SIN3A cDNA ORF clone, Homo sapiens(human)

The following SIN3A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SIN3A 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
OHu12817 NM_001145358.2
Latest version!
Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 NM_001145357.2
Latest version!
Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 NM_015477.3
Latest version!
Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 XM_006720466.3
Latest version!
Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 XM_024449896.1
Latest version!
Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 XM_006720465.3
Latest version!
Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 XM_006720467.3
Latest version!
Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
View Old Accession Versions >>
OHu12817 XM_006720465.2 Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 XM_006720467.2 Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 XM_006720466.2 Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 NM_001145358.1 Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 NM_001145357.1 Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
OHu12817 NM_015477.2 Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$274.50-$384.30
$549.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version NM_015477.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-02-20
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF418569.1, BC041047.1, AC068338.14 and BM676304.1. On Feb 21, 2009 this sequence version replaced NM_015477.1. Transcript Variant: This variant (2) differs in the 5' UTR compared to variant 1. Variants 1, 2 and 3 encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF418569.1, BC137098.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq NP_056292.1
    CDS260..4081
    Translation

    Target ORF information:

    RefSeq Version NM_015477.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015477.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version NM_001145358.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-02-19
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB074084.1, AK096477.1, AF418569.1, AC068338.14 and BM676304.1. Transcript Variant: This variant (1) represents the longest transcript. Variants 1, 2 and 3 encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.61222.1, SRR1803616.273379.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq NP_001138830.1
    CDS358..4179
    Translation

    Target ORF information:

    RefSeq Version NM_001145358.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001145358.1

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version NM_001145357.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-02-19
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL832463.1, AF418569.1, AC068338.14 and BM676304.1. This sequence is a reference standard in the RefSeqGene project. Transcript Variant: This variant (3) differs in the 5' UTR compared to variant 1. Variants 1, 2 and 3 encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AL832463.1, SRR1803612.184469.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq NP_001138829.1
    CDS183..4004
    Translation

    Target ORF information:

    RefSeq Version NM_001145357.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001145357.1

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version NM_001145358.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-12-15
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK096477.1, AF418569.1, AC068338.14 and BM676304.1. On May 17, 2019 this sequence version replaced NM_001145358.1. Transcript Variant: This variant (1) represents the longest transcript. Variants 1, 2 and 3 encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.125990.1, SRR1660809.61222.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000394947.8/ ENSP00000378402.3 RefSeq Select criteria :: based on conservation, expression, longest protein ##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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq NP_001138830.1
    CDS302..4123
    Translation

    Target ORF information:

    RefSeq Version NM_001145358.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001145358.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version NM_001145357.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-12-15
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC105137.18, AL832463.1, AF418569.1, AC068338.14 and BM676304.1. This sequence is a reference standard in the RefSeqGene project. On May 31, 2019 this sequence version replaced NM_001145357.1. Transcript Variant: This variant (3) differs in the 5' UTR compared to variant 1. Variants 1, 2 and 3 encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AL832463.1, SRR1803612.184469.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq NP_001138829.1
    CDS215..4036
    Translation

    Target ORF information:

    RefSeq Version NM_001145357.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001145357.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version NM_015477.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-12-15
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC105137.18, AF418569.1, BC041047.1, AC068338.14 and BM676304.1. On Jun 1, 2019 this sequence version replaced NM_015477.2. Transcript Variant: This variant (2) differs in the 5' UTR compared to variant 1. Variants 1, 2 and 3 encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF418569.1, BC137099.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq NP_056292.1
    CDS365..4186
    Translation

    Target ORF information:

    RefSeq Version NM_015477.3
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015477.3

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version XM_006720465.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2015-03-11
    Organism Homo sapiens(Human)
    Product paired amphipathic helix protein Sin3a isoform X1
    Comment

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq XP_006720528.1
    Translation

    Target ORF information:

    RefSeq Version XM_006720465.2
    Organism Homo sapiens(Human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006720465.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version XM_006720465.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006720465.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq XP_006720528.1
    CDS66..3887
    Translation

    Target ORF information:

    RefSeq Version XM_006720465.3
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006720465.3

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version XM_024449896.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq XP_024305664.1
    CDS197..4018
    Translation

    Target ORF information:

    RefSeq Version XM_024449896.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024449896.1

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version XM_006720467.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006720467.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq XP_006720530.1
    CDS274..4095
    Translation

    Target ORF information:

    RefSeq Version XM_006720467.3
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006720467.3

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version XM_006720467.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2015-03-11
    Organism Homo sapiens(Human)
    Product paired amphipathic helix protein Sin3a isoform X1
    Comment

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq XP_006720530.1
    Translation

    Target ORF information:

    RefSeq Version XM_006720467.2
    Organism Homo sapiens(Human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006720467.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version XM_006720466.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product paired amphipathic helix protein Sin3a isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006720466.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq XP_006720529.1
    CDS456..4277
    Translation

    Target ORF information:

    RefSeq Version XM_006720466.3
    Organism Homo sapiens(human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006720466.3

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    CloneID OHu12817
    Clone ID Related Accession (Same CDS sequence) XM_006720465.2 , NM_015477.2 , XM_006720465.3 , XM_024449896.1 , XM_006720467.3 , NM_001145358.1 , XM_006720467.2 , XM_006720466.3 , XM_006720466.2 , NM_001145357.1 , NM_001145358.2 , NM_001145357.2 , NM_015477.3
    Accession Version XM_006720466.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3822bp)
    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 2015-03-11
    Organism Homo sapiens(Human)
    Product paired amphipathic helix protein Sin3a isoform X1
    Comment

    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
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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

    RefSeq XP_006720529.1
    Translation

    Target ORF information:

    RefSeq Version XM_006720466.2
    Organism Homo sapiens(Human)
    Definition Homo sapiens SIN3 transcription regulator family member A (SIN3A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006720466.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAAGCGGC GTTTGGATGA CCAGGAGTCA CCGGTGTATG CAGCCCAGCA GCGTCGGATC 
    CCTGGCAGCA CAGAGGCTTT TCCTCACCAG CACCGGGTGC TTGCCCCTGC CCCTCCTGTG
    TATGAAGCAG TGTCTGAGAC CATGCAGTCA GCTACGGGAA TTCAGTACTC TGTAACACCC
    AGCTACCAGG TTTCAGCCAT GCCACAGAGC TCCGGCAGTC ATGGGCCCGC TATAGCAGCA
    GTTCATAGCA GCCATCATCA CCCAACAGCG GTGCAGCCCC ACGGAGGCCA GGTGGTCCAG
    AGTCATGCTC ATCCAGCCCC ACCAGTTGCA CCAGTGCAGG GACAGCAGCA ATTTCAGAGG
    CTGAAGGTGG AGGATGCGCT ATCTTATCTT GACCAGGTGA AGCTGCAGTT TGGTAGTCAG
    CCTCAGGTCT ACAATGATTT CCTTGACATC ATGAAGGAAT TTAAATCTCA GAGCATCGAC
    ACCCCAGGAG TGATTAGTCG TGTGTCCCAG CTATTCAAAG GCCACCCCGA TCTGATAATG
    GGATTCAACA CCTTCTTGCC CCCTGGCTAC AAAATTGAGG TGCAAACCAA TGACATGGTG
    AATGTGACAA CTCCTGGCCA GGTTCATCAG ATTCCCACCC ATGGCATCCA GCCACAGCCT
    CAACCACCAC CCCAACATCC TTCCCAGCCT TCAGCCCAGT CAGCCCCAGC TCCTGCCCAG
    CCAGCTCCTC AGCCCCCACC TGCCAAAGTC AGCAAGCCCT CCCAACTGCA AGCACATACT
    CCGGCCAGTC AGCAGACTCC CCCACTTCCA CCGTATGCAT CCCCACGTTC TCCGCCGGTC
    CAGCCTCACA CACCAGTGAC AATCTCGTTG GGAACGGCCC CATCCTTGCA GAACAATCAA
    CCTGTGGAGT TTAATCATGC CATCAACTAT GTTAATAAGA TCAAGAACAG ATTTCAGGGC
    CAACCAGACA TCTACAAAGC ATTCCTGGAG ATTTTGCACA CATATCAGAA AGAGCAGAGA
    AATGCCAAGG AAGCTGGAGG AAACTACACT CCAGCATTGA CAGAGCAGGA GGTGTATGCC
    CAGGTTGCTC GTCTCTTTAA AAACCAGGAA GATTTGTTGT CAGAGTTTGG ACAATTCCTA
    CCAGATGCCA ACAGCTCCGT GCTTTTAAGC AAAACAACTG CTGAGAAGGT TGATTCTGTG
    AGAAATGATC ATGGAGGCAC TGTCAAGAAG CCCCAACTGA ACAACAAGCC GCAGAGGCCC
    AGCCAGAATG GCTGCCAGAT CCGCAGACAT CCTACAGGAA CCACCCCTCC AGTTAAGAAG
    AAACCCAAAC TGCTCAATCT GAAGGATTCT TCTATGGCAG ATGCCAGCAA ACATGGTGGT
    GGAACAGAAT CGTTATTTTT TGATAAGGTC CGAAAGGCTC TTCGGAGTGC AGAAGCCTAC
    GAAAATTTCC TACGCTGTCT TGTTATTTTT AACCAGGAGG TGATCTCTCG TGCTGAGCTT
    GTGCAACTAG TCTCTCCTTT CCTGGGGAAA TTCCCTGAGT TGTTTAATTG GTTTAAAAAC
    TTTCTGGGCT ATAAGGAGTC TGTACATCTG GAAACTTATC CAAAGGAGCG AGCCACAGAG
    GGCATTGCTA TGGAGATAGA TTATGCTTCT TGTAAACGAT TGGGCTCCAG CTATCGAGCC
    TTACCAAAGA GTTACCAGCA GCCCAAGTGT ACAGGACGGA CTCCTCTCTG TAAAGAGGTT
    TTAAATGATA CCTGGGTTTC CTTCCCTTCG TGGTCTGAGG ACTCTACCTT TGTGAGTTCC
    AAGAAGACTC AATATGAAGA ACATATTTAT CGTTGTGAAG ATGAACGCTT TGAGCTTGAT
    GTAGTTTTAG AGACCAATCT GGCAACAATC CGGGTTCTGG AAGCAATACA GAAGAAGCTT
    TCCCGCTTGT CTGCTGAAGA ACAAGCCAAA TTTCGCTTGG ACAACACCCT TGGGGGCACA
    TCAGAAGTCA TCCATAGAAA AGCACTCCAG AGGATATATG CTGATAAAGC AGCTGACATC
    ATTGATGGTC TGAGAAAGAA TCCCTCCATT GCTGTTCCAA TTGTCCTTAA AAGGTTGAAG
    ATGAAAGAGG AAGAATGGCG AGAAGCTCAG AGAGGCTTTA ACAAAGTATG GCGAGAACAA
    AATGAGAAAT ACTACTTGAA GTCTCTGGAC CACCAGGGGA TCAACTTTAA ACAGAATGAC
    ACCAAGGTCC TGAGGTCTAA GAGCTTACTC AATGAGATTG AGAGTATCTA TGATGAGAGG
    CAAGAGCAGG CTACGGAGGA GAATGCTGGT GTACCTGTTG GCCCACACCT CTCACTTGCG
    TATGAAGACA AACAAATACT GGAAGATGCT GCTGCTCTGA TTATCCACCA TGTGAAGAGG
    CAGACAGGCA TTCAGAAGGA GGACAAATAT AAGATAAAAC AAATCATGCA TCATTTTATT
    CCAGATTTGC TCTTTGCCCA AAGAGGTGAT CTCTCAGATG TGGAGGAAGA GGAAGAAGAA
    GAGATGGATG TAGATGAAGC CACAGGGGCA GTTAAGAAGC ACAATGGTGT TGGGGGCAGT
    CCCCCTAAGT CCAAGTTACT GTTTAGTAAC ACAGCAGCTC AAAAATTAAG AGGAATGGAT
    GAAGTATACA ACCTCTTCTA TGTCAACAAC AACTGGTATA TTTTTATGCG ACTGCACCAG
    ATTCTCTGCC TGAGGCTGCT ACGGATTTGT TCCCAAGCCG AACGGCAAAT TGAAGAAGAA
    AACCGAGAGA GAGAATGGGA ACGGGAAGTG CTGGGCATAA AGCGAGACAA GAGTGACAGC
    CCTGCCATTC AGCTACGTCT CAAAGAACCT ATGGATGTTG ATGTAGAAGA TTATTACCCA
    GCTTTCCTGG ACATGGTGCG GAGCCTGCTG GATGGCAACA TAGACTCATC ACAGTATGAA
    GATTCACTGA GAGAGATGTT CACCATTCAT GCCTACATTG CCTTTACCAT GGACAAACTG
    ATCCAGAGCA TTGTCAGACA GCTGCAGCAT ATCGTGAGTG ATGAGATCTG TGTGCAGGTG
    ACTGACCTTT ACCTGGCAGA AAATAATAAT GGGGCCACCG GAGGCCAGCT GAACACACAG
    AACTCAAGGA GCCTCCTGGA GTCAACGTAT CAGCGGAAAG CTGAGCAGCT AATGTCAGAT
    GAGAATTGCT TTAAGCTTAT GTTTATTCAG AGCCAAGGCC AGGTCCAGCT GACTATTGAG
    CTTCTGGACA CAGAAGAGGA GAATTCGGAT GACCCTGTGG AAGCAGAGCG CTGGTCAGAC
    TACGTGGAGC GATACATGAA TTCAGATACT ACCTCGCCTG AGCTTCGTGA ACATCTAGCA
    CAGAAACCAG TATTTCTCCC CAGGAATCTA CGGCGGATCC GGAAGTGTCA ACGTGGTCGA
    GAGCAGCAGG AAAAGGAAGG GAAGGAAGGA AACAGCAAGA AGACCATGGA GAATGTGGAT
    AGTCTGGATA AGCTGGAGTG TAGATTCAAG CTGAATTCCT ACAAGATGGT GTATGTGATC
    AAATCAGAGG ACTATATGTA TCGGAGGACC GCCCTGCTCC GGGCTCATCA GTCCCATGAG
    CGTGTAAGCA AGCGTCTACA TCAGAGATTC CAGGCCTGGG TAGATAAATG GACCAAGGAG
    CATGTGCCCC GTGAAATGGC AGCAGAGACC AGCAAGTGGC TCATGGGTGA GGGGCTGGAG
    GGCCTGGTGC CCTGTACCAC CACCTGTGAT ACAGAGACCC TGCATTTTGT GAGCATTAAC
    AAGTATCGTG TCAAATACGG CACAGTATTC AAAGCCCCTT AA

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