCAGCAA CAGGATATGG ATATAGATGA AGGGCAAGAT
    GGAGTGGAAG AGGAGGTCTT TGAACAAGAA GCTAAGAAAG TGGCGGTTCG CTCAAGATCA
    AGAACACATT CACGATCTCG TTCAAGATCA CCAAGAAAAC GAAGGTCTAG GTCACGGTCT
    GGCTCTAGAA AGCGTAAACA CAGAAAGCGA TCACGCTCCC GCTCAAGAGA AAGAAAGAGG
    AAATCATCAC GGTCGTATTC AAGTGAAAGG AGAGCCAGAG AAAGGGAGAA AGAACGACAG
    AAAAAGGGAT TACCTCCAAT TAGATCTAAA ACACTAAGTG TATGTAGTAC TACTCTCTGG
    GTTGGGCAAG TGGACAAGAA GGCAACACAG CAAGACTTAA CCAACCTGTT TGAAGAGTTT
    GGACAGATTG AATCCATTAA TATGATTCCT CCCCGGGGCT GTGCTTATGT CTGCATGGTT
    CATCGACAAG ATGCATTTCG AGCTCTTCAG AAACTCAGTT CTGGATCATA TAAAATTGGG
    TCCAAGGTCA TTAAGATCGC TTGGGCTTTA AACAAAGGTG TAAAAACAGA ATACAAACAA
    TTCTGGGATG TGGATCTTGG AGTTACATAT ATACCATGGG AAAAAGTTAA AGTGGATGAC
    TTGGAAGGTT TTGCAGAAGG AGGCATGATT GATCAGGAGA CTGTAAATAC TGAGTGGGAA
    ACTGTGAAAA GCTCAGAACC TGTTAAAGAG ACGGTCCAGA CAACTCAGAG CCCAACTCCA
    GTTGAAAAGG AGACAGTGGT CACAACCCAG GCAGAGGTTT TCCCTCCTCC TGTTGCTATG
    TTGCAGATTC CAGTGGCGCC AGCCGTGCCT ACAGTTAGTT TAGTCCCACC AGCATTTCCT
    GTGTCGATGC CGGTTCCTCC TCCTGGATTC AGTCCAATCC CTCCACCTCC TTTTTTAAGA
    GCAAGTTTTA ACCCTTCACA ACCACCACCT GGTTTCATGC CGCCTCCAGT TCCCCCACCT
    GTTGTGCCAC CCCCTACGAT TCCACCAGTA GTACCAACAT CTTTAGTGCA GCCGTCATTA
    TCCATGACAC CGGAAACTGT GAAAGATGTT GGATTTGGTA GCCTTGTTAT ACCAGGCGGT
    TCTGTTGCCA GCAATCTTGC TACTTCCGCT CTGCCAGCTG GAAATGTTTT TAATGCTCCA
    ACTAAACAGG CAGAGCCTGA AGAAAAAGTA CCTCATCTTA TAGACCACCA GATTTCTTCT
    GGTGAAAACA CCAGATCAGT GATTCCAAAT GATATTTCAA GTAATGCTGC AATTTTAGGA
    GGACAGCCGC CAAATGTGAC AAGCAATTCT GGAATTCTGG GAGTCCAAAG ACCAAATGTA
    TCAAGTAATT CTGAAATTCT TGGGGTCCGG CCATCTAATG TTTCCAGTAG TTCTGGGATT
    ATTGCAGCCC AACCACCAAA TATTCTAAAT AACTCTGGAA TATTGGGAAT ACAGCCACCC
    AGTGTGTCAA ATAGTTCTGG ACTTTTGGGA GTGCTACCCC CAAATATACC TAACAATTCT
    GGACTTGTAG GAGTACAGCC ACCAAATGTT CCAAATACTC CTGGACTTCT GGGAACACAG
    CCACCAGCTG GACCTCAAAA CTTACCCCCT TTAAGTATCC CTAATCAAAG GATGCCCACA
    ATGCCAATGT TAGACATTCG TCCGGGACTA ATACCACAGG CACCTGGGCC AAGATTCCCT
    TTAATACAGC CTGGAATTCC ACCCCAACGG GGAATCCCAC CCCCATCGGT ACTTGATTCA
    GCTCTTCATC CACCACCCCG TGGACCTTTT CCTCCAGGAG ATATTTTTAG TCAACCAGAA
    AGACCTTTTT TAGCTCCTGG AAGACAAAGC GTAGACAATG TTACTAACCC AGAAAAAAGG
    ATACCACTTG GGAATGATAA CATTCAACAG GAAGGAGATA GAGATTACCG GTTTCCTCCT
    ATAGAAACCA GGGAAAGCAT TAGTAGACCT CCCCCTGTGG ATGTTAGAGA TGTGGTTGGG
    CGGCCTATAG ATCCAAGAGA AGGTCCTGGA CGGCCTCCAC TAGATGGTAG GGATCATTTT
    GGAAGACCTC CTGTAGATAT AAGAGAGAAT CTTGTGAGGC CAGGTATAGA TCATCTTGGT
    CGAAGAGACC ACTTTGGCTT TAATCCAGAG AAGCCCTGGG GGCATAGAGG AGATTTTGAT
    GAGAGAGAGC ATCGGGTTCT ACCGGTCTAT GGTGGTCCAA AAGGCTTACA TGAAGAAAGA
    GGTAGATTTC GGTCTGGAAA CTATCGATTT GATCCTAGAA GTGGTCCTTG GAACCGAGGA
    TTTGGACAAG AAGTTCACAG AGATTTTGAT GACCGCAGAA GACCCTGGGA GAGGCAAAGG
    GATAGGGATG ACAGAGATTT TGATTTCTGC AGAGAAATGA ATGGAAATCG TCTTGGACGA
    GACAGAATTC AAAACACTTG GGTTCCCCCT CCTCATGCTC GGGTTTTTGA TTATTTTGAA
    GGGGCCACTT CTCAACGAAA AGGTGATAAT GTGCCTCAGG TTAATGGTGA AAATACAGAG
    AGACATGCTC AGCCACCACC TATACCAGTA CAGAATGATC CTGAACTTTA TGAAAAACTG
    ACATCTTCAA ATGAAATAAA CAAGGAGAAG AGTGACACAG TTGCTGATAT AGAAAGTGAA
    CCAGTGGTAG AAAGCACAGA AACTGAGGGG ACATAA

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

    RefSeq NP_055707.3
    CDS524..4339
    Translation

    Target ORF information:

    RefSeq Version NM_014892.4
    Organism Homo sapiens(human)
    Definition Homo sapiens SR-related CTD associated factor 8 (SCAF8), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014892.4

    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
    ATGGAGGCCG TGAAGACCTT CAATAGCGAG TTGTATTCCC TGAATGACTA TAAACCACCC 
    ATTTCGAAAG CGAAAATGAC CCAAATTACT AAGGCAGCCA TCAAAGCTAT TAAGTTCTAT
    AAACATGTGG TACAGAGTGT TGAGAAGTTT ATTCAGAAAT GTAAACCAGA ATACAAAGTA
    CCTGGACTTT ATGTTATTGA CTCCATTGTG CGACAATCCC GACATCAGTT TGGTCAAGAA
    AAGGATGTGT TTGCACCCAG ATTTAGTAAT AACATCATTA GCACTTTCCA GAATTTATAT
    CGTTGCCCTG GGGATGACAA GAGTAAAATA GTGAGAGTAC TAAACTTATG GCAGAAGAAT
    AATGTATTTA AGAGTGAGAT TATTCAGCCC CTTTTGGATA TGGCAGCCGG GATTCCGCCT
    CCAGTTGTCA CACCTGTTTT GGCCAGCACT ACCACTGCTA TGAGCAATAC TCCAGGAACT
    CCTGTGACAC CTGTTACTCC GGCCAATGTG GTCCAAGGCT TACCTGATCC GTGGGTATCT
    CAGATAACAA ATACAGATAC ACTTGCGGCT GTAGCTCAGA TCTTGCAAAG TCCTCAAGGC
    CAGCAGCTTC AACAATTAAT ACAAACCTTA CAGATACAAC AACAGAAGCC CCAGCCTTCC
    ATTCTGCAGG CCCTAGATGC TGGTCTTGTT GTTCAGTTGC AAGCTCTTAC GGCACAACTT
    ACAGCTGCAG CTGCAGCTGC CAACACTCTT ACTCCCTTAG AACAGGGAGT CTCCTTTAAC
    AAGAAGTTGA TGGATAGGTT TGATTTTGGG GAAGACTCTG AGCATAGTGA AGAACCCAAA
    AAGGAAATTC CAGCTTCACA ACTTTCTCAC GTTTCAGAAT CTGTGAACAA TTCCATTTTT
    CATCAGATAG CAGAACAACT ACAACAGCAA AACCTAGAAC ATCTCAGACA GCAGCTCTTG
    GAGCAGCAAC AGCCTCAAAA GGCCACTCCT CAGGATAGTC AGGAAGGAAC CTTTGGGTCA
    GAGCATTCAG CGTCACCATC ACAAGGGAGT AGTCAGCAGC ATTTTCTTGA ACCTGAAGTC
    AATTTGGATG ATTCCATAGA TATTCAGCAA CAGGATATGG ATATAGATGA AGGGCAAGAT
    GGAGTGGAAG AGGAGGTCTT TGAACAAGAA GCTAAGAAAG TGGCGGTTCG CTCAAGATCA
    AGAACACATT CACGATCTCG TTCAAGATCA CCAAGAAAAC GAAGGTCTAG GTCACGGTCT
    GGCTCTAGAA AGCGTAAACA CAGAAAGCGA TCACGCTCCC GCTCAAGAGA AAGAAAGAGG
    AAATCATCAC GGTCGTATTC AAGTGAAAGG AGAGCCAGAG AAAGGGAGAA AGAACGACAG
    AAAAAGGGAT TACCTCCAAT TAGATCTAAA ACACTAAGTG TATGTAGTAC TACTCTCTGG
    GTTGGGCAAG TGGACAAGAA GGCAACACAG CAAGACTTAA CCAACCTGTT TGAAGAGTTT
    GGACAGATTG AATCCATTAA TATGATTCCT CCCCGGGGCT GTGCTTATGT CTGCATGGTT
    CATCGACAAG ATGCATTTCG AGCTCTTCAG AAACTCAGTT CTGGATCATA TAAAATTGGG
    TCCAAGGTCA TTAAGATCGC TTGGGCTTTA AACAAAGGTG TAAAAACAGA ATACAAACAA
    TTCTGGGATG TGGATCTTGG AGTTACATAT ATACCATGGG AAAAAGTTAA AGTGGATGAC
    TTGGAAGGTT TTGCAGAAGG AGGCATGATT GATCAGGAGA CTGTAAATAC TGAGTGGGAA
    ACTGTGAAAA GCTCAGAACC TGTTAAAGAG ACGGTCCAGA CAACTCAGAG CCCAACTCCA
    GTTGAAAAGG AGACAGTGGT CACAACCCAG GCAGAGGTTT TCCCTCCTCC TGTTGCTATG
    TTGCAGATTC CAGTGGCGCC AGCCGTGCCT ACAGTTAGTT TAGTCCCACC AGCATTTCCT
    GTGTCGATGC CGGTTCCTCC TCCTGGATTC AGTCCAATCC CTCCACCTCC TTTTTTAAGA
    GCAAGTTTTA ACCCTTCACA ACCACCACCT GGTTTCATGC CGCCTCCAGT TCCCCCACCT
    GTTGTGCCAC CCCCTACGAT TCCACCAGTA GTACCAACAT CTTTAGTGCA GCCGTCATTA
    TCCATGACAC CGGAAACTGT GAAAGATGTT GGATTTGGTA GCCTTGTTAT ACCAGGCGGT
    TCTGTTGCCA GCAATCTTGC TACTTCCGCT CTGCCAGCTG GAAATGTTTT TAATGCTCCA
    ACTAAACAGG CAGAGCCTGA AGAAAAAGTA CCTCATCTTA TAGACCACCA GATTTCTTCT
    GGTGAAAACA CCAGATCAGT GATTCCAAAT GATATTTCAA GTAATGCTGC AATTTTAGGA
    GGACAGCCGC CAAATGTGAC AAGCAATTCT GGAATTCTGG GAGTCCAAAG ACCAAATGTA
    TCAAGTAATT CTGAAATTCT TGGGGTCCGG CCATCTAATG TTTCCAGTAG TTCTGGGATT
    ATTGCAGCCC AACCACCAAA TATTCTAAAT AACTCTGGAA TATTGGGAAT ACAGCCACCC
    AGTGTGTCAA ATAGTTCTGG ACTTTTGGGA GTGCTACCCC CAAATATACC TAACAATTCT
    GGACTTGTAG GAGTACAGCC ACCAAATGTT CCAAATACTC CTGGACTTCT GGGAACACAG
    CCACCAGCTG GACCTCAAAA CTTACCCCCT TTAAGTATCC CTAATCAAAG GATGCCCACA
    ATGCCAATGT TAGACATTCG TCCGGGACTA ATACCACAGG CACCTGGGCC AAGATTCCCT
    TTAATACAGC CTGGAATTCC ACCCCAACGG GGAATCCCAC CCCCATCGGT ACTTGATTCA
    GCTCTTCATC CACCACCCCG TGGACCTTTT CCTCCAGGAG ATATTTTTAG TCAACCAGAA
    AGACCTTTTT TAGCTCCTGG AAGACAAAGC GTAGACAATG TTACTAACCC AGAAAAAAGG
    ATACCACTTG GGAATGATAA CATTCAACAG GAAGGAGATA GAGATTACCG GTTTCCTCCT
    ATAGAAACCA GGGAAAGCAT TAGTAGACCT CCCCCTGTGG ATGTTAGAGA TGTGGTTGGG
    CGGCCTATAG ATCCAAGAGA AGGTCCTGGA CGGCCTCCAC TAGATGGTAG GGATCATTTT
    GGAAGACCTC CTGTAGATAT AAGAGAGAAT CTTGTGAGGC CAGGTATAGA TCATCTTGGT
    CGAAGAGACC ACTTTGGCTT TAATCCAGAG AAGCCCTGGG GGCATAGAGG AGATTTTGAT
    GAGAGAGAGC ATCGGGTTCT ACCGGTCTAT GGTGGTCCAA AAGGCTTACA TGAAGAAAGA
    GGTAGATTTC GGTCTGGAAA CTATCGATTT GATCCTAGAA GTGGTCCTTG GAACCGAGGA
    TTTGGACAAG AAGTTCACAG AGATTTTGAT GACCGCAGAA GACCCTGGGA GAGGCAAAGG
    GATAGGGATG ACAGAGATTT TGATTTCTGC AGAGAAATGA ATGGAAATCG TCTTGGACGA
    GACAGAATTC AAAACACTTG GGTTCCCCCT CCTCATGCTC GGGTTTTTGA TTATTTTGAA
    GGGGCCACTT CTCAACGAAA AGGTGATAAT GTGCCTCAGG TTAATGGTGA AAATACAGAG
    AGACATGCTC AGCCACCACC TATACCAGTA CAGAATGATC CTGAACTTTA TGAAAAACTG
    ACATCTTCAA ATGAAATAAA CAAGGAGAAG AGTGACACAG TTGCTGATAT AGAAAGTGAA
    CCAGTGGTAG AAAGCACAGA AACTGAGGGG ACATAA

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