| Gene Symbol | KANSL1 |
| Entrez Gene ID | 100434237 |
| Full Name | KAT8 regulatory NSL complex subunit 1 |
| Gene Type | protein-coding |
| Organism | Pongo abelii(Sumatran orangutan) |
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KANSL1 cDNA ORF clone, Pongo abelii(Sumatran orangutan)
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Gene
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Clones
gRNAs
The following KANSL1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KANSL1 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.
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Reference Sequences (Refseq)
CloneID OSa13296 Clone ID Related Accession (Same CDS sequence) XM_002827400.3 , XM_002827400.2 , XM_024234493.1 Accession Version XM_002827400.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519660800000 Organism Pongo abelii(Sumatran orangutan) Product KAT8 regulatory NSL complex subunit 1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036920.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 28, 2018 this sequence version replaced XM_002827400.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCAGCCA GTAAGGAGGA GAAGGGGAGA GAGCTCATTC
GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
AGTCCTGATG AGGAGAATGA GGAGATTGAG GACCTATCCG ACGCAGCCTT CGCCGCCCTG
CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
CAGCGGCGGG GTAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC CCAGCTGGGC
AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
TCAGAATACT CCCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCA
CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
TCCACGCCAG AGCTGGGGCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCAGCGCCC
ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
CGCCCGACTC ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002827446.1 CDS 232..3549 Translation 
Target ORF information:
RefSeq Version XM_002827400.3 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002827400.3
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
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCAGCCA GTAAGGAGGA GAAGGGGAGA GAGCTCATTC
GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
AGTCCTGATG AGGAGAATGA GGAGATTGAG GACCTATCCG ACGCAGCCTT CGCCGCCCTG
CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
CAGCGGCGGG GTAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC CCAGCTGGGC
AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
TCAGAATACT CCCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCA
CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
TCCACGCCAG AGCTGGGGCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCAGCGCCC
ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
CGCCCGACTC ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa13296 Clone ID Related Accession (Same CDS sequence) XM_002827400.3 , XM_002827400.2 , XM_024234493.1 Accession Version XM_002827400.2 Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1411315200000 Organism Pongo abelii(Sumatran orangutan) Product KAT8 regulatory NSL complex subunit 1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002888732.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 23, 2014 this sequence version replaced XM_002827400.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pongo abelii Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCAGCCA GTAAGGAGGA GAAGGGGAGA GAGCTCATTC
GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
AGTCCTGATG AGGAGAATGA GGAGATTGAG GACCTATCCG ACGCAGCCTT CGCCGCCCTG
CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
CAGCGGCGGG GTAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC CCAGCTGGGC
AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
TCAGAATACT CCCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCA
CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
TCCACGCCAG AGCTGGGGCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCAGCGCCC
ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
CGCCCGACTC ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002827446.1 CDS 232..3549 Translation
Target ORF information:
RefSeq Version XM_002827400.2 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_002827400.2
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
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCAGCCA GTAAGGAGGA GAAGGGGAGA GAGCTCATTC
GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
AGTCCTGATG AGGAGAATGA GGAGATTGAG GACCTATCCG ACGCAGCCTT CGCCGCCCTG
CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
CAGCGGCGGG GTAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC CCAGCTGGGC
AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
TCAGAATACT CCCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCA
CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
TCCACGCCAG AGCTGGGGCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCAGCGCCC
ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
CGCCCGACTC ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa13296 Clone ID Related Accession (Same CDS sequence) XM_002827400.3 , XM_002827400.2 , XM_024234493.1 Accession Version XM_024234493.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519660800000 Organism Pongo abelii(Sumatran orangutan) Product KAT8 regulatory NSL complex subunit 1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036920.1) 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 :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCAGCCA GTAAGGAGGA GAAGGGGAGA GAGCTCATTC
GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
AGTCCTGATG AGGAGAATGA GGAGATTGAG GACCTATCCG ACGCAGCCTT CGCCGCCCTG
CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
CAGCGGCGGG GTAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC CCAGCTGGGC
AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
TCAGAATACT CCCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCA
CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
TCCACGCCAG AGCTGGGGCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCAGCGCCC
ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
CGCCCGACTC ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_024090261.1 CDS 258..3575 Translation
Target ORF information:
RefSeq Version XM_024234493.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024234493.1
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
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCAGCCA GTAAGGAGGA GAAGGGGAGA GAGCTCATTC
GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
AGTCCTGATG AGGAGAATGA GGAGATTGAG GACCTATCCG ACGCAGCCTT CGCCGCCCTG
CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
CAGCGGCGGG GTAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC CCAGCTGGGC
AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
TCAGAATACT CCCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCA
CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
TCCACGCCAG AGCTGGGGCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCAGCGCCC
ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
CGCCCGACTC ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa26038 Clone ID Related Accession (Same CDS sequence) XM_024234494.1 , XM_009251631.1 Accession Version XM_024234494.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3315bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519660800000 Organism Pongo abelii(Sumatran orangutan) Product KAT8 regulatory NSL complex subunit 1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036920.1) 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 :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCCAGTA AGGAGGAGAA GGGGAGAGAG CTCATTCGAT
ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
CCTGATGAGG AGAATGAGGA GATTGAGGAC CTATCCGACG CAGCCTTCGC CGCCCTGCAT
GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
CGGCGGGGTA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCCCA GCTGGGCAGT
GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
GAATACTCCC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCACCC
CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
ACGCCAGAGC TGGGGCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC AGCGCCCACC
TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
CCGACTCACA GATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_024090262.1 CDS 258..3572 Translation
Target ORF information:
RefSeq Version XM_024234494.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024234494.1
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
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCCAGTA AGGAGGAGAA GGGGAGAGAG CTCATTCGAT
ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
CCTGATGAGG AGAATGAGGA GATTGAGGAC CTATCCGACG CAGCCTTCGC CGCCCTGCAT
GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
CGGCGGGGTA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCCCA GCTGGGCAGT
GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
GAATACTCCC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCACCC
CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
ACGCCAGAGC TGGGGCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC AGCGCCCACC
TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
CCGACTCACA GATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa26038 Clone ID Related Accession (Same CDS sequence) XM_024234494.1 , XM_009251631.1 Accession Version XM_009251631.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3315bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1411315200000 Organism Pongo abelii(Sumatran orangutan) Product KAT8 regulatory NSL complex subunit 1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002888732.1) 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 :: Full annotation Annotation Version :: Pongo abelii Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCCAGTA AGGAGGAGAA GGGGAGAGAG CTCATTCGAT
ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
CCTGATGAGG AGAATGAGGA GATTGAGGAC CTATCCGACG CAGCCTTCGC CGCCCTGCAT
GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
CGGCGGGGTA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCCCA GCTGGGCAGT
GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
GAATACTCCC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCACCC
CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
ACGCCAGAGC TGGGGCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC AGCGCCCACC
TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
CCGACTCACA GATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_009249906.1 CDS 232..3546 Translation
Target ORF information:
RefSeq Version XM_009251631.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_009251631.1
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
3301ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAG
CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAGCTCA
CAGGTTACAG CCAGCACATC GCAGCCAGTA AGGAGGAGAA GGGGAGAGAG CTCATTCGAT
ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
CCTGATGAGG AGAATGAGGA GATTGAGGAC CTATCCGACG CAGCCTTCGC CGCCCTGCAT
GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
CGGCGGGGTA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCCCA GCTGGGCAGT
GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
GAATACTCCC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCACCC
CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
ACGCCAGAGC TGGGGCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC AGCGCCCACC
TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
CCGACTCACA GATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa26039 Clone ID Related Accession (Same CDS sequence) XM_009251632.2 , XM_009251632.1 Accession Version XM_009251632.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3216bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519660800000 Organism Pongo abelii(Sumatran orangutan) Product KAT8 regulatory NSL complex subunit 1 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036920.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 28, 2018 this sequence version replaced XM_009251632.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GATTGAGTCT
GTTTCTCAGC CATTGGAAAA CCATGGTGCC CCTATTATTG GTCATATTTC AGAGTCACTG
TCTACCAAAT CATGTGGAGC ACTCAGACCT GTCAATGGAG TTATTAACAC TCTTCAGCCT
GTCTTGGCAG ACCACATTCC AGGTGACAGC TCTGATGCTG AGGAACAATT ACATAAGAAG
CAACGACTGA ATCTCGTCTC TTCGTCATCT GATGGCACCT GTGTGGCAGC CCGGACACGT
CCTGTACTGA GCTGTAAGAA ACGGAGGCTT GTTCGACCCA ACAGCATCGT TCCTCTTTCC
AAGAAGGTTC ACCGGAACAG CACAATCCGC CCTGGCTGTG ATGTGAATCC CTCCTGTGCA
CTGTGTGGTT CAGGCAGCAT CAACACCATG CCTCCCGAAA TTCACTATGA AGCCCCTCTG
TTGGAACGTC TTTCCCAGTT GGACTCTTGT GTTCACCCTG TTCTAGCATT TCCAGATGAT
GTTCCCACAA GCCTGCATTT CCAGAGCATG CTGAAATCTC AGTGGCAGAA CAAGCCTTTT
GACAAAATCA AACCTCCCAA AAAGTTATCG CTTAAGCACA GAGCACCCAT GCCGGGCAGT
CTGCCAGATC CAGCTCGTAA GGACAGGCAC AAATTGGTCA GCTCCTTCCT AACAACAGCC
AAGCTGTCCC ATCACCAAAC CCGGCCTGAC AGGACCCACA GGCAGCACTT AGACGATGTG
GGGGCCGTGC CCATGGTGGA GCGAGTGACA GCGCCAAAAG CAGAGCGCTT GCTCAACCCA
CCGCCACCCG TGCATGACCC AAACCACAGC AAAATGAGAT TGCGAGACCA TTCATCTGAG
AGAAGTGAAG TGTTGAAGCA TCACACAGAC ATGAGCAGTT CGAGCTACTT GGCAGCCACC
CACCATCCTC CACACAGTCC CTTGGTGCGA CAGCTCTCCA CCTCCTCAGA CTCCCCTGCA
CCCGCCAGCT CTAGCTCACA GGTTACAGCC AGCACATCGC AGCAGCCAGT AAGGAGGAGA
AGGGGAGAGA GCTCATTCGA TATTAACAAC ATTGTCATCC CAATGTCTGT TGCTGCAACA
ACTCGCGTAG AGAAACTGCA ATACAAGGAA ATCCTTACTC CCAGCTGGCG GGAGGTTGAT
CTTCAGTCTC TGAAGGGGAG TCCTGATGAG GAGAATGAGG AGATTGAGGA CCTATCCGAC
GCAGCCTTCG CCGCCCTGCA TGCCAAATGT GAGGAGATGG AGAGGGCACG GTGGCTGTGG
ACCACGAGTG TGCCACCCCA GCGGCGGGGT AGCAGGTCCT ACAGGTCATC AGACGGCCGG
ACAACCCCCC AGCTGGGCAG TGCCAACCCC TCCACCCCCC AGCCTGCCTC CCCTGATGTC
AGCAGTAGCC ACTCTTTGTC AGAATACTCC CATGGTCAGT CCCCTAGGAG CCCCATTAGC
CCGGAACTGC ACTCAGCACC CCTCACCCCT GTGGCTCGGG ACACTCCGCG ACACTTAGCC
AGTGAGGATA CCCGTTGTTC CACGCCAGAG CTGGGGCTGG ATGAACAGTC TGTCCAGCCC
TGGGAGCGGC GGACCTTCCC CCTGGCGCAC AGTCCCCAGG CGGAGTGTGA GGACCAGCTG
GATGCACAGG AGCGAGCAGC CCGCTGCACT CGACGCACCT CAGGCAGCAA GACTGGCCGG
GAGACAGAGG CAGCGCCCAC CTCGCCTCCC ACTGTCCCCC TCAAGAGTCG GCATCTGGTG
GCAGCAGCCA CAGCTCAGCG CCCGACTCAC AGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_009249907.1 CDS 232..3447 Translation
Target ORF information:
RefSeq Version XM_009251632.2 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_009251632.2
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
3181ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GATTGAGTCT
GTTTCTCAGC CATTGGAAAA CCATGGTGCC CCTATTATTG GTCATATTTC AGAGTCACTG
TCTACCAAAT CATGTGGAGC ACTCAGACCT GTCAATGGAG TTATTAACAC TCTTCAGCCT
GTCTTGGCAG ACCACATTCC AGGTGACAGC TCTGATGCTG AGGAACAATT ACATAAGAAG
CAACGACTGA ATCTCGTCTC TTCGTCATCT GATGGCACCT GTGTGGCAGC CCGGACACGT
CCTGTACTGA GCTGTAAGAA ACGGAGGCTT GTTCGACCCA ACAGCATCGT TCCTCTTTCC
AAGAAGGTTC ACCGGAACAG CACAATCCGC CCTGGCTGTG ATGTGAATCC CTCCTGTGCA
CTGTGTGGTT CAGGCAGCAT CAACACCATG CCTCCCGAAA TTCACTATGA AGCCCCTCTG
TTGGAACGTC TTTCCCAGTT GGACTCTTGT GTTCACCCTG TTCTAGCATT TCCAGATGAT
GTTCCCACAA GCCTGCATTT CCAGAGCATG CTGAAATCTC AGTGGCAGAA CAAGCCTTTT
GACAAAATCA AACCTCCCAA AAAGTTATCG CTTAAGCACA GAGCACCCAT GCCGGGCAGT
CTGCCAGATC CAGCTCGTAA GGACAGGCAC AAATTGGTCA GCTCCTTCCT AACAACAGCC
AAGCTGTCCC ATCACCAAAC CCGGCCTGAC AGGACCCACA GGCAGCACTT AGACGATGTG
GGGGCCGTGC CCATGGTGGA GCGAGTGACA GCGCCAAAAG CAGAGCGCTT GCTCAACCCA
CCGCCACCCG TGCATGACCC AAACCACAGC AAAATGAGAT TGCGAGACCA TTCATCTGAG
AGAAGTGAAG TGTTGAAGCA TCACACAGAC ATGAGCAGTT CGAGCTACTT GGCAGCCACC
CACCATCCTC CACACAGTCC CTTGGTGCGA CAGCTCTCCA CCTCCTCAGA CTCCCCTGCA
CCCGCCAGCT CTAGCTCACA GGTTACAGCC AGCACATCGC AGCAGCCAGT AAGGAGGAGA
AGGGGAGAGA GCTCATTCGA TATTAACAAC ATTGTCATCC CAATGTCTGT TGCTGCAACA
ACTCGCGTAG AGAAACTGCA ATACAAGGAA ATCCTTACTC CCAGCTGGCG GGAGGTTGAT
CTTCAGTCTC TGAAGGGGAG TCCTGATGAG GAGAATGAGG AGATTGAGGA CCTATCCGAC
GCAGCCTTCG CCGCCCTGCA TGCCAAATGT GAGGAGATGG AGAGGGCACG GTGGCTGTGG
ACCACGAGTG TGCCACCCCA GCGGCGGGGT AGCAGGTCCT ACAGGTCATC AGACGGCCGG
ACAACCCCCC AGCTGGGCAG TGCCAACCCC TCCACCCCCC AGCCTGCCTC CCCTGATGTC
AGCAGTAGCC ACTCTTTGTC AGAATACTCC CATGGTCAGT CCCCTAGGAG CCCCATTAGC
CCGGAACTGC ACTCAGCACC CCTCACCCCT GTGGCTCGGG ACACTCCGCG ACACTTAGCC
AGTGAGGATA CCCGTTGTTC CACGCCAGAG CTGGGGCTGG ATGAACAGTC TGTCCAGCCC
TGGGAGCGGC GGACCTTCCC CCTGGCGCAC AGTCCCCAGG CGGAGTGTGA GGACCAGCTG
GATGCACAGG AGCGAGCAGC CCGCTGCACT CGACGCACCT CAGGCAGCAA GACTGGCCGG
GAGACAGAGG CAGCGCCCAC CTCGCCTCCC ACTGTCCCCC TCAAGAGTCG GCATCTGGTG
GCAGCAGCCA CAGCTCAGCG CCCGACTCAC AGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa26039 Clone ID Related Accession (Same CDS sequence) XM_009251632.2 , XM_009251632.1 Accession Version XM_009251632.1 Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3216bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1411315200000 Organism Pongo abelii(Sumatran orangutan) Product KAT8 regulatory NSL complex subunit 1 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002888732.1) 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 :: Full annotation Annotation Version :: Pongo abelii Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GATTGAGTCT
GTTTCTCAGC CATTGGAAAA CCATGGTGCC CCTATTATTG GTCATATTTC AGAGTCACTG
TCTACCAAAT CATGTGGAGC ACTCAGACCT GTCAATGGAG TTATTAACAC TCTTCAGCCT
GTCTTGGCAG ACCACATTCC AGGTGACAGC TCTGATGCTG AGGAACAATT ACATAAGAAG
CAACGACTGA ATCTCGTCTC TTCGTCATCT GATGGCACCT GTGTGGCAGC CCGGACACGT
CCTGTACTGA GCTGTAAGAA ACGGAGGCTT GTTCGACCCA ACAGCATCGT TCCTCTTTCC
AAGAAGGTTC ACCGGAACAG CACAATCCGC CCTGGCTGTG ATGTGAATCC CTCCTGTGCA
CTGTGTGGTT CAGGCAGCAT CAACACCATG CCTCCCGAAA TTCACTATGA AGCCCCTCTG
TTGGAACGTC TTTCCCAGTT GGACTCTTGT GTTCACCCTG TTCTAGCATT TCCAGATGAT
GTTCCCACAA GCCTGCATTT CCAGAGCATG CTGAAATCTC AGTGGCAGAA CAAGCCTTTT
GACAAAATCA AACCTCCCAA AAAGTTATCG CTTAAGCACA GAGCACCCAT GCCGGGCAGT
CTGCCAGATC CAGCTCGTAA GGACAGGCAC AAATTGGTCA GCTCCTTCCT AACAACAGCC
AAGCTGTCCC ATCACCAAAC CCGGCCTGAC AGGACCCACA GGCAGCACTT AGACGATGTG
GGGGCCGTGC CCATGGTGGA GCGAGTGACA GCGCCAAAAG CAGAGCGCTT GCTCAACCCA
CCGCCACCCG TGCATGACCC AAACCACAGC AAAATGAGAT TGCGAGACCA TTCATCTGAG
AGAAGTGAAG TGTTGAAGCA TCACACAGAC ATGAGCAGTT CGAGCTACTT GGCAGCCACC
CACCATCCTC CACACAGTCC CTTGGTGCGA CAGCTCTCCA CCTCCTCAGA CTCCCCTGCA
CCCGCCAGCT CTAGCTCACA GGTTACAGCC AGCACATCGC AGCAGCCAGT AAGGAGGAGA
AGGGGAGAGA GCTCATTCGA TATTAACAAC ATTGTCATCC CAATGTCTGT TGCTGCAACA
ACTCGCGTAG AGAAACTGCA ATACAAGGAA ATCCTTACTC CCAGCTGGCG GGAGGTTGAT
CTTCAGTCTC TGAAGGGGAG TCCTGATGAG GAGAATGAGG AGATTGAGGA CCTATCCGAC
GCAGCCTTCG CCGCCCTGCA TGCCAAATGT GAGGAGATGG AGAGGGCACG GTGGCTGTGG
ACCACGAGTG TGCCACCCCA GCGGCGGGGT AGCAGGTCCT ACAGGTCATC AGACGGCCGG
ACAACCCCCC AGCTGGGCAG TGCCAACCCC TCCACCCCCC AGCCTGCCTC CCCTGATGTC
AGCAGTAGCC ACTCTTTGTC AGAATACTCC CATGGTCAGT CCCCTAGGAG CCCCATTAGC
CCGGAACTGC ACTCAGCACC CCTCACCCCT GTGGCTCGGG ACACTCCGCG ACACTTAGCC
AGTGAGGATA CCCGTTGTTC CACGCCAGAG CTGGGGCTGG ATGAACAGTC TGTCCAGCCC
TGGGAGCGGC GGACCTTCCC CCTGGCGCAC AGTCCCCAGG CGGAGTGTGA GGACCAGCTG
GATGCACAGG AGCGAGCAGC CCGCTGCACT CGACGCACCT CAGGCAGCAA GACTGGCCGG
GAGACAGAGG CAGCGCCCAC CTCGCCTCCC ACTGTCCCCC TCAAGAGTCG GCATCTGGTG
GCAGCAGCCA CAGCTCAGCG CCCGACTCAC AGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_009249907.1 CDS 232..3447 Translation
Target ORF information:
RefSeq Version XM_009251632.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_009251632.1
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
3181ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GATTGAGTCT
GTTTCTCAGC CATTGGAAAA CCATGGTGCC CCTATTATTG GTCATATTTC AGAGTCACTG
TCTACCAAAT CATGTGGAGC ACTCAGACCT GTCAATGGAG TTATTAACAC TCTTCAGCCT
GTCTTGGCAG ACCACATTCC AGGTGACAGC TCTGATGCTG AGGAACAATT ACATAAGAAG
CAACGACTGA ATCTCGTCTC TTCGTCATCT GATGGCACCT GTGTGGCAGC CCGGACACGT
CCTGTACTGA GCTGTAAGAA ACGGAGGCTT GTTCGACCCA ACAGCATCGT TCCTCTTTCC
AAGAAGGTTC ACCGGAACAG CACAATCCGC CCTGGCTGTG ATGTGAATCC CTCCTGTGCA
CTGTGTGGTT CAGGCAGCAT CAACACCATG CCTCCCGAAA TTCACTATGA AGCCCCTCTG
TTGGAACGTC TTTCCCAGTT GGACTCTTGT GTTCACCCTG TTCTAGCATT TCCAGATGAT
GTTCCCACAA GCCTGCATTT CCAGAGCATG CTGAAATCTC AGTGGCAGAA CAAGCCTTTT
GACAAAATCA AACCTCCCAA AAAGTTATCG CTTAAGCACA GAGCACCCAT GCCGGGCAGT
CTGCCAGATC CAGCTCGTAA GGACAGGCAC AAATTGGTCA GCTCCTTCCT AACAACAGCC
AAGCTGTCCC ATCACCAAAC CCGGCCTGAC AGGACCCACA GGCAGCACTT AGACGATGTG
GGGGCCGTGC CCATGGTGGA GCGAGTGACA GCGCCAAAAG CAGAGCGCTT GCTCAACCCA
CCGCCACCCG TGCATGACCC AAACCACAGC AAAATGAGAT TGCGAGACCA TTCATCTGAG
AGAAGTGAAG TGTTGAAGCA TCACACAGAC ATGAGCAGTT CGAGCTACTT GGCAGCCACC
CACCATCCTC CACACAGTCC CTTGGTGCGA CAGCTCTCCA CCTCCTCAGA CTCCCCTGCA
CCCGCCAGCT CTAGCTCACA GGTTACAGCC AGCACATCGC AGCAGCCAGT AAGGAGGAGA
AGGGGAGAGA GCTCATTCGA TATTAACAAC ATTGTCATCC CAATGTCTGT TGCTGCAACA
ACTCGCGTAG AGAAACTGCA ATACAAGGAA ATCCTTACTC CCAGCTGGCG GGAGGTTGAT
CTTCAGTCTC TGAAGGGGAG TCCTGATGAG GAGAATGAGG AGATTGAGGA CCTATCCGAC
GCAGCCTTCG CCGCCCTGCA TGCCAAATGT GAGGAGATGG AGAGGGCACG GTGGCTGTGG
ACCACGAGTG TGCCACCCCA GCGGCGGGGT AGCAGGTCCT ACAGGTCATC AGACGGCCGG
ACAACCCCCC AGCTGGGCAG TGCCAACCCC TCCACCCCCC AGCCTGCCTC CCCTGATGTC
AGCAGTAGCC ACTCTTTGTC AGAATACTCC CATGGTCAGT CCCCTAGGAG CCCCATTAGC
CCGGAACTGC ACTCAGCACC CCTCACCCCT GTGGCTCGGG ACACTCCGCG ACACTTAGCC
AGTGAGGATA CCCGTTGTTC CACGCCAGAG CTGGGGCTGG ATGAACAGTC TGTCCAGCCC
TGGGAGCGGC GGACCTTCCC CCTGGCGCAC AGTCCCCAGG CGGAGTGTGA GGACCAGCTG
GATGCACAGG AGCGAGCAGC CCGCTGCACT CGACGCACCT CAGGCAGCAA GACTGGCCGG
GAGACAGAGG CAGCGCCCAC CTCGCCTCCC ACTGTCCCCC TCAAGAGTCG GCATCTGGTG
GCAGCAGCCA CAGCTCAGCG CCCGACTCAC AGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa26040 Clone ID Related Accession (Same CDS sequence) XM_009251633.2 , XM_009251633.1 Accession Version XM_009251633.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3129bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519660800000 Organism Pongo abelii(Sumatran orangutan) Product KAT8 regulatory NSL complex subunit 1 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036920.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 28, 2018 this sequence version replaced XM_009251633.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA GCATCACACA
GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAGCTC ACAGGTTACA
GCCAGCACAT CGCAGCAGCC AGTAAGGAGG AGAAGGGGAG AGAGCTCATT CGATATTAAC
AACATTGTCA TCCCAATGTC TGTTGCTGCA ACAACTCGCG TAGAGAAACT GCAATACAAG
GAAATCCTTA CTCCCAGCTG GCGGGAGGTT GATCTTCAGT CTCTGAAGGG GAGTCCTGAT
GAGGAGAATG AGGAGATTGA GGACCTATCC GACGCAGCCT TCGCCGCCCT GCATGCCAAA
TGTGAGGAGA TGGAGAGGGC ACGGTGGCTG TGGACCACGA GTGTGCCACC CCAGCGGCGG
GGTAGCAGGT CCTACAGGTC ATCAGACGGC CGGACAACCC CCCAGCTGGG CAGTGCCAAC
CCCTCCACCC CCCAGCCTGC CTCCCCTGAT GTCAGCAGTA GCCACTCTTT GTCAGAATAC
TCCCATGGTC AGTCCCCTAG GAGCCCCATT AGCCCGGAAC TGCACTCAGC ACCCCTCACC
CCTGTGGCTC GGGACACTCC GCGACACTTA GCCAGTGAGG ATACCCGTTG TTCCACGCCA
GAGCTGGGGC TGGATGAACA GTCTGTCCAG CCCTGGGAGC GGCGGACCTT CCCCCTGGCG
CACAGTCCCC AGGCGGAGTG TGAGGACCAG CTGGATGCAC AGGAGCGAGC AGCCCGCTGC
ACTCGACGCA CCTCAGGCAG CAAGACTGGC CGGGAGACAG AGGCAGCGCC CACCTCGCCT
CCCACTGTCC CCCTCAAGAG TCGGCATCTG GTGGCAGCAG CCACAGCTCA GCGCCCGACT
CACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_009249908.1 CDS 232..3360 Translation
Target ORF information:
RefSeq Version XM_009251633.2 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_009251633.2
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
3121ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA GCATCACACA
GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAGCTC ACAGGTTACA
GCCAGCACAT CGCAGCAGCC AGTAAGGAGG AGAAGGGGAG AGAGCTCATT CGATATTAAC
AACATTGTCA TCCCAATGTC TGTTGCTGCA ACAACTCGCG TAGAGAAACT GCAATACAAG
GAAATCCTTA CTCCCAGCTG GCGGGAGGTT GATCTTCAGT CTCTGAAGGG GAGTCCTGAT
GAGGAGAATG AGGAGATTGA GGACCTATCC GACGCAGCCT TCGCCGCCCT GCATGCCAAA
TGTGAGGAGA TGGAGAGGGC ACGGTGGCTG TGGACCACGA GTGTGCCACC CCAGCGGCGG
GGTAGCAGGT CCTACAGGTC ATCAGACGGC CGGACAACCC CCCAGCTGGG CAGTGCCAAC
CCCTCCACCC CCCAGCCTGC CTCCCCTGAT GTCAGCAGTA GCCACTCTTT GTCAGAATAC
TCCCATGGTC AGTCCCCTAG GAGCCCCATT AGCCCGGAAC TGCACTCAGC ACCCCTCACC
CCTGTGGCTC GGGACACTCC GCGACACTTA GCCAGTGAGG ATACCCGTTG TTCCACGCCA
GAGCTGGGGC TGGATGAACA GTCTGTCCAG CCCTGGGAGC GGCGGACCTT CCCCCTGGCG
CACAGTCCCC AGGCGGAGTG TGAGGACCAG CTGGATGCAC AGGAGCGAGC AGCCCGCTGC
ACTCGACGCA CCTCAGGCAG CAAGACTGGC CGGGAGACAG AGGCAGCGCC CACCTCGCCT
CCCACTGTCC CCCTCAAGAG TCGGCATCTG GTGGCAGCAG CCACAGCTCA GCGCCCGACT
CACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa26040 Clone ID Related Accession (Same CDS sequence) XM_009251633.2 , XM_009251633.1 Accession Version XM_009251633.1 Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3129bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1411315200000 Organism Pongo abelii(Sumatran orangutan) Product KAT8 regulatory NSL complex subunit 1 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002888732.1) 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 :: Full annotation Annotation Version :: Pongo abelii Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA GCATCACACA
GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAGCTC ACAGGTTACA
GCCAGCACAT CGCAGCAGCC AGTAAGGAGG AGAAGGGGAG AGAGCTCATT CGATATTAAC
AACATTGTCA TCCCAATGTC TGTTGCTGCA ACAACTCGCG TAGAGAAACT GCAATACAAG
GAAATCCTTA CTCCCAGCTG GCGGGAGGTT GATCTTCAGT CTCTGAAGGG GAGTCCTGAT
GAGGAGAATG AGGAGATTGA GGACCTATCC GACGCAGCCT TCGCCGCCCT GCATGCCAAA
TGTGAGGAGA TGGAGAGGGC ACGGTGGCTG TGGACCACGA GTGTGCCACC CCAGCGGCGG
GGTAGCAGGT CCTACAGGTC ATCAGACGGC CGGACAACCC CCCAGCTGGG CAGTGCCAAC
CCCTCCACCC CCCAGCCTGC CTCCCCTGAT GTCAGCAGTA GCCACTCTTT GTCAGAATAC
TCCCATGGTC AGTCCCCTAG GAGCCCCATT AGCCCGGAAC TGCACTCAGC ACCCCTCACC
CCTGTGGCTC GGGACACTCC GCGACACTTA GCCAGTGAGG ATACCCGTTG TTCCACGCCA
GAGCTGGGGC TGGATGAACA GTCTGTCCAG CCCTGGGAGC GGCGGACCTT CCCCCTGGCG
CACAGTCCCC AGGCGGAGTG TGAGGACCAG CTGGATGCAC AGGAGCGAGC AGCCCGCTGC
ACTCGACGCA CCTCAGGCAG CAAGACTGGC CGGGAGACAG AGGCAGCGCC CACCTCGCCT
CCCACTGTCC CCCTCAAGAG TCGGCATCTG GTGGCAGCAG CCACAGCTCA GCGCCCGACT
CACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_009249908.1 CDS 232..3360 Translation
Target ORF information:
RefSeq Version XM_009251633.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_009251633.1
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
3121ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC
AAACTGGCTC CCCCATCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
CTAGATTTCC GAAATAATCC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
ATGAATACGA GTGGTCAGAC AGCTCTGCCA AAAGCACCTG TAAATGGGTT GGCTAAGAAA
TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGAGGGAAAA
CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAATGG GAGGATCTGA ATCTGGGGAC
TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
ACTTTGTATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATAC TTTTCAGTGC TTTAGATTCT
GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCA ATTCAATTTC AGAAGAATTG
GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAGGC ATTTGATTCA
GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAA ATGGGCTGCA
GATCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTGTTTCTCA GCCATTGGAA
AACCATGGTG CCCCTATTAT TGGTCATATT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAGA AGCAACGACT GAATCTCGTC
TCTTCGTCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
AAACGGAGGC TTGTTCGACC CAACAGCATC GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CACTGTGTGG TTCAGGCAGC
ATCAACACCA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA GCATCACACA
GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAGCTC ACAGGTTACA
GCCAGCACAT CGCAGCAGCC AGTAAGGAGG AGAAGGGGAG AGAGCTCATT CGATATTAAC
AACATTGTCA TCCCAATGTC TGTTGCTGCA ACAACTCGCG TAGAGAAACT GCAATACAAG
GAAATCCTTA CTCCCAGCTG GCGGGAGGTT GATCTTCAGT CTCTGAAGGG GAGTCCTGAT
GAGGAGAATG AGGAGATTGA GGACCTATCC GACGCAGCCT TCGCCGCCCT GCATGCCAAA
TGTGAGGAGA TGGAGAGGGC ACGGTGGCTG TGGACCACGA GTGTGCCACC CCAGCGGCGG
GGTAGCAGGT CCTACAGGTC ATCAGACGGC CGGACAACCC CCCAGCTGGG CAGTGCCAAC
CCCTCCACCC CCCAGCCTGC CTCCCCTGAT GTCAGCAGTA GCCACTCTTT GTCAGAATAC
TCCCATGGTC AGTCCCCTAG GAGCCCCATT AGCCCGGAAC TGCACTCAGC ACCCCTCACC
CCTGTGGCTC GGGACACTCC GCGACACTTA GCCAGTGAGG ATACCCGTTG TTCCACGCCA
GAGCTGGGGC TGGATGAACA GTCTGTCCAG CCCTGGGAGC GGCGGACCTT CCCCCTGGCG
CACAGTCCCC AGGCGGAGTG TGAGGACCAG CTGGATGCAC AGGAGCGAGC AGCCCGCTGC
ACTCGACGCA CCTCAGGCAG CAAGACTGGC CGGGAGACAG AGGCAGCGCC CACCTCGCCT
CCCACTGTCC CCCTCAAGAG TCGGCATCTG GTGGCAGCAG CCACAGCTCA GCGCCCGACT
CACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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