| Gene Symbol | SMARCA4 |
| Entrez Gene ID | 102985133 |
| Full Name | SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 |
| Gene Type | protein-coding |
| Organism | Physeter catodon(sperm whale) |
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SMARCA4 cDNA ORF clone, Physeter catodon(sperm whale)
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Gene
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Clones
gRNAs
The following SMARCA4 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SMARCA4 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 OPh116165 Clone ID Related Accession (Same CDS sequence) XM_007106684.1 Accession Version XM_007106684.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4449bp)
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 1394380800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006713417.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGAG CAGACACTGC
AGCACGGGCA GCGGCAGTGC CAGCTTCGCC CACACTGCCC CTCCGCCAGC GGGCGTCAAC
CCCGACTTGG AGGAGCCACC TCTAAAGGAA GAAGACGAAG TGCCTGACGA TGAGACGGTG
AACCAGATGA TTGCCCGGCA CGAGGAGGAG TTCGACCTGT TCATGCGCAT GGACCTGGAC
CGCAGGCGCG AGGAGGCCCG CAACCCCAAG CGGAAGCCAC GCCTGATGGA GGAGGATGAG
CTCCCCTCGT GGATCATCAA GGACGACGCA GAGGTGGAGC GGCTGACCTG CGAGGAGGAG
GAGGAGAAGA TGTTCGGCCG CGGCTCCCGC CACCGCAAGG AGGTGGACTA CAGCGACTCG
CTGACCGAGA AGCAGTGGCT CAAGACCCTG AAGGCCATCG AGGAGGGCAC GCTGGAGGAG
ATCGAAGAGG AGGTCCGGCA GAAGAAATCG TCGCGGAAGC GCAAGCGGGA CAGCGATGCC
GGCCCCTCCA CCCCGACCAC CAGCACCCGC AGCCGCGACA AGGACGACGA GAGCAAGAAG
CAGAAGAAGC GTGGCCGGCC GCCTGCCGAG AAGCTCTCCC CCAACCCGCC CAACCTCACC
AAGAAGATGA AGAAGATCGT GGACGCTGTG ATCAAGTACA AGGACAGTAT TCTTGCAAGG
GAACCTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007106746.1 CDS 31..4479 Translation 
Target ORF information:
RefSeq Version XM_007106684.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_007106684.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGAG CAGACACTGC
AGCACGGGCA GCGGCAGTGC CAGCTTCGCC CACACTGCCC CTCCGCCAGC GGGCGTCAAC
CCCGACTTGG AGGAGCCACC TCTAAAGGAA GAAGACGAAG TGCCTGACGA TGAGACGGTG
AACCAGATGA TTGCCCGGCA CGAGGAGGAG TTCGACCTGT TCATGCGCAT GGACCTGGAC
CGCAGGCGCG AGGAGGCCCG CAACCCCAAG CGGAAGCCAC GCCTGATGGA GGAGGATGAG
CTCCCCTCGT GGATCATCAA GGACGACGCA GAGGTGGAGC GGCTGACCTG CGAGGAGGAG
GAGGAGAAGA TGTTCGGCCG CGGCTCCCGC CACCGCAAGG AGGTGGACTA CAGCGACTCG
CTGACCGAGA AGCAGTGGCT CAAGACCCTG AAGGCCATCG AGGAGGGCAC GCTGGAGGAG
ATCGAAGAGG AGGTCCGGCA GAAGAAATCG TCGCGGAAGC GCAAGCGGGA CAGCGATGCC
GGCCCCTCCA CCCCGACCAC CAGCACCCGC AGCCGCGACA AGGACGACGA GAGCAAGAAG
CAGAAGAAGC GTGGCCGGCC GCCTGCCGAG AAGCTCTCCC CCAACCCGCC CAACCTCACC
AAGAAGATGA AGAAGATCGT GGACGCTGTG ATCAAGTACA AGGACAGTAT TCTTGCAAGG
GAACCTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh303236 Clone ID Related Accession (Same CDS sequence) XM_024133988.1 Accession Version XM_024133988.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3372bp)
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 1519228800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873602.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 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
3301
3361ATGCGGAGGC TCATGGCCGA GGACGAGGAA GGGTACCGCA AGCTCATTGA CCAGAAGAAG
GACAAGCGCC TGGCCTACCT CCTGCAGCAG ACGGACGAGT ACGTGGCTAA CCTCACGGAG
CTGGTGCGGC AGCACAAGGC CGCCCAGGTC GCCAAGGAGA AGAAGAAGAA GAAGAAGAAG
AAGAAGGCAG AAAACGCTGA AGGACAGACA CCTGCGATCG GACCCGATGG CGAGCCTCTG
GATGAGACCA GCCAAATGAG CGACCTTCCG GTGAAAGTGA TCCACGTGGA GAGTGGGAAG
ATCCTCACGG GCACAGACGC ACCCAAAGCA GGGCAGCTGG AGGCCTGGCT GGAAATGAAC
CCAGGGTATG AAGTAGCTCC AAGATCTGAT AGTGAAGAGA GTGGCTCAGA AGAAGAGGAT
GAGGAGGAGG AAGAGGAGCA GCCGCAGCCA GCACAGCCTC CCGCCCTGCC CGTGGAGGAG
AAGAAGAAGA TTCCAGATCC AGACAGCGAC GACGTCTCCG AGGTGGACGC CCGGCACATC
ATTGAGAACG CCAAGCAAGA TGTTGATGAC GAGTATGGCG TGTCGCAGGC TCTCGCTCGT
GGCCTGCAGT CCTATTATGC CGTGGCCCAC GCCGTCACCG AGAGGGTGGA GAAGCAGTCA
GCGCTCATGG TCAACGGCGT TCTCAAGCAG TACCAGATCA AAGGCTTAGA GTGGCTGGTG
TCCCTATACA ACAACAACCT GAATGGCATC CTGGCTGATG AGATGGGCCT GGGGAAGACC
ATCCAGACCA TCGCTCTCAT CACGTACCTC ATGGAGCACA AGCGGATCAA CGGACCCTTC
CTCATCATAG TACCTCTCTC AACGCTGTCC AACTGGGCAT ACGAATTTGA CAAGTGGGCC
CCCTCGGTGG TGAAGGTGTC CTACAAGGGC TCTCCAGCAG CCAGACGTGC TTTCGTCCCC
CAGCTCCGGA GCGGCAAGTT CAACGTCTTG CTGACGACGT ACGAGTACAT CATTAAAGAC
AAGCACATCC TTGCAAAGAT CCGTTGGAAG TACATGATCG TGGACGAAGG CCACCGCATG
AAGAACCACC ACTGCAAGCT GACGCAGGTC CTCAACACGC ACTACGTGGC GCCCCGCCGC
CTGCTGCTGA CGGGCACGCC GCTGCAGAAC AAGCTCCCTG AGCTCTGGGC GCTCCTCAAC
TTCCTGCTGC CCACCATCTT CAAGAGCTGC AGCACCTTTG AGCAGTGGTT CAACGCGCCC
TTTGCCATGA CCGGGGAAAA GGTGGACCTG AACGAGGAGG AAACCATTCT CATCATCCGT
CGTCTCCACA AAGTGCTGCG GCCCTTCCTG CTCCGGCGGC TCAAGAAGGA AGTCGAGGCT
CAGTTACCTG AAAAGGTGGA GTACGTCATC AAGTGCGACA TGTCCGCGCT GCAGCGCGTG
CTTTACCGGC ACATGCAGGC CAAGGGGGTG CTGCTCACCG ATGGCTCTGA GAAGGATAAG
AAGGGCAAAG GTGGCACCAA GACCCTGATG AACACCATCA TGCAGCTGAG GAAGATCTGC
AACCACCCGT ACATGTTCCA GCACATCGAG GAGTCCTTTT CCGAGCACTT GGGGTTTACC
GGTGGCATCG TCCAAGGGCT GGACCTGTAC CGAGCCTCGG GGAAGTTTGA GCTGCTCGAT
AGAATTCTTC CCAAACTCCG GGCCACCAAC CATAAAGTGC TGCTGTTCTG TCAGATGACC
TCCCTCATGA CGATCATGGA AGACTATTTT GCGTATCGCG GCTTTAAATA CCTCAGGCTC
GATGGAACCA CGAAAGCGGA GGACCGGGGC ATGCTGCTGA AGACCTTCAA CGAGCCCGGC
TCCGAGTACT TCATCTTCCT GCTCAGCACC CGGGCTGGGG GGCTGGGTCT GAACCTCCAG
TCAGCCGACA CTGTGATCAT ATTTGACAGT GACTGGAACC CCCACCAGGA CCTGCAAGCG
CAGGACCGTG CCCACCGCAT CGGGCAGCAG AACGAGGTGC GTGTGCTCCG CCTCTGCACG
GTCAACAGCG TGGAAGAGAA GATCCTGGCT GCGGCCAAGT ACAAGCTCAA CGTCGACCAG
AAGGTGATCC AGGCCGGCAT GTTCGACCAG AAGTCCTCCA GCCATGAGAG GCGCGCTTTC
CTCCAGGCCA TCCTCGAGCA CGAGGAGCAG GACGAGAGCA GACACTGCAG CACGGGCAGC
GGCAGTGCCA GCTTCGCCCA CACTGCCCCT CCGCCAGCGG GCGTCAACCC CGACTTGGAG
GAGCCACCTC TAAAGGAAGA AGACGAAGTG CCTGACGATG AGACGGTGAA CCAGATGATT
GCCCGGCACG AGGAGGAGTT CGACCTGTTC ATGCGCATGG ACCTGGACCG CAGGCGCGAG
GAGGCCCGCA ACCCCAAGCG GAAGCCACGC CTGATGGAGG AGGATGAGCT CCCCTCGTGG
ATCATCAAGG ACGACGCAGA GGTGGAGCGG CTGACCTGCG AGGAGGAGGA GGAGAAGATG
TTCGGCCGCG GCTCCCGCCA CCGCAAGGAG GTGGACTACA GCGACTCGCT GACCGAGAAG
CAGTGGCTCA AGACCCTGAA GGCCATCGAG GAGGGCACGC TGGAGGAGAT CGAAGAGGAG
GTCCGGCAGA AGAAATCGTC GCGGAAGCGC AAGCGGGACA GCGATGCCGG CCCCTCCACC
CCGACCACCA GCACCCGCAG CCGCGACAAG GACGACGAGA GCAAGAAGCA GAAGAAGCGT
GGCCGGCCGC CTGCCGAGAA GCTCTCCCCC AACCCGCCCA ACCTCACCAA GAAGATGAAG
AAGATCGTGG ACGCTGTGAT CAAGTACAAG GACAGTAGTG GACGTCAGCT CAGCGAGGTG
TTCATCCAGC TGCCGTCCCG CAAGGAGCTG CCCGAGTACT ATGAGCTCAT CCGCAAGCCT
GTGGACTTCA AGAAGATAAA GGAGCGCATC CGCAGCCACA AGTACCGCAG CCTCAACGAC
CTAGAGAAGG ACGTGATGCT GCTGTGCCAG AACGCACAGA CCTTCAACCT GGAGGGCTCC
CTGATCTACG AAGACTCCAT CGTCCTGCAG TCGGTCTTCA CCAGCGTGCG GCAGAAAATC
GAGAAGGAGG AAGACAGTGA AGGGGAGGAG AGCGAGGAGG AAGAGGAGGG CGAGGAGGAA
GGCTCGGAGT CGGAGTCTCG CTCGGTCAAA GTGAAGATCA AGCTTGGCCG GAAGGAGAAG
GCCCAGGACC GGCTCAAGGG CGGCCGGCGG CGGCCGAGCC GCGGGTCCAG GGCCAAGCCG
GTGGTGAGCG ACGACGACAG CGAGGAGGAG CAGGAGGAGG ACCGCTCAGG AAGTGGCAGC
GAGGAAGACT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023989756.1 CDS 142..3513 Translation
Target ORF information:
RefSeq Version XM_024133988.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024133988.1
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
3361ATGCGGAGGC TCATGGCCGA GGACGAGGAA GGGTACCGCA AGCTCATTGA CCAGAAGAAG
GACAAGCGCC TGGCCTACCT CCTGCAGCAG ACGGACGAGT ACGTGGCTAA CCTCACGGAG
CTGGTGCGGC AGCACAAGGC CGCCCAGGTC GCCAAGGAGA AGAAGAAGAA GAAGAAGAAG
AAGAAGGCAG AAAACGCTGA AGGACAGACA CCTGCGATCG GACCCGATGG CGAGCCTCTG
GATGAGACCA GCCAAATGAG CGACCTTCCG GTGAAAGTGA TCCACGTGGA GAGTGGGAAG
ATCCTCACGG GCACAGACGC ACCCAAAGCA GGGCAGCTGG AGGCCTGGCT GGAAATGAAC
CCAGGGTATG AAGTAGCTCC AAGATCTGAT AGTGAAGAGA GTGGCTCAGA AGAAGAGGAT
GAGGAGGAGG AAGAGGAGCA GCCGCAGCCA GCACAGCCTC CCGCCCTGCC CGTGGAGGAG
AAGAAGAAGA TTCCAGATCC AGACAGCGAC GACGTCTCCG AGGTGGACGC CCGGCACATC
ATTGAGAACG CCAAGCAAGA TGTTGATGAC GAGTATGGCG TGTCGCAGGC TCTCGCTCGT
GGCCTGCAGT CCTATTATGC CGTGGCCCAC GCCGTCACCG AGAGGGTGGA GAAGCAGTCA
GCGCTCATGG TCAACGGCGT TCTCAAGCAG TACCAGATCA AAGGCTTAGA GTGGCTGGTG
TCCCTATACA ACAACAACCT GAATGGCATC CTGGCTGATG AGATGGGCCT GGGGAAGACC
ATCCAGACCA TCGCTCTCAT CACGTACCTC ATGGAGCACA AGCGGATCAA CGGACCCTTC
CTCATCATAG TACCTCTCTC AACGCTGTCC AACTGGGCAT ACGAATTTGA CAAGTGGGCC
CCCTCGGTGG TGAAGGTGTC CTACAAGGGC TCTCCAGCAG CCAGACGTGC TTTCGTCCCC
CAGCTCCGGA GCGGCAAGTT CAACGTCTTG CTGACGACGT ACGAGTACAT CATTAAAGAC
AAGCACATCC TTGCAAAGAT CCGTTGGAAG TACATGATCG TGGACGAAGG CCACCGCATG
AAGAACCACC ACTGCAAGCT GACGCAGGTC CTCAACACGC ACTACGTGGC GCCCCGCCGC
CTGCTGCTGA CGGGCACGCC GCTGCAGAAC AAGCTCCCTG AGCTCTGGGC GCTCCTCAAC
TTCCTGCTGC CCACCATCTT CAAGAGCTGC AGCACCTTTG AGCAGTGGTT CAACGCGCCC
TTTGCCATGA CCGGGGAAAA GGTGGACCTG AACGAGGAGG AAACCATTCT CATCATCCGT
CGTCTCCACA AAGTGCTGCG GCCCTTCCTG CTCCGGCGGC TCAAGAAGGA AGTCGAGGCT
CAGTTACCTG AAAAGGTGGA GTACGTCATC AAGTGCGACA TGTCCGCGCT GCAGCGCGTG
CTTTACCGGC ACATGCAGGC CAAGGGGGTG CTGCTCACCG ATGGCTCTGA GAAGGATAAG
AAGGGCAAAG GTGGCACCAA GACCCTGATG AACACCATCA TGCAGCTGAG GAAGATCTGC
AACCACCCGT ACATGTTCCA GCACATCGAG GAGTCCTTTT CCGAGCACTT GGGGTTTACC
GGTGGCATCG TCCAAGGGCT GGACCTGTAC CGAGCCTCGG GGAAGTTTGA GCTGCTCGAT
AGAATTCTTC CCAAACTCCG GGCCACCAAC CATAAAGTGC TGCTGTTCTG TCAGATGACC
TCCCTCATGA CGATCATGGA AGACTATTTT GCGTATCGCG GCTTTAAATA CCTCAGGCTC
GATGGAACCA CGAAAGCGGA GGACCGGGGC ATGCTGCTGA AGACCTTCAA CGAGCCCGGC
TCCGAGTACT TCATCTTCCT GCTCAGCACC CGGGCTGGGG GGCTGGGTCT GAACCTCCAG
TCAGCCGACA CTGTGATCAT ATTTGACAGT GACTGGAACC CCCACCAGGA CCTGCAAGCG
CAGGACCGTG CCCACCGCAT CGGGCAGCAG AACGAGGTGC GTGTGCTCCG CCTCTGCACG
GTCAACAGCG TGGAAGAGAA GATCCTGGCT GCGGCCAAGT ACAAGCTCAA CGTCGACCAG
AAGGTGATCC AGGCCGGCAT GTTCGACCAG AAGTCCTCCA GCCATGAGAG GCGCGCTTTC
CTCCAGGCCA TCCTCGAGCA CGAGGAGCAG GACGAGAGCA GACACTGCAG CACGGGCAGC
GGCAGTGCCA GCTTCGCCCA CACTGCCCCT CCGCCAGCGG GCGTCAACCC CGACTTGGAG
GAGCCACCTC TAAAGGAAGA AGACGAAGTG CCTGACGATG AGACGGTGAA CCAGATGATT
GCCCGGCACG AGGAGGAGTT CGACCTGTTC ATGCGCATGG ACCTGGACCG CAGGCGCGAG
GAGGCCCGCA ACCCCAAGCG GAAGCCACGC CTGATGGAGG AGGATGAGCT CCCCTCGTGG
ATCATCAAGG ACGACGCAGA GGTGGAGCGG CTGACCTGCG AGGAGGAGGA GGAGAAGATG
TTCGGCCGCG GCTCCCGCCA CCGCAAGGAG GTGGACTACA GCGACTCGCT GACCGAGAAG
CAGTGGCTCA AGACCCTGAA GGCCATCGAG GAGGGCACGC TGGAGGAGAT CGAAGAGGAG
GTCCGGCAGA AGAAATCGTC GCGGAAGCGC AAGCGGGACA GCGATGCCGG CCCCTCCACC
CCGACCACCA GCACCCGCAG CCGCGACAAG GACGACGAGA GCAAGAAGCA GAAGAAGCGT
GGCCGGCCGC CTGCCGAGAA GCTCTCCCCC AACCCGCCCA ACCTCACCAA GAAGATGAAG
AAGATCGTGG ACGCTGTGAT CAAGTACAAG GACAGTAGTG GACGTCAGCT CAGCGAGGTG
TTCATCCAGC TGCCGTCCCG CAAGGAGCTG CCCGAGTACT ATGAGCTCAT CCGCAAGCCT
GTGGACTTCA AGAAGATAAA GGAGCGCATC CGCAGCCACA AGTACCGCAG CCTCAACGAC
CTAGAGAAGG ACGTGATGCT GCTGTGCCAG AACGCACAGA CCTTCAACCT GGAGGGCTCC
CTGATCTACG AAGACTCCAT CGTCCTGCAG TCGGTCTTCA CCAGCGTGCG GCAGAAAATC
GAGAAGGAGG AAGACAGTGA AGGGGAGGAG AGCGAGGAGG AAGAGGAGGG CGAGGAGGAA
GGCTCGGAGT CGGAGTCTCG CTCGGTCAAA GTGAAGATCA AGCTTGGCCG GAAGGAGAAG
GCCCAGGACC GGCTCAAGGG CGGCCGGCGG CGGCCGAGCC GCGGGTCCAG GGCCAAGCCG
GTGGTGAGCG ACGACGACAG CGAGGAGGAG CAGGAGGAGG ACCGCTCAGG AAGTGGCAGC
GAGGAAGACT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh303237 Clone ID Related Accession (Same CDS sequence) XM_024133989.1 Accession Version XM_024133989.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
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 1519228800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873602.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 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
3301
3361ATGCGGAGGC TCATGGCCGA GGACGAGGAA GGGTACCGCA AGCTCATTGA CCAGAAGAAG
GACAAGCGCC TGGCCTACCT CCTGCAGCAG ACGGACGAGT ACGTGGCTAA CCTCACGGAG
CTGGTGCGGC AGCACAAGGC CGCCCAGGTC GCCAAGGAGA AGAAGAAGAA GAAGAAGAAG
AAGAAGGCAG AAAACGCTGA AGGACAGACA CCTGCGATCG GACCCGATGG CGAGCCTCTG
GATGAGACCA GCCAAATGAG CGACCTTCCG GTGAAAGTGA TCCACGTGGA GAGTGGGAAG
ATCCTCACGG GCACAGACGC ACCCAAAGCA GGGCAGCTGG AGGCCTGGCT GGAAATGAAC
CCAGGGTATG AAGTAGCTCC AAGATCTGAT AGTGAAGAGA GTGGCTCAGA AGAAGAGGAT
GAGGAGGAGG AAGAGGAGCA GCCGCAGCCA GCACAGCCTC CCGCCCTGCC CGTGGAGGAG
AAGAAGAAGA TTCCAGATCC AGACAGCGAC GACGTCTCCG AGGTGGACGC CCGGCACATC
ATTGAGAACG CCAAGCAAGA TGTTGATGAC GAGTATGGCG TGTCGCAGGC TCTCGCTCGT
GGCCTGCAGT CCTATTATGC CGTGGCCCAC GCCGTCACCG AGAGGGTGGA GAAGCAGTCA
GCGCTCATGG TCAACGGCGT TCTCAAGCAG TACCAGATCA AAGGCTTAGA GTGGCTGGTG
TCCCTATACA ACAACAACCT GAATGGCATC CTGGCTGATG AGATGGGCCT GGGGAAGACC
ATCCAGACCA TCGCTCTCAT CACGTACCTC ATGGAGCACA AGCGGATCAA CGGACCCTTC
CTCATCATAG TACCTCTCTC AACGCTGTCC AACTGGGCAT ACGAATTTGA CAAGTGGGCC
CCCTCGGTGG TGAAGGTGTC CTACAAGGGC TCTCCAGCAG CCAGACGTGC TTTCGTCCCC
CAGCTCCGGA GCGGCAAGTT CAACGTCTTG CTGACGACGT ACGAGTACAT CATTAAAGAC
AAGCACATCC TTGCAAAGAT CCGTTGGAAG TACATGATCG TGGACGAAGG CCACCGCATG
AAGAACCACC ACTGCAAGCT GACGCAGGTC CTCAACACGC ACTACGTGGC GCCCCGCCGC
CTGCTGCTGA CGGGCACGCC GCTGCAGAAC AAGCTCCCTG AGCTCTGGGC GCTCCTCAAC
TTCCTGCTGC CCACCATCTT CAAGAGCTGC AGCACCTTTG AGCAGTGGTT CAACGCGCCC
TTTGCCATGA CCGGGGAAAA GGTGGACCTG AACGAGGAGG AAACCATTCT CATCATCCGT
CGTCTCCACA AAGTGCTGCG GCCCTTCCTG CTCCGGCGGC TCAAGAAGGA AGTCGAGGCT
CAGTTACCTG AAAAGGTGGA GTACGTCATC AAGTGCGACA TGTCCGCGCT GCAGCGCGTG
CTTTACCGGC ACATGCAGGC CAAGGGGGTG CTGCTCACCG ATGGCTCTGA GAAGGATAAG
AAGGGCAAAG GTGGCACCAA GACCCTGATG AACACCATCA TGCAGCTGAG GAAGATCTGC
AACCACCCGT ACATGTTCCA GCACATCGAG GAGTCCTTTT CCGAGCACTT GGGGTTTACC
GGTGGCATCG TCCAAGGGCT GGACCTGTAC CGAGCCTCGG GGAAGTTTGA GCTGCTCGAT
AGAATTCTTC CCAAACTCCG GGCCACCAAC CATAAAGTGC TGCTGTTCTG TCAGATGACC
TCCCTCATGA CGATCATGGA AGACTATTTT GCGTATCGCG GCTTTAAATA CCTCAGGCTC
GATGGAACCA CGAAAGCGGA GGACCGGGGC ATGCTGCTGA AGACCTTCAA CGAGCCCGGC
TCCGAGTACT TCATCTTCCT GCTCAGCACC CGGGCTGGGG GGCTGGGTCT GAACCTCCAG
TCAGCCGACA CTGTGATCAT ATTTGACAGT GACTGGAACC CCCACCAGGA CCTGCAAGCG
CAGGACCGTG CCCACCGCAT CGGGCAGCAG AACGAGGTGC GTGTGCTCCG CCTCTGCACG
GTCAACAGCG TGGAAGAGAA GATCCTGGCT GCGGCCAAGT ACAAGCTCAA CGTCGACCAG
AAGGTGATCC AGGCCGGCAT GTTCGACCAG AAGTCCTCCA GCCATGAGAG GCGCGCTTTC
CTCCAGGCCA TCCTCGAGCA CGAGGAGCAG GACGAGAGCA GACACTGCAG CACGGGCAGC
GGCAGTGCCA GCTTCGCCCA CACTGCCCCT CCGCCAGCGG GCGTCAACCC CGACTTGGAG
GAGCCACCTC TAAAGGAAGA AGACGAAGTG CCTGACGATG AGACGGTGAA CCAGATGATT
GCCCGGCACG AGGAGGAGTT CGACCTGTTC ATGCGCATGG ACCTGGACCG CAGGCGCGAG
GAGGCCCGCA ACCCCAAGCG GAAGCCACGC CTGATGGAGG AGGATGAGCT CCCCTCGTGG
ATCATCAAGG ACGACGCAGA GGTGGAGCGG CTGACCTGCG AGGAGGAGGA GGAGAAGATG
TTCGGCCGCG GCTCCCGCCA CCGCAAGGAG GTGGACTACA GCGACTCGCT GACCGAGAAG
CAGTGGCTCA AGGCCATCGA GGAGGGCACG CTGGAGGAGA TCGAAGAGGA GGTCCGGCAG
AAGAAATCGT CGCGGAAGCG CAAGCGGGAC AGCGATGCCG GCCCCTCCAC CCCGACCACC
AGCACCCGCA GCCGCGACAA GGACGACGAG AGCAAGAAGC AGAAGAAGCG TGGCCGGCCG
CCTGCCGAGA AGCTCTCCCC CAACCCGCCC AACCTCACCA AGAAGATGAA GAAGATCGTG
GACGCTGTGA TCAAGTACAA GGACAGTAGT AGTGGACGTC AGCTCAGCGA GGTGTTCATC
CAGCTGCCGT CCCGCAAGGA GCTGCCCGAG TACTATGAGC TCATCCGCAA GCCTGTGGAC
TTCAAGAAGA TAAAGGAGCG CATCCGCAGC CACAAGTACC GCAGCCTCAA CGACCTAGAG
AAGGACGTGA TGCTGCTGTG CCAGAACGCA CAGACCTTCA ACCTGGAGGG CTCCCTGATC
TACGAAGACT CCATCGTCCT GCAGTCGGTC TTCACCAGCG TGCGGCAGAA AATCGAGAAG
GAGGAAGACA GTGAAGGGGA GGAGAGCGAG GAGGAAGAGG AGGGCGAGGA GGAAGGCTCG
GAGTCGGAGT CTCGCTCGGT CAAAGTGAAG ATCAAGCTTG GCCGGAAGGA GAAGGCCCAG
GACCGGCTCA AGGGCGGCCG GCGGCGGCCG AGCCGCGGGT CCAGGGCCAA GCCGGTGGTG
AGCGACGACG ACAGCGAGGA GGAGCAGGAG GAGGACCGCT CAGGAAGTGG CAGCGAGGAA
GACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023989757.1 CDS 142..3507 Translation
Target ORF information:
RefSeq Version XM_024133989.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024133989.1
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
3361ATGCGGAGGC TCATGGCCGA GGACGAGGAA GGGTACCGCA AGCTCATTGA CCAGAAGAAG
GACAAGCGCC TGGCCTACCT CCTGCAGCAG ACGGACGAGT ACGTGGCTAA CCTCACGGAG
CTGGTGCGGC AGCACAAGGC CGCCCAGGTC GCCAAGGAGA AGAAGAAGAA GAAGAAGAAG
AAGAAGGCAG AAAACGCTGA AGGACAGACA CCTGCGATCG GACCCGATGG CGAGCCTCTG
GATGAGACCA GCCAAATGAG CGACCTTCCG GTGAAAGTGA TCCACGTGGA GAGTGGGAAG
ATCCTCACGG GCACAGACGC ACCCAAAGCA GGGCAGCTGG AGGCCTGGCT GGAAATGAAC
CCAGGGTATG AAGTAGCTCC AAGATCTGAT AGTGAAGAGA GTGGCTCAGA AGAAGAGGAT
GAGGAGGAGG AAGAGGAGCA GCCGCAGCCA GCACAGCCTC CCGCCCTGCC CGTGGAGGAG
AAGAAGAAGA TTCCAGATCC AGACAGCGAC GACGTCTCCG AGGTGGACGC CCGGCACATC
ATTGAGAACG CCAAGCAAGA TGTTGATGAC GAGTATGGCG TGTCGCAGGC TCTCGCTCGT
GGCCTGCAGT CCTATTATGC CGTGGCCCAC GCCGTCACCG AGAGGGTGGA GAAGCAGTCA
GCGCTCATGG TCAACGGCGT TCTCAAGCAG TACCAGATCA AAGGCTTAGA GTGGCTGGTG
TCCCTATACA ACAACAACCT GAATGGCATC CTGGCTGATG AGATGGGCCT GGGGAAGACC
ATCCAGACCA TCGCTCTCAT CACGTACCTC ATGGAGCACA AGCGGATCAA CGGACCCTTC
CTCATCATAG TACCTCTCTC AACGCTGTCC AACTGGGCAT ACGAATTTGA CAAGTGGGCC
CCCTCGGTGG TGAAGGTGTC CTACAAGGGC TCTCCAGCAG CCAGACGTGC TTTCGTCCCC
CAGCTCCGGA GCGGCAAGTT CAACGTCTTG CTGACGACGT ACGAGTACAT CATTAAAGAC
AAGCACATCC TTGCAAAGAT CCGTTGGAAG TACATGATCG TGGACGAAGG CCACCGCATG
AAGAACCACC ACTGCAAGCT GACGCAGGTC CTCAACACGC ACTACGTGGC GCCCCGCCGC
CTGCTGCTGA CGGGCACGCC GCTGCAGAAC AAGCTCCCTG AGCTCTGGGC GCTCCTCAAC
TTCCTGCTGC CCACCATCTT CAAGAGCTGC AGCACCTTTG AGCAGTGGTT CAACGCGCCC
TTTGCCATGA CCGGGGAAAA GGTGGACCTG AACGAGGAGG AAACCATTCT CATCATCCGT
CGTCTCCACA AAGTGCTGCG GCCCTTCCTG CTCCGGCGGC TCAAGAAGGA AGTCGAGGCT
CAGTTACCTG AAAAGGTGGA GTACGTCATC AAGTGCGACA TGTCCGCGCT GCAGCGCGTG
CTTTACCGGC ACATGCAGGC CAAGGGGGTG CTGCTCACCG ATGGCTCTGA GAAGGATAAG
AAGGGCAAAG GTGGCACCAA GACCCTGATG AACACCATCA TGCAGCTGAG GAAGATCTGC
AACCACCCGT ACATGTTCCA GCACATCGAG GAGTCCTTTT CCGAGCACTT GGGGTTTACC
GGTGGCATCG TCCAAGGGCT GGACCTGTAC CGAGCCTCGG GGAAGTTTGA GCTGCTCGAT
AGAATTCTTC CCAAACTCCG GGCCACCAAC CATAAAGTGC TGCTGTTCTG TCAGATGACC
TCCCTCATGA CGATCATGGA AGACTATTTT GCGTATCGCG GCTTTAAATA CCTCAGGCTC
GATGGAACCA CGAAAGCGGA GGACCGGGGC ATGCTGCTGA AGACCTTCAA CGAGCCCGGC
TCCGAGTACT TCATCTTCCT GCTCAGCACC CGGGCTGGGG GGCTGGGTCT GAACCTCCAG
TCAGCCGACA CTGTGATCAT ATTTGACAGT GACTGGAACC CCCACCAGGA CCTGCAAGCG
CAGGACCGTG CCCACCGCAT CGGGCAGCAG AACGAGGTGC GTGTGCTCCG CCTCTGCACG
GTCAACAGCG TGGAAGAGAA GATCCTGGCT GCGGCCAAGT ACAAGCTCAA CGTCGACCAG
AAGGTGATCC AGGCCGGCAT GTTCGACCAG AAGTCCTCCA GCCATGAGAG GCGCGCTTTC
CTCCAGGCCA TCCTCGAGCA CGAGGAGCAG GACGAGAGCA GACACTGCAG CACGGGCAGC
GGCAGTGCCA GCTTCGCCCA CACTGCCCCT CCGCCAGCGG GCGTCAACCC CGACTTGGAG
GAGCCACCTC TAAAGGAAGA AGACGAAGTG CCTGACGATG AGACGGTGAA CCAGATGATT
GCCCGGCACG AGGAGGAGTT CGACCTGTTC ATGCGCATGG ACCTGGACCG CAGGCGCGAG
GAGGCCCGCA ACCCCAAGCG GAAGCCACGC CTGATGGAGG AGGATGAGCT CCCCTCGTGG
ATCATCAAGG ACGACGCAGA GGTGGAGCGG CTGACCTGCG AGGAGGAGGA GGAGAAGATG
TTCGGCCGCG GCTCCCGCCA CCGCAAGGAG GTGGACTACA GCGACTCGCT GACCGAGAAG
CAGTGGCTCA AGGCCATCGA GGAGGGCACG CTGGAGGAGA TCGAAGAGGA GGTCCGGCAG
AAGAAATCGT CGCGGAAGCG CAAGCGGGAC AGCGATGCCG GCCCCTCCAC CCCGACCACC
AGCACCCGCA GCCGCGACAA GGACGACGAG AGCAAGAAGC AGAAGAAGCG TGGCCGGCCG
CCTGCCGAGA AGCTCTCCCC CAACCCGCCC AACCTCACCA AGAAGATGAA GAAGATCGTG
GACGCTGTGA TCAAGTACAA GGACAGTAGT AGTGGACGTC AGCTCAGCGA GGTGTTCATC
CAGCTGCCGT CCCGCAAGGA GCTGCCCGAG TACTATGAGC TCATCCGCAA GCCTGTGGAC
TTCAAGAAGA TAAAGGAGCG CATCCGCAGC CACAAGTACC GCAGCCTCAA CGACCTAGAG
AAGGACGTGA TGCTGCTGTG CCAGAACGCA CAGACCTTCA ACCTGGAGGG CTCCCTGATC
TACGAAGACT CCATCGTCCT GCAGTCGGTC TTCACCAGCG TGCGGCAGAA AATCGAGAAG
GAGGAAGACA GTGAAGGGGA GGAGAGCGAG GAGGAAGAGG AGGGCGAGGA GGAAGGCTCG
GAGTCGGAGT CTCGCTCGGT CAAAGTGAAG ATCAAGCTTG GCCGGAAGGA GAAGGCCCAG
GACCGGCTCA AGGGCGGCCG GCGGCGGCCG AGCCGCGGGT CCAGGGCCAA GCCGGTGGTG
AGCGACGACG ACAGCGAGGA GGAGCAGGAG GAGGACCGCT CAGGAAGTGG CAGCGAGGAA
GACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh303238 Clone ID Related Accession (Same CDS sequence) XM_024133990.1 Accession Version XM_024133990.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3264bp)
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 1519228800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873602.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 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
3241ATGCGGAGGC TCATGGCCGA GGACGAGGAA GGGTACCGCA AGCTCATTGA CCAGAAGAAG
GACAAGCGCC TGGCCTACCT CCTGCAGCAG ACGGACGAGT ACGTGGCTAA CCTCACGGAG
CTGGTGCGGC AGCACAAGGC CGCCCAGGTC GCCAAGGAGA AGAAGAAGAA GAAGAAGAAG
AAGAAGGCAG AAAACGCTGA AGGACAGACA CCTGCGATCG GACCCGATGG CGAGCCTCTG
GATGAGACCA GCCAAATGAG CGACCTTCCG GTGAAAGTGA TCCACGTGGA GAGTGGGAAG
ATCCTCACGG GCACAGACGC ACCCAAAGCA GGGCAGCTGG AGGCCTGGCT GGAAATGAAC
CCAGGGTATG AAGTAGCTCC AAGATCTGAT AGTGAAGAGA GTGGCTCAGA AGAAGAGGAT
GAGGAGGAGG AAGAGGAGCA GCCGCAGCCA GCACAGCCTC CCGCCCTGCC CGTGGAGGAG
AAGAAGAAGA TTCCAGATCC AGACAGCGAC GACGTCTCCG AGGTGGACGC CCGGCACATC
ATTGAGAACG CCAAGCAAGA TGTTGATGAC GAGTATGGCG TGTCGCAGGC TCTCGCTCGT
GGCCTGCAGT CCTATTATGC CGTGGCCCAC GCCGTCACCG AGAGGGTGGA GAAGCAGTCA
GCGCTCATGG TCAACGGCGT TCTCAAGCAG TACCAGATCA AAGGCTTAGA GTGGCTGGTG
TCCCTATACA ACAACAACCT GAATGGCATC CTGGCTGATG AGATGGGCCT GGGGAAGACC
ATCCAGACCA TCGCTCTCAT CACGTACCTC ATGGAGCACA AGCGGATCAA CGGACCCTTC
CTCATCATAG TACCTCTCTC AACGCTGTCC AACTGGGCAT ACGAATTTGA CAAGTGGGCC
CCCTCGGTGG TGAAGGTGTC CTACAAGGGC TCTCCAGCAG CCAGACGTGC TTTCGTCCCC
CAGCTCCGGA GCGGCAAGTT CAACGTCTTG CTGACGACGT ACGAGTACAT CATTAAAGAC
AAGCACATCC TTGCAAAGAT CCGTTGGAAG TACATGATCG TGGACGAAGG CCACCGCATG
AAGAACCACC ACTGCAAGCT GACGCAGGTC CTCAACACGC ACTACGTGGC GCCCCGCCGC
CTGCTGCTGA CGGGCACGCC GCTGCAGAAC AAGCTCCCTG AGCTCTGGGC GCTCCTCAAC
TTCCTGCTGC CCACCATCTT CAAGAGCTGC AGCACCTTTG AGCAGTGGTT CAACGCGCCC
TTTGCCATGA CCGGGGAAAA GGTGGACCTG AACGAGGAGG AAACCATTCT CATCATCCGT
CGTCTCCACA AAGTGCTGCG GCCCTTCCTG CTCCGGCGGC TCAAGAAGGA AGTCGAGGCT
CAGTTACCTG AAAAGGTGGA GTACGTCATC AAGTGCGACA TGTCCGCGCT GCAGCGCGTG
CTTTACCGGC ACATGCAGGC CAAGGGGGTG CTGCTCACCG ATGGCTCTGA GAAGGATAAG
AAGGGCAAAG GTGGCACCAA GACCCTGATG AACACCATCA TGCAGCTGAG GAAGATCTGC
AACCACCCGT ACATGTTCCA GCACATCGAG GAGTCCTTTT CCGAGCACTT GGGGTTTACC
GGTGGCATCG TCCAAGGGCT GGACCTGTAC CGAGCCTCGG GGAAGTTTGA GCTGCTCGAT
AGAATTCTTC CCAAACTCCG GGCCACCAAC CATAAAGTGC TGCTGTTCTG TCAGATGACC
TCCCTCATGA CGATCATGGA AGACTATTTT GCGTATCGCG GCTTTAAATA CCTCAGGCTC
GATGGAACCA CGAAAGCGGA GGACCGGGGC ATGCTGCTGA AGACCTTCAA CGAGCCCGGC
TCCGAGTACT TCATCTTCCT GCTCAGCACC CGGGCTGGGG GGCTGGGTCT GAACCTCCAG
TCAGCCGACA CTGTGATCAT ATTTGACAGT GACTGGAACC CCCACCAGGA CCTGCAAGCG
CAGGACCGTG CCCACCGCAT CGGGCAGCAG AACGAGGTGC GTGTGCTCCG CCTCTGCACG
GTCAACAGCG TGGAAGAGAA GATCCTGGCT GCGGCCAAGT ACAAGCTCAA CGTCGACCAG
AAGGTGATCC AGGCCGGCAT GTTCGACCAG AAGTCCTCCA GCCATGAGAG GCGCGCTTTC
CTCCAGGCCA TCCTCGAGCA CGAGGAGCAG GACGAGGAAG AAGACGAAGT GCCTGACGAT
GAGACGGTGA ACCAGATGAT TGCCCGGCAC GAGGAGGAGT TCGACCTGTT CATGCGCATG
GACCTGGACC GCAGGCGCGA GGAGGCCCGC AACCCCAAGC GGAAGCCACG CCTGATGGAG
GAGGATGAGC TCCCCTCGTG GATCATCAAG GACGACGCAG AGGTGGAGCG GCTGACCTGC
GAGGAGGAGG AGGAGAAGAT GTTCGGCCGC GGCTCCCGCC ACCGCAAGGA GGTGGACTAC
AGCGACTCGC TGACCGAGAA GCAGTGGCTC AAGGCCATCG AGGAGGGCAC GCTGGAGGAG
ATCGAAGAGG AGGTCCGGCA GAAGAAATCG TCGCGGAAGC GCAAGCGGGA CAGCGATGCC
GGCCCCTCCA CCCCGACCAC CAGCACCCGC AGCCGCGACA AGGACGACGA GAGCAAGAAG
CAGAAGAAGC GTGGCCGGCC GCCTGCCGAG AAGCTCTCCC CCAACCCGCC CAACCTCACC
AAGAAGATGA AGAAGATCGT GGACGCTGTG ATCAAGTACA AGGACAGTAG TGGACGTCAG
CTCAGCGAGG TGTTCATCCA GCTGCCGTCC CGCAAGGAGC TGCCCGAGTA CTATGAGCTC
ATCCGCAAGC CTGTGGACTT CAAGAAGATA AAGGAGCGCA TCCGCAGCCA CAAGTACCGC
AGCCTCAACG ACCTAGAGAA GGACGTGATG CTGCTGTGCC AGAACGCACA GACCTTCAAC
CTGGAGGGCT CCCTGATCTA CGAAGACTCC ATCGTCCTGC AGTCGGTCTT CACCAGCGTG
CGGCAGAAAA TCGAGAAGGA GGAAGACAGT GAAGGGGAGG AGAGCGAGGA GGAAGAGGAG
GGCGAGGAGG AAGGCTCGGA GTCGGAGTCT CGCTCGGTCA AAGTGAAGAT CAAGCTTGGC
CGGAAGGAGA AGGCCCAGGA CCGGCTCAAG GGCGGCCGGC GGCGGCCGAG CCGCGGGTCC
AGGGCCAAGC CGGTGGTGAG CGACGACGAC AGCGAGGAGG AGCAGGAGGA GGACCGCTCA
GGAAGTGGCA GCGAGGAAGA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023989758.1 CDS 142..3405 Translation
Target ORF information:
RefSeq Version XM_024133990.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024133990.1
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
3241ATGCGGAGGC TCATGGCCGA GGACGAGGAA GGGTACCGCA AGCTCATTGA CCAGAAGAAG
GACAAGCGCC TGGCCTACCT CCTGCAGCAG ACGGACGAGT ACGTGGCTAA CCTCACGGAG
CTGGTGCGGC AGCACAAGGC CGCCCAGGTC GCCAAGGAGA AGAAGAAGAA GAAGAAGAAG
AAGAAGGCAG AAAACGCTGA AGGACAGACA CCTGCGATCG GACCCGATGG CGAGCCTCTG
GATGAGACCA GCCAAATGAG CGACCTTCCG GTGAAAGTGA TCCACGTGGA GAGTGGGAAG
ATCCTCACGG GCACAGACGC ACCCAAAGCA GGGCAGCTGG AGGCCTGGCT GGAAATGAAC
CCAGGGTATG AAGTAGCTCC AAGATCTGAT AGTGAAGAGA GTGGCTCAGA AGAAGAGGAT
GAGGAGGAGG AAGAGGAGCA GCCGCAGCCA GCACAGCCTC CCGCCCTGCC CGTGGAGGAG
AAGAAGAAGA TTCCAGATCC AGACAGCGAC GACGTCTCCG AGGTGGACGC CCGGCACATC
ATTGAGAACG CCAAGCAAGA TGTTGATGAC GAGTATGGCG TGTCGCAGGC TCTCGCTCGT
GGCCTGCAGT CCTATTATGC CGTGGCCCAC GCCGTCACCG AGAGGGTGGA GAAGCAGTCA
GCGCTCATGG TCAACGGCGT TCTCAAGCAG TACCAGATCA AAGGCTTAGA GTGGCTGGTG
TCCCTATACA ACAACAACCT GAATGGCATC CTGGCTGATG AGATGGGCCT GGGGAAGACC
ATCCAGACCA TCGCTCTCAT CACGTACCTC ATGGAGCACA AGCGGATCAA CGGACCCTTC
CTCATCATAG TACCTCTCTC AACGCTGTCC AACTGGGCAT ACGAATTTGA CAAGTGGGCC
CCCTCGGTGG TGAAGGTGTC CTACAAGGGC TCTCCAGCAG CCAGACGTGC TTTCGTCCCC
CAGCTCCGGA GCGGCAAGTT CAACGTCTTG CTGACGACGT ACGAGTACAT CATTAAAGAC
AAGCACATCC TTGCAAAGAT CCGTTGGAAG TACATGATCG TGGACGAAGG CCACCGCATG
AAGAACCACC ACTGCAAGCT GACGCAGGTC CTCAACACGC ACTACGTGGC GCCCCGCCGC
CTGCTGCTGA CGGGCACGCC GCTGCAGAAC AAGCTCCCTG AGCTCTGGGC GCTCCTCAAC
TTCCTGCTGC CCACCATCTT CAAGAGCTGC AGCACCTTTG AGCAGTGGTT CAACGCGCCC
TTTGCCATGA CCGGGGAAAA GGTGGACCTG AACGAGGAGG AAACCATTCT CATCATCCGT
CGTCTCCACA AAGTGCTGCG GCCCTTCCTG CTCCGGCGGC TCAAGAAGGA AGTCGAGGCT
CAGTTACCTG AAAAGGTGGA GTACGTCATC AAGTGCGACA TGTCCGCGCT GCAGCGCGTG
CTTTACCGGC ACATGCAGGC CAAGGGGGTG CTGCTCACCG ATGGCTCTGA GAAGGATAAG
AAGGGCAAAG GTGGCACCAA GACCCTGATG AACACCATCA TGCAGCTGAG GAAGATCTGC
AACCACCCGT ACATGTTCCA GCACATCGAG GAGTCCTTTT CCGAGCACTT GGGGTTTACC
GGTGGCATCG TCCAAGGGCT GGACCTGTAC CGAGCCTCGG GGAAGTTTGA GCTGCTCGAT
AGAATTCTTC CCAAACTCCG GGCCACCAAC CATAAAGTGC TGCTGTTCTG TCAGATGACC
TCCCTCATGA CGATCATGGA AGACTATTTT GCGTATCGCG GCTTTAAATA CCTCAGGCTC
GATGGAACCA CGAAAGCGGA GGACCGGGGC ATGCTGCTGA AGACCTTCAA CGAGCCCGGC
TCCGAGTACT TCATCTTCCT GCTCAGCACC CGGGCTGGGG GGCTGGGTCT GAACCTCCAG
TCAGCCGACA CTGTGATCAT ATTTGACAGT GACTGGAACC CCCACCAGGA CCTGCAAGCG
CAGGACCGTG CCCACCGCAT CGGGCAGCAG AACGAGGTGC GTGTGCTCCG CCTCTGCACG
GTCAACAGCG TGGAAGAGAA GATCCTGGCT GCGGCCAAGT ACAAGCTCAA CGTCGACCAG
AAGGTGATCC AGGCCGGCAT GTTCGACCAG AAGTCCTCCA GCCATGAGAG GCGCGCTTTC
CTCCAGGCCA TCCTCGAGCA CGAGGAGCAG GACGAGGAAG AAGACGAAGT GCCTGACGAT
GAGACGGTGA ACCAGATGAT TGCCCGGCAC GAGGAGGAGT TCGACCTGTT CATGCGCATG
GACCTGGACC GCAGGCGCGA GGAGGCCCGC AACCCCAAGC GGAAGCCACG CCTGATGGAG
GAGGATGAGC TCCCCTCGTG GATCATCAAG GACGACGCAG AGGTGGAGCG GCTGACCTGC
GAGGAGGAGG AGGAGAAGAT GTTCGGCCGC GGCTCCCGCC ACCGCAAGGA GGTGGACTAC
AGCGACTCGC TGACCGAGAA GCAGTGGCTC AAGGCCATCG AGGAGGGCAC GCTGGAGGAG
ATCGAAGAGG AGGTCCGGCA GAAGAAATCG TCGCGGAAGC GCAAGCGGGA CAGCGATGCC
GGCCCCTCCA CCCCGACCAC CAGCACCCGC AGCCGCGACA AGGACGACGA GAGCAAGAAG
CAGAAGAAGC GTGGCCGGCC GCCTGCCGAG AAGCTCTCCC CCAACCCGCC CAACCTCACC
AAGAAGATGA AGAAGATCGT GGACGCTGTG ATCAAGTACA AGGACAGTAG TGGACGTCAG
CTCAGCGAGG TGTTCATCCA GCTGCCGTCC CGCAAGGAGC TGCCCGAGTA CTATGAGCTC
ATCCGCAAGC CTGTGGACTT CAAGAAGATA AAGGAGCGCA TCCGCAGCCA CAAGTACCGC
AGCCTCAACG ACCTAGAGAA GGACGTGATG CTGCTGTGCC AGAACGCACA GACCTTCAAC
CTGGAGGGCT CCCTGATCTA CGAAGACTCC ATCGTCCTGC AGTCGGTCTT CACCAGCGTG
CGGCAGAAAA TCGAGAAGGA GGAAGACAGT GAAGGGGAGG AGAGCGAGGA GGAAGAGGAG
GGCGAGGAGG AAGGCTCGGA GTCGGAGTCT CGCTCGGTCA AAGTGAAGAT CAAGCTTGGC
CGGAAGGAGA AGGCCCAGGA CCGGCTCAAG GGCGGCCGGC GGCGGCCGAG CCGCGGGTCC
AGGGCCAAGC CGGTGGTGAG CGACGACGAC AGCGAGGAGG AGCAGGAGGA GGACCGCTCA
GGAAGTGGCA GCGAGGAAGA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh116160 Clone ID Related Accession (Same CDS sequence) XM_007106679.1 Accession Version XM_007106679.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4944bp)
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 1394380800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006713417.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGAG CAGACACTGC
AGCACGGGCA GCGGCAGTGC CAGCTTCGCC CACACTGCCC CTCCGCCAGC GGGCGTCAAC
CCCGACTTGG AGGAGCCACC TCTAAAGGAA GAAGACGAAG TGCCTGACGA TGAGACGGTG
AACCAGATGA TTGCCCGGCA CGAGGAGGAG TTCGACCTGT TCATGCGCAT GGACCTGGAC
CGCAGGCGCG AGGAGGCCCG CAACCCCAAG CGGAAGCCAC GCCTGATGGA GGAGGATGAG
CTCCCCTCGT GGATCATCAA GGACGACGCA GAGGTGGAGC GGCTGACCTG CGAGGAGGAG
GAGGAGAAGA TGTTCGGCCG CGGCTCCCGC CACCGCAAGG AGGTGGACTA CAGCGACTCG
CTGACCGAGA AGCAGTGGCT CAAGACCCTG AAGGCCATCG AGGAGGGCAC GCTGGAGGAG
ATCGAAGAGG AGGTCCGGCA GAAGAAATCG TCGCGGAAGC GCAAGCGGGA CAGCGATGCC
GGCCCCTCCA CCCCGACCAC CAGCACCCGC AGCCGCGACA AGGACGACGA GAGCAAGAAG
CAGAAGAAGC GTGGCCGGCC GCCTGCCGAG AAGCTCTCCC CCAACCCGCC CAACCTCACC
AAGAAGATGA AGAAGATCGT GGACGCTGTG ATCAAGTACA AGGACAGTAG TGGACGTCAG
CTCAGCGAGG TGTTCATCCA GCTGCCGTCC CGCAAGGAGC TGCCCGAGTA CTATGAGCTC
ATCCGCAAGC CTGTGGACTT CAAGAAGATA AAGGAGCGCA TCCGCAGCCA CAAGTACCGC
AGCCTCAACG ACCTAGAGAA GGACGTGATG CTGCTGTGCC AGAACGCACA GACCTTCAAC
CTGGAGGGCT CCCTGATCTA CGAAGACTCC ATCGTCCTGC AGTCGGTCTT CACCAGCGTG
CGGCAGAAAA TCGAGAAGGA GGAAGACAGT GAAGGGGAGG AGAGCGAGGA GGAAGAGGAG
GGCGAGGAGG AAGGCTCGGA GTCGGAGTCT CGCTCGGTCA AAGTGAAGAT CAAGCTTGGC
CGGAAGGAGA AGGCCCAGGA CCGGCTCAAG GGCGGCCGGC GGCGGCCGAG CCGCGGGTCC
AGGGCCAAGC CGGTGGTGAG CGACGACGAC AGCGAGGAGG AGCAGGAGGA GGACCGCTCA
GGAAGTGGCA GCGAGGAAGA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007106741.1 CDS 31..4974 Translation
Target ORF information:
RefSeq Version XM_007106679.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007106679.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGAG CAGACACTGC
AGCACGGGCA GCGGCAGTGC CAGCTTCGCC CACACTGCCC CTCCGCCAGC GGGCGTCAAC
CCCGACTTGG AGGAGCCACC TCTAAAGGAA GAAGACGAAG TGCCTGACGA TGAGACGGTG
AACCAGATGA TTGCCCGGCA CGAGGAGGAG TTCGACCTGT TCATGCGCAT GGACCTGGAC
CGCAGGCGCG AGGAGGCCCG CAACCCCAAG CGGAAGCCAC GCCTGATGGA GGAGGATGAG
CTCCCCTCGT GGATCATCAA GGACGACGCA GAGGTGGAGC GGCTGACCTG CGAGGAGGAG
GAGGAGAAGA TGTTCGGCCG CGGCTCCCGC CACCGCAAGG AGGTGGACTA CAGCGACTCG
CTGACCGAGA AGCAGTGGCT CAAGACCCTG AAGGCCATCG AGGAGGGCAC GCTGGAGGAG
ATCGAAGAGG AGGTCCGGCA GAAGAAATCG TCGCGGAAGC GCAAGCGGGA CAGCGATGCC
GGCCCCTCCA CCCCGACCAC CAGCACCCGC AGCCGCGACA AGGACGACGA GAGCAAGAAG
CAGAAGAAGC GTGGCCGGCC GCCTGCCGAG AAGCTCTCCC CCAACCCGCC CAACCTCACC
AAGAAGATGA AGAAGATCGT GGACGCTGTG ATCAAGTACA AGGACAGTAG TGGACGTCAG
CTCAGCGAGG TGTTCATCCA GCTGCCGTCC CGCAAGGAGC TGCCCGAGTA CTATGAGCTC
ATCCGCAAGC CTGTGGACTT CAAGAAGATA AAGGAGCGCA TCCGCAGCCA CAAGTACCGC
AGCCTCAACG ACCTAGAGAA GGACGTGATG CTGCTGTGCC AGAACGCACA GACCTTCAAC
CTGGAGGGCT CCCTGATCTA CGAAGACTCC ATCGTCCTGC AGTCGGTCTT CACCAGCGTG
CGGCAGAAAA TCGAGAAGGA GGAAGACAGT GAAGGGGAGG AGAGCGAGGA GGAAGAGGAG
GGCGAGGAGG AAGGCTCGGA GTCGGAGTCT CGCTCGGTCA AAGTGAAGAT CAAGCTTGGC
CGGAAGGAGA AGGCCCAGGA CCGGCTCAAG GGCGGCCGGC GGCGGCCGAG CCGCGGGTCC
AGGGCCAAGC CGGTGGTGAG CGACGACGAC AGCGAGGAGG AGCAGGAGGA GGACCGCTCA
GGAAGTGGCA GCGAGGAAGA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh116161 Clone ID Related Accession (Same CDS sequence) XM_007106680.1 Accession Version XM_007106680.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4938bp)
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 1394380800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006713417.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGAG CAGACACTGC
AGCACGGGCA GCGGCAGTGC CAGCTTCGCC CACACTGCCC CTCCGCCAGC GGGCGTCAAC
CCCGACTTGG AGGAGCCACC TCTAAAGGAA GAAGACGAAG TGCCTGACGA TGAGACGGTG
AACCAGATGA TTGCCCGGCA CGAGGAGGAG TTCGACCTGT TCATGCGCAT GGACCTGGAC
CGCAGGCGCG AGGAGGCCCG CAACCCCAAG CGGAAGCCAC GCCTGATGGA GGAGGATGAG
CTCCCCTCGT GGATCATCAA GGACGACGCA GAGGTGGAGC GGCTGACCTG CGAGGAGGAG
GAGGAGAAGA TGTTCGGCCG CGGCTCCCGC CACCGCAAGG AGGTGGACTA CAGCGACTCG
CTGACCGAGA AGCAGTGGCT CAAGGCCATC GAGGAGGGCA CGCTGGAGGA GATCGAAGAG
GAGGTCCGGC AGAAGAAATC GTCGCGGAAG CGCAAGCGGG ACAGCGATGC CGGCCCCTCC
ACCCCGACCA CCAGCACCCG CAGCCGCGAC AAGGACGACG AGAGCAAGAA GCAGAAGAAG
CGTGGCCGGC CGCCTGCCGA GAAGCTCTCC CCCAACCCGC CCAACCTCAC CAAGAAGATG
AAGAAGATCG TGGACGCTGT GATCAAGTAC AAGGACAGTA GTAGTGGACG TCAGCTCAGC
GAGGTGTTCA TCCAGCTGCC GTCCCGCAAG GAGCTGCCCG AGTACTATGA GCTCATCCGC
AAGCCTGTGG ACTTCAAGAA GATAAAGGAG CGCATCCGCA GCCACAAGTA CCGCAGCCTC
AACGACCTAG AGAAGGACGT GATGCTGCTG TGCCAGAACG CACAGACCTT CAACCTGGAG
GGCTCCCTGA TCTACGAAGA CTCCATCGTC CTGCAGTCGG TCTTCACCAG CGTGCGGCAG
AAAATCGAGA AGGAGGAAGA CAGTGAAGGG GAGGAGAGCG AGGAGGAAGA GGAGGGCGAG
GAGGAAGGCT CGGAGTCGGA GTCTCGCTCG GTCAAAGTGA AGATCAAGCT TGGCCGGAAG
GAGAAGGCCC AGGACCGGCT CAAGGGCGGC CGGCGGCGGC CGAGCCGCGG GTCCAGGGCC
AAGCCGGTGG TGAGCGACGA CGACAGCGAG GAGGAGCAGG AGGAGGACCG CTCAGGAAGT
GGCAGCGAGG AAGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007106742.1 CDS 31..4968 Translation
Target ORF information:
RefSeq Version XM_007106680.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007106680.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGAG CAGACACTGC
AGCACGGGCA GCGGCAGTGC CAGCTTCGCC CACACTGCCC CTCCGCCAGC GGGCGTCAAC
CCCGACTTGG AGGAGCCACC TCTAAAGGAA GAAGACGAAG TGCCTGACGA TGAGACGGTG
AACCAGATGA TTGCCCGGCA CGAGGAGGAG TTCGACCTGT TCATGCGCAT GGACCTGGAC
CGCAGGCGCG AGGAGGCCCG CAACCCCAAG CGGAAGCCAC GCCTGATGGA GGAGGATGAG
CTCCCCTCGT GGATCATCAA GGACGACGCA GAGGTGGAGC GGCTGACCTG CGAGGAGGAG
GAGGAGAAGA TGTTCGGCCG CGGCTCCCGC CACCGCAAGG AGGTGGACTA CAGCGACTCG
CTGACCGAGA AGCAGTGGCT CAAGGCCATC GAGGAGGGCA CGCTGGAGGA GATCGAAGAG
GAGGTCCGGC AGAAGAAATC GTCGCGGAAG CGCAAGCGGG ACAGCGATGC CGGCCCCTCC
ACCCCGACCA CCAGCACCCG CAGCCGCGAC AAGGACGACG AGAGCAAGAA GCAGAAGAAG
CGTGGCCGGC CGCCTGCCGA GAAGCTCTCC CCCAACCCGC CCAACCTCAC CAAGAAGATG
AAGAAGATCG TGGACGCTGT GATCAAGTAC AAGGACAGTA GTAGTGGACG TCAGCTCAGC
GAGGTGTTCA TCCAGCTGCC GTCCCGCAAG GAGCTGCCCG AGTACTATGA GCTCATCCGC
AAGCCTGTGG ACTTCAAGAA GATAAAGGAG CGCATCCGCA GCCACAAGTA CCGCAGCCTC
AACGACCTAG AGAAGGACGT GATGCTGCTG TGCCAGAACG CACAGACCTT CAACCTGGAG
GGCTCCCTGA TCTACGAAGA CTCCATCGTC CTGCAGTCGG TCTTCACCAG CGTGCGGCAG
AAAATCGAGA AGGAGGAAGA CAGTGAAGGG GAGGAGAGCG AGGAGGAAGA GGAGGGCGAG
GAGGAAGGCT CGGAGTCGGA GTCTCGCTCG GTCAAAGTGA AGATCAAGCT TGGCCGGAAG
GAGAAGGCCC AGGACCGGCT CAAGGGCGGC CGGCGGCGGC CGAGCCGCGG GTCCAGGGCC
AAGCCGGTGG TGAGCGACGA CGACAGCGAG GAGGAGCAGG AGGAGGACCG CTCAGGAAGT
GGCAGCGAGG AAGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh116162 Clone ID Related Accession (Same CDS sequence) XM_007106681.1 Accession Version XM_007106681.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4839bp)
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 1394380800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006713417.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGGA AGAAGACGAA
GTGCCTGACG ATGAGACGGT GAACCAGATG ATTGCCCGGC ACGAGGAGGA GTTCGACCTG
TTCATGCGCA TGGACCTGGA CCGCAGGCGC GAGGAGGCCC GCAACCCCAA GCGGAAGCCA
CGCCTGATGG AGGAGGATGA GCTCCCCTCG TGGATCATCA AGGACGACGC AGAGGTGGAG
CGGCTGACCT GCGAGGAGGA GGAGGAGAAG ATGTTCGGCC GCGGCTCCCG CCACCGCAAG
GAGGTGGACT ACAGCGACTC GCTGACCGAG AAGCAGTGGC TCAAGGCCAT CGAGGAGGGC
ACGCTGGAGG AGATCGAAGA GGAGGTCCGG CAGAAGAAAT CGTCGCGGAA GCGCAAGCGG
GACAGCGATG CCGGCCCCTC CACCCCGACC ACCAGCACCC GCAGCCGCGA CAAGGACGAC
GAGAGCAAGA AGCAGAAGAA GCGTGGCCGG CCGCCTGCCG AGAAGCTCTC CCCCAACCCG
CCCAACCTCA CCAAGAAGAT GAAGAAGATC GTGGACGCTG TGATCAAGTA CAAGGACAGT
AGTAGTGGAC GTCAGCTCAG CGAGGTGTTC ATCCAGCTGC CGTCCCGCAA GGAGCTGCCC
GAGTACTATG AGCTCATCCG CAAGCCTGTG GACTTCAAGA AGATAAAGGA GCGCATCCGC
AGCCACAAGT ACCGCAGCCT CAACGACCTA GAGAAGGACG TGATGCTGCT GTGCCAGAAC
GCACAGACCT TCAACCTGGA GGGCTCCCTG ATCTACGAAG ACTCCATCGT CCTGCAGTCG
GTCTTCACCA GCGTGCGGCA GAAAATCGAG AAGGAGGAAG ACAGTGAAGG GGAGGAGAGC
GAGGAGGAAG AGGAGGGCGA GGAGGAAGGC TCGGAGTCGG AGTCTCGCTC GGTCAAAGTG
AAGATCAAGC TTGGCCGGAA GGAGAAGGCC CAGGACCGGC TCAAGGGCGG CCGGCGGCGG
CCGAGCCGCG GGTCCAGGGC CAAGCCGGTG GTGAGCGACG ACGACAGCGA GGAGGAGCAG
GAGGAGGACC GCTCAGGAAG TGGCAGCGAG GAAGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007106743.1 CDS 31..4869 Translation
Target ORF information:
RefSeq Version XM_007106681.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007106681.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGGA AGAAGACGAA
GTGCCTGACG ATGAGACGGT GAACCAGATG ATTGCCCGGC ACGAGGAGGA GTTCGACCTG
TTCATGCGCA TGGACCTGGA CCGCAGGCGC GAGGAGGCCC GCAACCCCAA GCGGAAGCCA
CGCCTGATGG AGGAGGATGA GCTCCCCTCG TGGATCATCA AGGACGACGC AGAGGTGGAG
CGGCTGACCT GCGAGGAGGA GGAGGAGAAG ATGTTCGGCC GCGGCTCCCG CCACCGCAAG
GAGGTGGACT ACAGCGACTC GCTGACCGAG AAGCAGTGGC TCAAGGCCAT CGAGGAGGGC
ACGCTGGAGG AGATCGAAGA GGAGGTCCGG CAGAAGAAAT CGTCGCGGAA GCGCAAGCGG
GACAGCGATG CCGGCCCCTC CACCCCGACC ACCAGCACCC GCAGCCGCGA CAAGGACGAC
GAGAGCAAGA AGCAGAAGAA GCGTGGCCGG CCGCCTGCCG AGAAGCTCTC CCCCAACCCG
CCCAACCTCA CCAAGAAGAT GAAGAAGATC GTGGACGCTG TGATCAAGTA CAAGGACAGT
AGTAGTGGAC GTCAGCTCAG CGAGGTGTTC ATCCAGCTGC CGTCCCGCAA GGAGCTGCCC
GAGTACTATG AGCTCATCCG CAAGCCTGTG GACTTCAAGA AGATAAAGGA GCGCATCCGC
AGCCACAAGT ACCGCAGCCT CAACGACCTA GAGAAGGACG TGATGCTGCT GTGCCAGAAC
GCACAGACCT TCAACCTGGA GGGCTCCCTG ATCTACGAAG ACTCCATCGT CCTGCAGTCG
GTCTTCACCA GCGTGCGGCA GAAAATCGAG AAGGAGGAAG ACAGTGAAGG GGAGGAGAGC
GAGGAGGAAG AGGAGGGCGA GGAGGAAGGC TCGGAGTCGG AGTCTCGCTC GGTCAAAGTG
AAGATCAAGC TTGGCCGGAA GGAGAAGGCC CAGGACCGGC TCAAGGGCGG CCGGCGGCGG
CCGAGCCGCG GGTCCAGGGC CAAGCCGGTG GTGAGCGACG ACGACAGCGA GGAGGAGCAG
GAGGAGGACC GCTCAGGAAG TGGCAGCGAG GAAGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh116163 Clone ID Related Accession (Same CDS sequence) XM_007106682.1 Accession Version XM_007106682.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4839bp)
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 1394380800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006713417.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGGC AAAGGTGGCA CCAAGACCCT GATGAACACC
ATCATGCAGC TGAGGAAGAT CTGCAACCAC CCGTACATGT TCCAGCACAT CGAGGAGTCC
TTTTCCGAGC ACTTGGGGTT TACCGGTGGC ATCGTCCAAG GGCTGGACCT GTACCGAGCC
TCGGGGAAGT TTGAGCTGCT CGATAGAATT CTTCCCAAAC TCCGGGCCAC CAACCATAAA
GTGCTGCTGT TCTGTCAGAT GACCTCCCTC ATGACGATCA TGGAAGACTA TTTTGCGTAT
CGCGGCTTTA AATACCTCAG GCTCGATGGA ACCACGAAAG CGGAGGACCG GGGCATGCTG
CTGAAGACCT TCAACGAGCC CGGCTCCGAG TACTTCATCT TCCTGCTCAG CACCCGGGCT
GGGGGGCTGG GTCTGAACCT CCAGTCAGCC GACACTGTGA TCATATTTGA CAGTGACTGG
AACCCCCACC AGGACCTGCA AGCGCAGGAC CGTGCCCACC GCATCGGGCA GCAGAACGAG
GTGCGTGTGC TCCGCCTCTG CACGGTCAAC AGCGTGGAAG AGAAGATCCT GGCTGCGGCC
AAGTACAAGC TCAACGTCGA CCAGAAGGTG ATCCAGGCCG GCATGTTCGA CCAGAAGTCC
TCCAGCCACG AGAGGCGCGC TTTCCTCCAG GCCATCCTCG AGCACGAGGA GCAGGACGAG
AGCAGACACT GCAGCACGGG CAGCGGCAGT GCCAGCTTCG CCCACACTGC CCCTCCGCCA
GCGGGCGTCA ACCCCGACTT GGAGGAGCCA CCTCTAAAGG AAGAAGACGA AGTGCCTGAC
GATGAGACGG TGAACCAGAT GATTGCCCGG CACGAGGAGG AGTTCGACCT GTTCATGCGC
ATGGACCTGG ACCGCAGGCG CGAGGAGGCC CGCAACCCCA AGCGGAAGCC ACGCCTGATG
GAGGAGGATG AGCTCCCCTC GTGGATCATC AAGGACGACG CAGAGGTGGA GCGGCTGACC
TGCGAGGAGG AGGAGGAGAA GATGTTCGGC CGCGGCTCCC GCCACCGCAA GGAGGTGGAC
TACAGCGACT CGCTGACCGA GAAGCAGTGG CTCAAGACCC TGAAGGCCAT CGAGGAGGGC
ACGCTGGAGG AGATCGAAGA GGAGGTCCGG CAGAAGAAAT CGTCGCGGAA GCGCAAGCGG
GACAGCGATG CCGGCCCCTC CACCCCGACC ACCAGCACCC GCAGCCGCGA CAAGGACGAC
GAGAGCAAGA AGCAGAAGAA GCGTGGCCGG CCGCCTGCCG AGAAGCTCTC CCCCAACCCG
CCCAACCTCA CCAAGAAGAT GAAGAAGATC GTGGACGCTG TGATCAAGTA CAAGGACAGT
AGTAGTGGAC GTCAGCTCAG CGAGGTGTTC ATCCAGCTGC CGTCCCGCAA GGAGCTGCCC
GAGTACTATG AGCTCATCCG CAAGCCTGTG GACTTCAAGA AGATAAAGGA GCGCATCCGC
AGCCACAAGT ACCGCAGCCT CAACGACCTA GAGAAGGACG TGATGCTGCT GTGCCAGAAC
GCACAGACCT TCAACCTGGA GGGCTCCCTG ATCTACGAAG ACTCCATCGT CCTGCAGTCG
GTCTTCACCA GCGTGCGGCA GAAAATCGAG AAGGAGGAAG ACAGTGAAGG GGAGGAGAGC
GAGGAGGAAG AGGAGGGCGA GGAGGAAGGC TCGGAGTCGG AGTCTCGCTC GGTCAAAGTG
AAGATCAAGC TTGGCCGGAA GGAGAAGGCC CAGGACCGGC TCAAGGGCGG CCGGCGGCGG
CCGAGCCGCG GGTCCAGGGC CAAGCCGGTG GTGAGCGACG ACGACAGCGA GGAGGAGCAG
GAGGAGGACC GCTCAGGAAG TGGCAGCGAG GAAGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007106744.1 CDS 31..4869 Translation
Target ORF information:
RefSeq Version XM_007106682.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007106682.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGGC AAAGGTGGCA CCAAGACCCT GATGAACACC
ATCATGCAGC TGAGGAAGAT CTGCAACCAC CCGTACATGT TCCAGCACAT CGAGGAGTCC
TTTTCCGAGC ACTTGGGGTT TACCGGTGGC ATCGTCCAAG GGCTGGACCT GTACCGAGCC
TCGGGGAAGT TTGAGCTGCT CGATAGAATT CTTCCCAAAC TCCGGGCCAC CAACCATAAA
GTGCTGCTGT TCTGTCAGAT GACCTCCCTC ATGACGATCA TGGAAGACTA TTTTGCGTAT
CGCGGCTTTA AATACCTCAG GCTCGATGGA ACCACGAAAG CGGAGGACCG GGGCATGCTG
CTGAAGACCT TCAACGAGCC CGGCTCCGAG TACTTCATCT TCCTGCTCAG CACCCGGGCT
GGGGGGCTGG GTCTGAACCT CCAGTCAGCC GACACTGTGA TCATATTTGA CAGTGACTGG
AACCCCCACC AGGACCTGCA AGCGCAGGAC CGTGCCCACC GCATCGGGCA GCAGAACGAG
GTGCGTGTGC TCCGCCTCTG CACGGTCAAC AGCGTGGAAG AGAAGATCCT GGCTGCGGCC
AAGTACAAGC TCAACGTCGA CCAGAAGGTG ATCCAGGCCG GCATGTTCGA CCAGAAGTCC
TCCAGCCACG AGAGGCGCGC TTTCCTCCAG GCCATCCTCG AGCACGAGGA GCAGGACGAG
AGCAGACACT GCAGCACGGG CAGCGGCAGT GCCAGCTTCG CCCACACTGC CCCTCCGCCA
GCGGGCGTCA ACCCCGACTT GGAGGAGCCA CCTCTAAAGG AAGAAGACGA AGTGCCTGAC
GATGAGACGG TGAACCAGAT GATTGCCCGG CACGAGGAGG AGTTCGACCT GTTCATGCGC
ATGGACCTGG ACCGCAGGCG CGAGGAGGCC CGCAACCCCA AGCGGAAGCC ACGCCTGATG
GAGGAGGATG AGCTCCCCTC GTGGATCATC AAGGACGACG CAGAGGTGGA GCGGCTGACC
TGCGAGGAGG AGGAGGAGAA GATGTTCGGC CGCGGCTCCC GCCACCGCAA GGAGGTGGAC
TACAGCGACT CGCTGACCGA GAAGCAGTGG CTCAAGACCC TGAAGGCCAT CGAGGAGGGC
ACGCTGGAGG AGATCGAAGA GGAGGTCCGG CAGAAGAAAT CGTCGCGGAA GCGCAAGCGG
GACAGCGATG CCGGCCCCTC CACCCCGACC ACCAGCACCC GCAGCCGCGA CAAGGACGAC
GAGAGCAAGA AGCAGAAGAA GCGTGGCCGG CCGCCTGCCG AGAAGCTCTC CCCCAACCCG
CCCAACCTCA CCAAGAAGAT GAAGAAGATC GTGGACGCTG TGATCAAGTA CAAGGACAGT
AGTAGTGGAC GTCAGCTCAG CGAGGTGTTC ATCCAGCTGC CGTCCCGCAA GGAGCTGCCC
GAGTACTATG AGCTCATCCG CAAGCCTGTG GACTTCAAGA AGATAAAGGA GCGCATCCGC
AGCCACAAGT ACCGCAGCCT CAACGACCTA GAGAAGGACG TGATGCTGCT GTGCCAGAAC
GCACAGACCT TCAACCTGGA GGGCTCCCTG ATCTACGAAG ACTCCATCGT CCTGCAGTCG
GTCTTCACCA GCGTGCGGCA GAAAATCGAG AAGGAGGAAG ACAGTGAAGG GGAGGAGAGC
GAGGAGGAAG AGGAGGGCGA GGAGGAAGGC TCGGAGTCGG AGTCTCGCTC GGTCAAAGTG
AAGATCAAGC TTGGCCGGAA GGAGAAGGCC CAGGACCGGC TCAAGGGCGG CCGGCGGCGG
CCGAGCCGCG GGTCCAGGGC CAAGCCGGTG GTGAGCGACG ACGACAGCGA GGAGGAGCAG
GAGGAGGACC GCTCAGGAAG TGGCAGCGAG GAAGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh116164 Clone ID Related Accession (Same CDS sequence) XM_007106683.1 Accession Version XM_007106683.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4836bp)
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 1394380800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006713417.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGGA AGAAGACGAA
GTGCCTGACG ATGAGACGGT GAACCAGATG ATTGCCCGGC ACGAGGAGGA GTTCGACCTG
TTCATGCGCA TGGACCTGGA CCGCAGGCGC GAGGAGGCCC GCAACCCCAA GCGGAAGCCA
CGCCTGATGG AGGAGGATGA GCTCCCCTCG TGGATCATCA AGGACGACGC AGAGGTGGAG
CGGCTGACCT GCGAGGAGGA GGAGGAGAAG ATGTTCGGCC GCGGCTCCCG CCACCGCAAG
GAGGTGGACT ACAGCGACTC GCTGACCGAG AAGCAGTGGC TCAAGGCCAT CGAGGAGGGC
ACGCTGGAGG AGATCGAAGA GGAGGTCCGG CAGAAGAAAT CGTCGCGGAA GCGCAAGCGG
GACAGCGATG CCGGCCCCTC CACCCCGACC ACCAGCACCC GCAGCCGCGA CAAGGACGAC
GAGAGCAAGA AGCAGAAGAA GCGTGGCCGG CCGCCTGCCG AGAAGCTCTC CCCCAACCCG
CCCAACCTCA CCAAGAAGAT GAAGAAGATC GTGGACGCTG TGATCAAGTA CAAGGACAGT
AGTGGACGTC AGCTCAGCGA GGTGTTCATC CAGCTGCCGT CCCGCAAGGA GCTGCCCGAG
TACTATGAGC TCATCCGCAA GCCTGTGGAC TTCAAGAAGA TAAAGGAGCG CATCCGCAGC
CACAAGTACC GCAGCCTCAA CGACCTAGAG AAGGACGTGA TGCTGCTGTG CCAGAACGCA
CAGACCTTCA ACCTGGAGGG CTCCCTGATC TACGAAGACT CCATCGTCCT GCAGTCGGTC
TTCACCAGCG TGCGGCAGAA AATCGAGAAG GAGGAAGACA GTGAAGGGGA GGAGAGCGAG
GAGGAAGAGG AGGGCGAGGA GGAAGGCTCG GAGTCGGAGT CTCGCTCGGT CAAAGTGAAG
ATCAAGCTTG GCCGGAAGGA GAAGGCCCAG GACCGGCTCA AGGGCGGCCG GCGGCGGCCG
AGCCGCGGGT CCAGGGCCAA GCCGGTGGTG AGCGACGACG ACAGCGAGGA GGAGCAGGAG
GAGGACCGCT CAGGAAGTGG CAGCGAGGAA GACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007106745.1 CDS 31..4866 Translation
Target ORF information:
RefSeq Version XM_007106683.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007106683.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAGGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGGCCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCACGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGGA AGAAGACGAA
GTGCCTGACG ATGAGACGGT GAACCAGATG ATTGCCCGGC ACGAGGAGGA GTTCGACCTG
TTCATGCGCA TGGACCTGGA CCGCAGGCGC GAGGAGGCCC GCAACCCCAA GCGGAAGCCA
CGCCTGATGG AGGAGGATGA GCTCCCCTCG TGGATCATCA AGGACGACGC AGAGGTGGAG
CGGCTGACCT GCGAGGAGGA GGAGGAGAAG ATGTTCGGCC GCGGCTCCCG CCACCGCAAG
GAGGTGGACT ACAGCGACTC GCTGACCGAG AAGCAGTGGC TCAAGGCCAT CGAGGAGGGC
ACGCTGGAGG AGATCGAAGA GGAGGTCCGG CAGAAGAAAT CGTCGCGGAA GCGCAAGCGG
GACAGCGATG CCGGCCCCTC CACCCCGACC ACCAGCACCC GCAGCCGCGA CAAGGACGAC
GAGAGCAAGA AGCAGAAGAA GCGTGGCCGG CCGCCTGCCG AGAAGCTCTC CCCCAACCCG
CCCAACCTCA CCAAGAAGAT GAAGAAGATC GTGGACGCTG TGATCAAGTA CAAGGACAGT
AGTGGACGTC AGCTCAGCGA GGTGTTCATC CAGCTGCCGT CCCGCAAGGA GCTGCCCGAG
TACTATGAGC TCATCCGCAA GCCTGTGGAC TTCAAGAAGA TAAAGGAGCG CATCCGCAGC
CACAAGTACC GCAGCCTCAA CGACCTAGAG AAGGACGTGA TGCTGCTGTG CCAGAACGCA
CAGACCTTCA ACCTGGAGGG CTCCCTGATC TACGAAGACT CCATCGTCCT GCAGTCGGTC
TTCACCAGCG TGCGGCAGAA AATCGAGAAG GAGGAAGACA GTGAAGGGGA GGAGAGCGAG
GAGGAAGAGG AGGGCGAGGA GGAAGGCTCG GAGTCGGAGT CTCGCTCGGT CAAAGTGAAG
ATCAAGCTTG GCCGGAAGGA GAAGGCCCAG GACCGGCTCA AGGGCGGCCG GCGGCGGCCG
AGCCGCGGGT CCAGGGCCAA GCCGGTGGTG AGCGACGACG ACAGCGAGGA GGAGCAGGAG
GAGGACCGCT CAGGAAGTGG CAGCGAGGAA GACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh303239 Clone ID Related Accession (Same CDS sequence) XM_024133991.1 Accession Version XM_024133991.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4938bp)
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 1519228800000 Organism Physeter catodon(sperm whale) Product transcription activator BRG1 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873602.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 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
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAAGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGACCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCATGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGAG CAGACACTGC
AGCACGGGCA GCGGCAGTGC CAGCTTCGCC CACACTGCCC CTCCGCCAGC GGGCGTCAAC
CCCGACTTGG AGGAGCCACC TCTAAAGGAA GAAGACGAAG TGCCTGACGA TGAGACGGTG
AACCAGATGA TTGCCCGGCA CGAGGAGGAG TTCGACCTGT TCATGCGCAT GGACCTGGAC
CGCAGGCGCG AGGAGGCCCG CAACCCCAAG CGGAAGCCAC GCCTGATGGA GGAGGATGAG
CTCCCCTCGT GGATCATCAA GGACGACGCA GAGGTGGAGC GGCTGACCTG CGAGGAGGAG
GAGGAGAAGA TGTTCGGCCG CGGCTCCCGC CACCGCAAGG AGGTGGACTA CAGCGACTCG
CTGACCGAGA AGCAGTGGCT CAAGGCCATC GAGGAGGGCA CGCTGGAGGA GATCGAAGAG
GAGGTCCGGC AGAAGAAATC GTCGCGGAAG CGCAAGCGGG ACAGCGATGC CGGCCCCTCC
ACCCCGACCA CCAGCACCCG CAGCCGCGAC AAGGACGACG AGAGCAAGAA GCAGAAGAAG
CGTGGCCGGC CGCCTGCCGA GAAGCTCTCC CCCAACCCGC CCAACCTCAC CAAGAAGATG
AAGAAGATCG TGGACGCTGT GATCAAGTAC AAGGACAGTA GTAGTGGACG TCAGCTCAGC
GAGGTGTTCA TCCAGCTGCC GTCCCGCAAG GAGCTGCCCG AGTACTATGA GCTCATCCGC
AAGCCTGTGG ACTTCAAGAA GATAAAGGAG CGCATCCGCA GCCACAAGTA CCGCAGCCTC
AACGACCTAG AGAAGGACGT GATGCTGCTG TGCCAGAACG CACAGACCTT CAACCTGGAG
GGCTCCCTGA TCTACGAAGA CTCCATCGTC CTGCAGTCGG TCTTCACCAG CGTGCGGCAG
AAAATCGAGA AGGAGGAAGA CAGTGAAGGG GAGGAGAGCG AGGAGGAAGA GGAGGGCGAG
GAGGAAGGCT CGGAGTCGGA GTCTCGCTCG GTCAAAGTGA AGATCAAGCT TGGCCGGAAG
GAGAAGGCCC AGGACCGGCT CAAGGGCGGC CGGCGGCGGC CGAGCCGCGG GTCCAGGGCC
AAGCCGGTGG TGAGCGACGA CGACAGCGAG GAGGAGCAGG AGGAGGACCG CTCAGGAAGT
GGCAGCGAGG AAGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023989759.1 CDS 179..5116 Translation
Target ORF information:
RefSeq Version XM_024133991.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024133991.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921ATGTCCACTC CAGACCCACC CCTGGGCGGA ACTCCTCGGC CAGGCCCTTC CCCGGGCCCG
GGCCCCTCCC CTGGAGCCAT GTTGGGCCCT AGCCCAGGTC CCTCACCCGG CTCAGCCCAC
AGCATGATGG GGCCCAGCCC AGGGCCTCCC TCAGCAGGAC ACCCCATCCC GACCCAGGGG
CCTGGAGGGT ACCCTCAGGA CAACATGCAC CAGATGCACA AGCCAATGGA GTCCATGCAC
GAGAAGGGCA TGTCGGACGA CCCCCGCTAC AACCAGATAA AGGGGATGGG GATGCGGTCT
GGGGGCCACG CCGGGATGGG GCCCCCACCA AGTCCCATGG ACCAGCACTC CCAAGGTTAC
CCCTCGCCCC TGGGCGGCTC CGAGCACGCT TCCAGTCCGG TTCCAGCCAG CGGCCCGGCC
TCGGGCCCGC AGATGTCGTC CGGGCCTGGA GGCGCCCCGC TGGATGGTGC TGACCCCCAG
GCTTTGGGGC AGCAGAACCG GGGCCCGACC CCCTTTAACC AGAACCAGCT GCACCAGCTC
AGAGCTCAGA TCATGGCCTA CAAGATGCTG GCCCGGGGGC AGCCCCTCCC TGACCACCTG
CAGATGGCGG TGCAGGGGAA GCGGCCGATG CCCGGGATGC AGCAGCAGAT GCCAACACTA
CCTCCACCCT CTGTGTCCGC AACAGGACCT GGCCCCGGGC CCGGGCCTGG CCCTGGTCCT
GGACCAGCAC CTCCAAATTA CAGCAGGCCT CATGGTATGG GAGGGCCCAA CATGCCCCCT
CCAGGACCCT CAGGCGTGCC CCCCGGGATG CCCGGCCAGC CCCCCGGAGG GCCTCCCAAG
CCCTGGCCTG AAGGACCCAT GGCGAATGCT GCTGCCCCCA CAAGCACACC TCAGAAGCTG
ATCCCCCCGC AGCCAACGGG TCGCCCCTCG CCTGCGCCCC CCGCCGTCCC TCCTGCTGCC
TCCCCCGTGA TGCCACCCCA GACACAGTCG CCGGGGCAGC CGGCCCAGCC TGCCCCCATG
GTGCCGCTGC ACCAGAAGCA GAGCCGCATC ACCCCCATCC AGAAGCCGCG GGGCCTGGAC
CCCGTGGAGA TCCTGCAGGA GCGGGAGTAC AGGCTGCAGG CTCGCATCGC ACACCGAATT
CAGGAACTTG AAAACCTTCC CGGGTCCCTG GCCGGGGATT TGCGAACCAA AGCGACCATC
GAGCTCAAGG CCCTGAGGCT GCTGAACTTC CAGAGGCAGC TGCGGCAGGA GGTGGTGGTG
TGCATGAGGA GGGACACGGC CCTCGAAACG GCCCTCAACG CCAAGGCCTA CAAGCGCAGT
AAGCGGCAGT CCCTGCGCGA AGCCCGCATC ACCGAGAAGC TGGAGAAGCA GCAGAAGATA
GAGCAGGAGC GCAAGCGCCG GCAGAAGCAC CAGGAATACC TCAACAGCAT TCTTCAGCAC
GCCAAGGATT TCAAAGAATA TCACAGGTCG GTCACAGGCA AAATCCAGAA ACTCACGAAG
GCGGTGGCCA CATACCATGC CAACACTGAG CGGGAACAGA AGAAGGAGAA TGAAAGAATC
GAGAAGGAGA GAATGCGGAG GCTCATGGCC GAGGACGAGG AAGGGTACCG CAAGCTCATT
GACCAGAAGA AGGACAAGCG CCTGGCCTAC CTCCTGCAGC AGACGGACGA GTACGTGGCT
AACCTCACGG AGCTGGTGCG GCAGCACAAG GCCGCCCAGG TCGCCAAGGA GAAGAAGAAG
AAGAAGAAGA AGAAGAAGGC AGAAAACGCT GAAGGACAGA CACCTGCGAT CGGACCCGAT
GGCGAGCCTC TGGATGAGAC CAGCCAAATG AGCGACCTTC CGGTGAAAGT GATCCACGTG
GAGAGTGGGA AGATCCTCAC GGGCACAGAC GCACCCAAAG CAGGGCAGCT GGAGGCCTGG
CTGGAAATGA ACCCAGGGTA TGAAGTAGCT CCAAGATCTG ATAGTGAAGA GAGTGGCTCA
GAAGAAGAGG ATGAGGAGGA GGAAGAGGAG CAGCCGCAGC CAGCACAGCC TCCCGCCCTG
CCCGTGGAGG AGAAGAAGAA GATTCCAGAT CCAGACAGCG ACGACGTCTC CGAGGTGGAC
GCCCGGCACA TCATTGAGAA CGCCAAGCAA GATGTTGATG ACGAGTATGG CGTGTCGCAG
GCTCTCGCTC GTGGCCTGCA GTCCTATTAT GCCGTGGCCC ACGCCGTCAC CGAGAGGGTG
GAGAAGCAGT CAGCGCTCAT GGTCAACGGC GTTCTCAAGC AGTACCAGAT CAAAGGCTTA
GAGTGGCTGG TGTCCCTATA CAACAACAAC CTGAATGGCA TCCTGGCTGA TGAGATGGGC
CTGGGGAAGA CCATCCAGAC CATCGCTCTC ATCACGTACC TCATGGAGCA CAAGCGGATC
AACGGACCCT TCCTCATCAT AGTACCTCTC TCAACGCTGT CCAACTGGGC ATACGAATTT
GACAAGTGGG CCCCCTCGGT GGTGAAGGTG TCCTACAAGG GCTCTCCAGC AGCCAGACGT
GCTTTCGTCC CCCAGCTCCG GAGCGGCAAG TTCAACGTCT TGCTGACGAC GTACGAGTAC
ATCATTAAAG ACAAGCACAT CCTTGCAAAG ATCCGTTGGA AGTACATGAT CGTGGACGAA
GGCCACCGCA TGAAGAACCA CCACTGCAAG CTGACGCAGG TCCTCAACAC GCACTACGTG
GCGCCCCGCC GCCTGCTGCT GACGGGCACG CCGCTGCAGA ACAAGCTCCC TGAGCTCTGG
GCGCTCCTCA ACTTCCTGCT GCCCACCATC TTCAAGAGCT GCAGCACCTT TGAGCAGTGG
TTCAACGCGC CCTTTGCCAT GACCGGGGAA AAGGTGGACC TGAACGAGGA GGAAACCATT
CTCATCATCC GTCGTCTCCA CAAAGTGCTG CGGCCCTTCC TGCTCCGGCG GCTCAAGAAG
GAAGTCGAGG CTCAGTTACC TGAAAAGGTG GAGTACGTCA TCAAGTGCGA CATGTCCGCG
CTGCAGCGCG TGCTTTACCG GCACATGCAG GCCAAGGGGG TGCTGCTCAC CGATGGCTCT
GAGAAGGATA AGAAGGGCAA AGGTGGCACC AAGACCCTGA TGAACACCAT CATGCAGCTG
AGGAAGATCT GCAACCACCC GTACATGTTC CAGCACATCG AGGAGTCCTT TTCCGAGCAC
TTGGGGTTTA CCGGTGGCAT CGTCCAAGGG CTGGACCTGT ACCGAGCCTC GGGGAAGTTT
GAGCTGCTCG ATAGAATTCT TCCCAAACTC CGGGCCACCA ACCATAAAGT GCTGCTGTTC
TGTCAGATGA CCTCCCTCAT GACGATCATG GAAGACTATT TTGCGTATCG CGGCTTTAAA
TACCTCAGGC TCGATGGAAC CACGAAAGCG GAGGACCGGG GCATGCTGCT GAAGACCTTC
AACGAGCCCG GCTCCGAGTA CTTCATCTTC CTGCTCAGCA CCCGGGCTGG GGGGCTGGGT
CTGAACCTCC AGTCAGCCGA CACTGTGATC ATATTTGACA GTGACTGGAA CCCCCACCAG
GACCTGCAAG CGCAGGACCG TGCCCACCGC ATCGGGCAGC AGAACGAGGT GCGTGTGCTC
CGCCTCTGCA CGGTCAACAG CGTGGAAGAG AAGATCCTGG CTGCGGCCAA GTACAAGCTC
AACGTCGACC AGAAGGTGAT CCAGGCCGGC ATGTTCGACC AGAAGTCCTC CAGCCATGAG
AGGCGCGCTT TCCTCCAGGC CATCCTCGAG CACGAGGAGC AGGACGAGAG CAGACACTGC
AGCACGGGCA GCGGCAGTGC CAGCTTCGCC CACACTGCCC CTCCGCCAGC GGGCGTCAAC
CCCGACTTGG AGGAGCCACC TCTAAAGGAA GAAGACGAAG TGCCTGACGA TGAGACGGTG
AACCAGATGA TTGCCCGGCA CGAGGAGGAG TTCGACCTGT TCATGCGCAT GGACCTGGAC
CGCAGGCGCG AGGAGGCCCG CAACCCCAAG CGGAAGCCAC GCCTGATGGA GGAGGATGAG
CTCCCCTCGT GGATCATCAA GGACGACGCA GAGGTGGAGC GGCTGACCTG CGAGGAGGAG
GAGGAGAAGA TGTTCGGCCG CGGCTCCCGC CACCGCAAGG AGGTGGACTA CAGCGACTCG
CTGACCGAGA AGCAGTGGCT CAAGGCCATC GAGGAGGGCA CGCTGGAGGA GATCGAAGAG
GAGGTCCGGC AGAAGAAATC GTCGCGGAAG CGCAAGCGGG ACAGCGATGC CGGCCCCTCC
ACCCCGACCA CCAGCACCCG CAGCCGCGAC AAGGACGACG AGAGCAAGAA GCAGAAGAAG
CGTGGCCGGC CGCCTGCCGA GAAGCTCTCC CCCAACCCGC CCAACCTCAC CAAGAAGATG
AAGAAGATCG TGGACGCTGT GATCAAGTAC AAGGACAGTA GTAGTGGACG TCAGCTCAGC
GAGGTGTTCA TCCAGCTGCC GTCCCGCAAG GAGCTGCCCG AGTACTATGA GCTCATCCGC
AAGCCTGTGG ACTTCAAGAA GATAAAGGAG CGCATCCGCA GCCACAAGTA CCGCAGCCTC
AACGACCTAG AGAAGGACGT GATGCTGCTG TGCCAGAACG CACAGACCTT CAACCTGGAG
GGCTCCCTGA TCTACGAAGA CTCCATCGTC CTGCAGTCGG TCTTCACCAG CGTGCGGCAG
AAAATCGAGA AGGAGGAAGA CAGTGAAGGG GAGGAGAGCG AGGAGGAAGA GGAGGGCGAG
GAGGAAGGCT CGGAGTCGGA GTCTCGCTCG GTCAAAGTGA AGATCAAGCT TGGCCGGAAG
GAGAAGGCCC AGGACCGGCT CAAGGGCGGC CGGCGGCGGC CGAGCCGCGG GTCCAGGGCC
AAGCCGGTGG TGAGCGACGA CGACAGCGAG GAGGAGCAGG AGGAGGACCG CTCAGGAAGT
GGCAGCGAGG AAGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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