SNF2 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene
Clones
gRNAs

Summary

Gene Symbol	SNF2
Entrez Gene ID	854465
Full Name	SWI/SNF catalytic subunit SNF2
Synonyms	GAM1,HAF1,SWI2,TYE3
Gene Type	protein-coding
Organism	Saccharomyces cerevisiae S288C

mRNA and Protein(s)

mRNA	Protein	Name
NM_001183709.3	NP_014933.3	SWI/SNF catalytic subunit SNF2

Pathways from BioSystems

Homologies

	LOC696973	XP_002800208.1
Kluyveromyces lactis	KLLA0B08327g	XP_451901.1
Eremothecium gossypii	AGOS_AFR562C	NP_986109.2
Saccharomyces cerevisiae (baker's yeast)	SNF2	NP_014933.3

Gene Ontology
Bibliography

Related articles in PubMed

The nucleotide sequence of Saccharomyces cerevisiae chromosome XV.
Dujon B, Albermann K, Aldea M, Alexandraki D, Ansorge W, Arino J, Benes V, Bohn C, Bolotin-Fukuhara M, Bordonn? R, Boyer J, Camasses A, Casamayor A, Casas C, Ch?ret G, Cziepluch C, Daignan-Fornier B, Dang DV, de Haan M, Delius H, Durand P, Fairhead C, Feldmann H, Gaillon L, Kleine K
Nature387(6632 Suppl)98-102(1997 May)

Life with 6000 genes.
Goffeau A, Barrell BG, Bussey H, Davis RW, Dujon B, Feldmann H, Galibert F, Hoheisel JD, Jacq C, Johnston M, Louis EJ, Mewes HW, Murakami Y, Philippsen P, Tettelin H, Oliver SG
Science (New York, N.Y.)274(5287)546, 563-7(1996 Oct)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The findings uncover a link between Snf2 expression and the splicing of PTC7 and establish a previously unknown role for the SWI/SNF complex in the transition of yeast cells from fermentative to respiratory modes of metabolism.
Title: Chromatin-remodeling SWI/SNF complex regulates coenzyme Q

The SWI/SNF ATP-dependent nucleosome remodeler promotes resection initiation at a DNA double-strand break.
Title: The SWI/SNF ATP-dependent nucleosome remodeler promotes resection initiation at a DNA double-strand break in yeast.

the cryo-electron microscopy structure of chromatin remodeller Switch/sucrose non-fermentable (SWI2/SNF2) from Saccharomyces cerevisiae bound to the nucleosome
Title: Mechanism of chromatin remodelling revealed by the Snf2-nucleosome structure.

Gcn5, Snf2, and Ydj1 cooperate in eviction of promoter nucleosomes genome-wide, achieving robust transcription of the most highly expressed subset of genes in yeast.
Title: Genome-wide cooperation by HAT Gcn5, remodeler SWI/SNF, and chaperone Ydj1 in promoter nucleosome eviction and transcriptional activation.

The interaction between Swi2p and Sir3p is key for SWI/SNF to promote resistance to replication stress in vivo and for establishment of heterochromatin at telomeres.
Title: Direct interactions promote eviction of the Sir3 heterochromatin protein by the SWI/SNF chromatin remodeling enzyme.

The following SNF2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SNF2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OSi03579	NM_001183709.3 Latest version!	Saccharomyces cerevisiae S288C SWI/SNF catalytic subunit SNF2 (SNF2), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$1021.30 $1459.00

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

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

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

Reference Sequences (Refseq)

SNF2 ( NM_001183709.3 ) cDNA ORF clone, Saccharomyces cerevisiae S288C -> NP_014933.3 Saccharomyces cerevisiae S288C SWI/SNF catalytic subunit SNF2 (SNF2), partial mRNA.

Price & Availability↑

CloneID	OSi03579
Clone ID Related Accession (Same CDS sequence)	NM_001183709.3
Accession Version	NM_001183709.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5112bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-10-31
Organism	Saccharomyces cerevisiae S288C
Product	SWI/SNF catalytic subunit SNF2
Comment	Comment: REVIEWED REFSEQ: This record has been curated by SGD. This record is derived from an annotated genomic sequence (NC_001147). On Jul 30, 2012 this sequence version replaced NM_001183709.2. ##Genome-Annotation-Data-START## Annotation Provider :: SGD Annotation Status :: Full Annotation Annotation Version :: R64-2-1 URL :: http://www.yeastgenome.org/ ##Genome-Annotation-Data-END## COMPLETENESS: incomplete on both ends.

ATGAACATAC CACAGCGTCA ATTTAGCAAC GAAGAGGTCA ACCGCTGCTA TTTAAGATGG 
CAGCATTTGA GAAATGAACA CGGAATGAAC GCTCCGAGTG TGCCGGAATT TATCTATTTG 
ACTAAAGTGT TGCAATTTGC TGCCAAGCAG CGACAAGAAT TACAAATGCA ACGCCAACAG 
CAAGGCATTT CAGGTTCTCA GCAAAATATT GTTCCAAATT CTTCAGATCA AGCAGAACTG 
CCGAATAATG CTTCCTCGCA CATTTCTGCT TCTGCTTCCC CGCATTTAGC TCCGAATATG 
CAATTGAATG GAAATGAGAC CTTTAGCACT TCTGCTCATC AATCACCAAT CATGCAAACA 
CAGATGCCAT TAAATAGCAA TGGTGGTAAT AACATGCTAC CACAACGGCA ATCTTCGGTT 
GGTTCATTAA ATGCAACTAA TTTTTCACCA ACACCAGCAA ACAATGGAGA AAATGCTGCG 
GAGAAACCAG ATAACTCAAA CCATAATAAC TTAAACCTTA ATAATTCCGA GCTTCAACCG 
CAAAATCGAT CATTACAAGA ACACAACATA CAGGATTCAA ATGTGATGCC AGGTTCGCAG 
ATAAATTCTC CTATGCCCCA GCAGGCGCAG ATGCAGCAGG CACAATTCCA AGCACAACAG 
GCGCAACAAG CGCAACAGGC ACAACAGGCA CAACAAGCAC AAGCGAGACT GCAACAGGGG 
AGAAGATTAC CCATGACAAT GTTTACTGCC GAGCAATCCG AACTGTTAAA GGCCCAAATC 
ACATCTCTAA AATGTCTAGT AAATAGAAAG CCTATTCCGT TTGAATTTCA GGCTGTTATC 
CAAAAATCTA TTAACCATCC TCCAGATTTC AAAAGAATGT TACTGTCTTT GAGTGAGTTT 
GCGAGAAGAA GACAACCCAC AGATCAAAAT AACCAATCAA ATCTCAATGG CGGCAACAAT 
ACGCAGCAAC CCGGCACCAA TTCCCACTAC AATAACACTA ACACTGACAA CGTTTCTGGG 
CTTACCAGAA ATGCACCTTT AGATAGCAAA GACGAAAATT TTGCATCTGT TTCACCAGCT 
GGTCCATCTA GTGTACATAA TGCGAAGAAT GGCACCCTCG ATAAAAATTC GCAAACTGTA 
AGTGGCACTC CAATCACGCA AACAGAATCG AAAAAAGAGG AAAACGAAAC CATTTCAAAC 
GTAGCTAAAA CAGCTCCTAA TAGTAATAAG ACCCACACCG AGCAAAATAA CCCGCCAAAA 
CCGCAGAAAC CCGTTCCTTT AAACGTCCTT CAAGATCAAT ATAAGGAAGG AATAAAAGTG 
GTAGATATAG ATGATCCTGA TATGATGGTT GATTCTTTTA CGATGCCCAA TATCTCACAT 
AGTAATATCG ATTATCAGAC TTTATTGGCC AATTCGGATC ATGCAAAGTT TACTATTGAA 
CCTGGCGTTC TACCGGTTGG TATTGACACA CATACCGCTA CTGACATTTA CCAAACTTTA 
ATTGCATTGA ACCTAGATAC TACGGTAAAT GACTGTTTGG ATAAGCTACT AAATGACGAA 
TGTACGGAAT CAACCAGGGA AAATGCTCTT TACGATTACT ACGCCTTACA ATTATTACCG 
TTACAAAAAG CCGTAAGAGG TCATGTATTA CAATTTGAAT GGCATCAAAA TTCTTTATTA 
ACCAATACAC ATCCAAATTT TCTTTCGAAA ATAAGAAACA TCAACGTTCA AGATGCATTG 
CTAACAAACC AACTTTATAA GAATCATGAA TTACTTAAGT TAGAAAGGAA GAAGACTGAG 
GCAGTGGCCA GATTAAAGTC GATGAATAAA TCCGCCATCA ATCAATATAA TAGAAGACAA 
GATAAAAAGA ATAAAAGGTT GAAGTTTGGC CATAGACTCA TTGCTACGCA TACTAATTTA 
GAAAGGGATG AGCAAAAGAG AGCTGAAAAA AAGGCAAAAG AACGTTTACA GGCTTTAAAG 
GCGAACGATG AGGAAGCCTA TATAAAATTA TTAGACCAAA CCAAAGATAC AAGAATTACA 
CATCTTCTAA GGCAAACAAA CGCATTTTTA GATTCTTTAA CAAGAGCCGT GAAAGATCAA 
CAAAAGTACA CTAAAGAAAT GATTGATTCC CACATAAAGG AAGCATCGGA GGAAGTGGAT 
GATTTGTCCA TGGTCCCCAA GATGAAGGAT GAAGAATATG ATGACGACGA CGACAATTCT 
AACGTCGATT ATTACAATGT CGCACATAGA ATTAAAGAAG ATATCAAGAA GCAGCCTTCA 
ATATTGGTTG GTGGTACCTT AAAGGACTAT CAAATCAAGG GTTTACAGTG GATGGTTTCG 
CTTTTCAATA ATCATTTAAA TGGTATTTTA GCAGACGAAA TGGGTCTTGG TAAGACTATC 
CAGACGATAT CCTTACTTAC ATATTTATAT GAAATGAAGA ATATTCGTGG GCCATATTTA 
GTCATTGTTC CTTTATCTAC ACTGTCAAAT TGGAGCAGTG AATTCGCGAA ATGGGCTCCT 
ACCTTAAGAA CTATATCATT TAAAGGTTCG CCAAATGAGA GGAAAGCCAA ACAGGCTAAA 
ATAAGGGCAG GTGAATTTGA TGTAGTTCTG ACTACCTTTG AGTATATTAT TAAAGAAAGA 
GCACTTTTAT CCAAGGTCAA GTGGGTCCAT ATGATTATTG ATGAAGGCCA TAGAATGAAA 
AATGCGCAAT CCAAGCTTTC TTTAACCTTG AACACACATT ACCATGCAGA TTATAGATTA 
ATTTTGACAG GTACACCACT TCAAAACAAC TTGCCAGAAT TATGGGCCTT ATTGAATTTT 
GTGTTACCCA AGATTTTCAA TTCCGTGAAA TCTTTTGATG AATGGTTCAA TACACCCTTT 
GCCAACACCG GTGGGCAAGA TAAAATTGAG TTGAGTGAAG AAGAGACGCT TTTGGTTATC 
AGGAGATTGC ATAAAGTCTT GAGACCCTTT TTATTGCGTC GTTTGAAAAA GGATGTAGAA 
AAAGAATTAC CGGATAAAGT TGAGAAGGTA GTGAAGTGCA AAATGAGCGC TTTACAACAA 
ATTATGTACC AACAAATGTT GAAATATCGT CGTCTTTTTA TCGGTGATCA AAATAATAAG 
AAAATGGTAG GTTTAAGAGG TTTCAATAAT CAAATCATGC AACTAAAGAA AATCTGTAAT 
CATCCTTTTG TATTTGAAGA AGTTGAGGAC CAAATCAATC CAACAAGAGA AACGAATGAT 
GATATTTGGC GTGTTGCTGG TAAATTTGAA CTATTAGATA GAATTTTGCC TAAGCTTAAG 
GCAACTGGGC ATAGAGTATT AATTTTTTTT CAAATGACCC AAATTATGGA TATTATGGAA 
GATTTTTTAA GGTACATTAA TATCAAGTAC CTGAGGTTAG ATGGTCATAC AAAATCTGAT 
GAACGTAGTG AGTTGTTACG TCTATTTAAC GCCCCTGATT CTGAATACTT GTGCTTTATC 
TTATCAACTA GAGCGGGTGG TTTGGGTTTA AATTTACAAA CTGCAGACAC TGTCATTATT 
TTTGATACTG ACTGGAATCC TCATCAAGAT TTGCAAGCTC AGGATAGAGC GCATAGAATA 
GGTCAGAAGA ATGAAGTTAG AATTCTAAGA TTGATTACTA CGAATTCAGT TGAAGAAGTT 
ATCCTAGAGA GAGCCTACAA GAAGCTAGAT ATCGATGGTA AAGTCATTCA AGCAGGTAAA 
TTCGATAACA AATCTACATC GGAGGAACAA GAAGCGTTGC TTAGATCTTT GCTGGATGCA 
GAAGAGGAAC GTAGAAAGAA AAGAGAGTCT GGTGTTGAAG AAGAAGAGGA GTTAAAAGAC 
TCAGAAATCA ACGAAATTCT TGCTCGAAAT GACGAAGAAA TGGCTGTTCT TACAAGGATG 
GATGAAGATA GATCAAAGAA GGAGGAAGAA TTGGGAGTAA AGAGCCGTCT CTTAGAAAAG 
AGTGAATTAC CTGATATTTA CAGTAGAGAT ATTGGTGCCG AGCTCAAACG TGAAGAATCA 
GAATCTGCTG CTGTTTACAA TGGAAGGGGT GCAAGAGAAC GTAAGACGGC AACTTACAAC 
GATAATATGT CTGAAGAACA GTGGTTAAGA CAATTTGAAG TTAGCGATGA TGAAAAAAAT 
GACAAGCAGG CAAGAAAACA ACGAACAAAG AAGGAAGATA AGAGCGAGGC GATTGATGGG 
AATGGAGAAA TTAAAGGCGA AAACATTGAC GCTGATAATG ACGGTCCTAG AATTAATAAT 
ATATCGGCCG AAGATCGGGC AGATACGGAT TTGGCAATGA ATGACGATGA TTTCTTGTCT 
AAAAAGAGAA AGGCAGGAAG GCCCCGTGGA AGACCTAAGA AAGTGAAACT TGAAGGATCT 
GAAAATTCTG AACCACCAGC GCTTGAATCA AGTCCAGTTA CTGGCGATAA CTCTCCCAGT 
GAGGATTTTA TGGACATTCC AAAACCACGT ACAGCGGGAA AAACATCTGT TAAATCAGCA 
AGAACTTCAA CAAGGGGCCG TGGTCGCGGT CGTGGTCGTG GTCGAGGGCG AGGACGTGGA 
CGAGGAAGGC CGCCAAAAGC AAGAAATGGG CTTGATTATG TCCGCACGCC CGCTGCGGCA 
ACGAGTCCTA TTGATATTAG AGAGAAAGTT GCTAAACAAG CTCTAGACTT ATACCACTTT 
GCTCTCAATT ATGAAAATGA AGCTGGAAGG AAACTTTCTG ACATTTTCCT CTCCAAACCT 
TCCAAAGCAC TATATCCCGA CTACTATATG ATTATTAAGT ACCCTGTCGC CTTTGATAAT 
ATTAACACGC ATATTGAAAC GCTAGCTTAC AACTCCCTTA AAGAGACCCT TCAAGACTTT 
CATCTGATAT TTTCCAATGC TAGGATATAC AATACTGAGG GTTCAGTAGT ATACGAAGAC 
TCTTTAGAAC TGGAAAAAGT GGTTACGAAG AAATACTGTG AGATAATGGG CGATAACTCA 
CAACTCGACT TTACTGAATT TGATGAACAG TATGGCACCA GACCCCTCGT CTTGCCTCCT 
GTTGTTACTT CAAGCGTGGC TGAATCTTTC ACAGATGAAG CGGACTCGAG CATGACAGAA 
GCGAGTGTAT AG

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

RefSeq	NP_014933.3
CDS	1..5112
Translation	MNIPQRQFSNEEVNRCYLRWQHLRNEHGMNAPSVPEFIYLTKVLQFAAKQRQELQMQRQQQGISGSQQNIVPNSSDQAELPNNASSHISASASPHLAPNMQLNGNETFSTSAHQSPIMQTQMPLNSNGGNNMLPQRQSSVGSLNATNFSPTPANNGENAAEKPDNSNHNNLNLNNSELQPQNRSLQEHNIQDSNVMPGSQINSPMPQQAQMQQAQFQAQQAQQAQQAQQAQQAQARLQQGRRLPMTMFTAEQSELLKAQITSLKCLVNRKPIPFEFQAVIQKSINHPPDFKRMLLSLSEFARRRQPTDQNNQSNLNGGNNTQQPGTNSHYNNTNTDNVSGLTRNAPLDSKDENFASVSPAGPSSVHNAKNGTLDKNSQTVSGTPITQTESKKEENETISNVAKTAPNSNKTHTEQNNPPKPQKPVPLNVLQDQYKEGIKVVDIDDPDMMVDSFTMPNISHSNIDYQTLLANSDHAKFTIEPGVLPVGIDTHTATDIYQTLIALNLDTTVNDCLDKLLNDECTESTRENALYDYYALQLLPLQKAVRGHVLQFEWHQNSLLTNTHPNFLSKIRNINVQDALLTNQLYKNHELLKLERKKTEAVARLKSMNKSAINQYNRRQDKKNKRLKFGHRLIATHTNLERDEQKRAEKKAKERLQALKANDEEAYIKLLDQTKDTRITHLLRQTNAFLDSLTRAVKDQQKYTKEMIDSHIKEASEEVDDLSMVPKMKDEEYDDDDDNSNVDYYNVAHRIKEDIKKQPSILVGGTLKDYQIKGLQWMVSLFNNHLNGILADEMGLGKTIQTISLLTYLYEMKNIRGPYLVIVPLSTLSNWSSEFAKWAPTLRTISFKGSPNERKAKQAKIRAGEFDVVLTTFEYIIKERALLSKVKWVHMIIDEGHRMKNAQSKLSLTLNTHYHADYRLILTGTPLQNNLPELWALLNFVLPKIFNSVKSFDEWFNTPFANTGGQDKIELSEEETLLVIRRLHKVLRPFLLRRLKKDVEKELPDKVEKVVKCKMSALQQIMYQQMLKYRRLFIGDQNNKKMVGLRGFNNQIMQLKKICNHPFVFEEVEDQINPTRETNDDIWRVAGKFELLDRILPKLKATGHRVLIFFQMTQIMDIMEDFLRYINIKYLRLDGHTKSDERSELLRLFNAPDSEYLCFILSTRAGGLGLNLQTADTVIIFDTDWNPHQDLQAQDRAHRIGQKNEVRILRLITTNSVEEVILERAYKKLDIDGKVIQAGKFDNKSTSEEQEALLRSLLDAEEERRKKRESGVEEEEELKDSEINEILARNDEEMAVLTRMDEDRSKKEEELGVKSRLLEKSELPDIYSRDIGAELKREESESAAVYNGRGARERKTATYNDNMSEEQWLRQFEVSDDEKNDKQARKQRTKKEDKSEAIDGNGEIKGENIDADNDGPRINNISAEDRADTDLAMNDDDFLSKKRKAGRPRGRPKKVKLEGSENSEPPALESSPVTGDNSPSEDFMDIPKPRTAGKTSVKSARTSTRGRGRGRGRGRGRGRGRGRPPKARNGLDYVRTPAAATSPIDIREKVAKQALDLYHFALNYENEAGRKLSDIFLSKPSKALYPDYYMIIKYPVAFDNINTHIETLAYNSLKETLQDFHLIFSNARIYNTEGSVVYEDSLELEKVVTKKYCEIMGDNSQLDFTEFDEQYGTRPLVLPPVVTSSVAESFTDEADSSMTEASV

Target ORF information:

RefSeq Version	NM_001183709.3
Organism	Saccharomyces cerevisiae S288C
Definition	Saccharomyces cerevisiae S288C SWI/SNF catalytic subunit SNF2 (SNF2), partial mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001183709.3

ORF Insert Sequence:

ATGAACATAC CACAGCGTCA ATTTAGCAAC GAAGAGGTCA ACCGCTGCTA TTTAAGATGG 
CAGCATTTGA GAAATGAACA CGGAATGAAC GCTCCGAGTG TGCCGGAATT TATCTATTTG 
ACTAAAGTGT TGCAATTTGC TGCCAAGCAG CGACAAGAAT TACAAATGCA ACGCCAACAG 
CAAGGCATTT CAGGTTCTCA GCAAAATATT GTTCCAAATT CTTCAGATCA AGCAGAACTG 
CCGAATAATG CTTCCTCGCA CATTTCTGCT TCTGCTTCCC CGCATTTAGC TCCGAATATG 
CAATTGAATG GAAATGAGAC CTTTAGCACT TCTGCTCATC AATCACCAAT CATGCAAACA 
CAGATGCCAT TAAATAGCAA TGGTGGTAAT AACATGCTAC CACAACGGCA ATCTTCGGTT 
GGTTCATTAA ATGCAACTAA TTTTTCACCA ACACCAGCAA ACAATGGAGA AAATGCTGCG 
GAGAAACCAG ATAACTCAAA CCATAATAAC TTAAACCTTA ATAATTCCGA GCTTCAACCG 
CAAAATCGAT CATTACAAGA ACACAACATA CAGGATTCAA ATGTGATGCC AGGTTCGCAG 
ATAAATTCTC CTATGCCCCA GCAGGCGCAG ATGCAGCAGG CACAATTCCA AGCACAACAG 
GCGCAACAAG CGCAACAGGC ACAACAGGCA CAACAAGCAC AAGCGAGACT GCAACAGGGG 
AGAAGATTAC CCATGACAAT GTTTACTGCC GAGCAATCCG AACTGTTAAA GGCCCAAATC 
ACATCTCTAA AATGTCTAGT AAATAGAAAG CCTATTCCGT TTGAATTTCA GGCTGTTATC 
CAAAAATCTA TTAACCATCC TCCAGATTTC AAAAGAATGT TACTGTCTTT GAGTGAGTTT 
GCGAGAAGAA GACAACCCAC AGATCAAAAT AACCAATCAA ATCTCAATGG CGGCAACAAT 
ACGCAGCAAC CCGGCACCAA TTCCCACTAC AATAACACTA ACACTGACAA CGTTTCTGGG 
CTTACCAGAA ATGCACCTTT AGATAGCAAA GACGAAAATT TTGCATCTGT TTCACCAGCT 
GGTCCATCTA GTGTACATAA TGCGAAGAAT GGCACCCTCG ATAAAAATTC GCAAACTGTA 
AGTGGCACTC CAATCACGCA AACAGAATCG AAAAAAGAGG AAAACGAAAC CATTTCAAAC 
GTAGCTAAAA CAGCTCCTAA TAGTAATAAG ACCCACACCG AGCAAAATAA CCCGCCAAAA 
CCGCAGAAAC CCGTTCCTTT AAACGTCCTT CAAGATCAAT ATAAGGAAGG AATAAAAGTG 
GTAGATATAG ATGATCCTGA TATGATGGTT GATTCTTTTA CGATGCCCAA TATCTCACAT 
AGTAATATCG ATTATCAGAC TTTATTGGCC AATTCGGATC ATGCAAAGTT TACTATTGAA 
CCTGGCGTTC TACCGGTTGG TATTGACACA CATACCGCTA CTGACATTTA CCAAACTTTA 
ATTGCATTGA ACCTAGATAC TACGGTAAAT GACTGTTTGG ATAAGCTACT AAATGACGAA 
TGTACGGAAT CAACCAGGGA AAATGCTCTT TACGATTACT ACGCCTTACA ATTATTACCG 
TTACAAAAAG CCGTAAGAGG TCATGTATTA CAATTTGAAT GGCATCAAAA TTCTTTATTA 
ACCAATACAC ATCCAAATTT TCTTTCGAAA ATAAGAAACA TCAACGTTCA AGATGCATTG 
CTAACAAACC AACTTTATAA GAATCATGAA TTACTTAAGT TAGAAAGGAA GAAGACTGAG 
GCAGTGGCCA GATTAAAGTC GATGAATAAA TCCGCCATCA ATCAATATAA TAGAAGACAA 
GATAAAAAGA ATAAAAGGTT GAAGTTTGGC CATAGACTCA TTGCTACGCA TACTAATTTA 
GAAAGGGATG AGCAAAAGAG AGCTGAAAAA AAGGCAAAAG AACGTTTACA GGCTTTAAAG 
GCGAACGATG AGGAAGCCTA TATAAAATTA TTAGACCAAA CCAAAGATAC AAGAATTACA 
CATCTTCTAA GGCAAACAAA CGCATTTTTA GATTCTTTAA CAAGAGCCGT GAAAGATCAA 
CAAAAGTACA CTAAAGAAAT GATTGATTCC CACATAAAGG AAGCATCGGA GGAAGTGGAT 
GATTTGTCCA TGGTCCCCAA GATGAAGGAT GAAGAATATG ATGACGACGA CGACAATTCT 
AACGTCGATT ATTACAATGT CGCACATAGA ATTAAAGAAG ATATCAAGAA GCAGCCTTCA 
ATATTGGTTG GTGGTACCTT AAAGGACTAT CAAATCAAGG GTTTACAGTG GATGGTTTCG 
CTTTTCAATA ATCATTTAAA TGGTATTTTA GCAGACGAAA TGGGTCTTGG TAAGACTATC 
CAGACGATAT CCTTACTTAC ATATTTATAT GAAATGAAGA ATATTCGTGG GCCATATTTA 
GTCATTGTTC CTTTATCTAC ACTGTCAAAT TGGAGCAGTG AATTCGCGAA ATGGGCTCCT 
ACCTTAAGAA CTATATCATT TAAAGGTTCG CCAAATGAGA GGAAAGCCAA ACAGGCTAAA 
ATAAGGGCAG GTGAATTTGA TGTAGTTCTG ACTACCTTTG AGTATATTAT TAAAGAAAGA 
GCACTTTTAT CCAAGGTCAA GTGGGTCCAT ATGATTATTG ATGAAGGCCA TAGAATGAAA 
AATGCGCAAT CCAAGCTTTC TTTAACCTTG AACACACATT ACCATGCAGA TTATAGATTA 
ATTTTGACAG GTACACCACT TCAAAACAAC TTGCCAGAAT TATGGGCCTT ATTGAATTTT 
GTGTTACCCA AGATTTTCAA TTCCGTGAAA TCTTTTGATG AATGGTTCAA TACACCCTTT 
GCCAACACCG GTGGGCAAGA TAAAATTGAG TTGAGTGAAG AAGAGACGCT TTTGGTTATC 
AGGAGATTGC ATAAAGTCTT GAGACCCTTT TTATTGCGTC GTTTGAAAAA GGATGTAGAA 
AAAGAATTAC CGGATAAAGT TGAGAAGGTA GTGAAGTGCA AAATGAGCGC TTTACAACAA 
ATTATGTACC AACAAATGTT GAAATATCGT CGTCTTTTTA TCGGTGATCA AAATAATAAG 
AAAATGGTAG GTTTAAGAGG TTTCAATAAT CAAATCATGC AACTAAAGAA AATCTGTAAT 
CATCCTTTTG TATTTGAAGA AGTTGAGGAC CAAATCAATC CAACAAGAGA AACGAATGAT 
GATATTTGGC GTGTTGCTGG TAAATTTGAA CTATTAGATA GAATTTTGCC TAAGCTTAAG 
GCAACTGGGC ATAGAGTATT AATTTTTTTT CAAATGACCC AAATTATGGA TATTATGGAA 
GATTTTTTAA GGTACATTAA TATCAAGTAC CTGAGGTTAG ATGGTCATAC AAAATCTGAT 
GAACGTAGTG AGTTGTTACG TCTATTTAAC GCCCCTGATT CTGAATACTT GTGCTTTATC 
TTATCAACTA GAGCGGGTGG TTTGGGTTTA AATTTACAAA CTGCAGACAC TGTCATTATT 
TTTGATACTG ACTGGAATCC TCATCAAGAT TTGCAAGCTC AGGATAGAGC GCATAGAATA 
GGTCAGAAGA ATGAAGTTAG AATTCTAAGA TTGATTACTA CGAATTCAGT TGAAGAAGTT 
ATCCTAGAGA GAGCCTACAA GAAGCTAGAT ATCGATGGTA AAGTCATTCA AGCAGGTAAA 
TTCGATAACA AATCTACATC GGAGGAACAA GAAGCGTTGC TTAGATCTTT GCTGGATGCA 
GAAGAGGAAC GTAGAAAGAA AAGAGAGTCT GGTGTTGAAG AAGAAGAGGA GTTAAAAGAC 
TCAGAAATCA ACGAAATTCT TGCTCGAAAT GACGAAGAAA TGGCTGTTCT TACAAGGATG 
GATGAAGATA GATCAAAGAA GGAGGAAGAA TTGGGAGTAA AGAGCCGTCT CTTAGAAAAG 
AGTGAATTAC CTGATATTTA CAGTAGAGAT ATTGGTGCCG AGCTCAAACG TGAAGAATCA 
GAATCTGCTG CTGTTTACAA TGGAAGGGGT GCAAGAGAAC GTAAGACGGC AACTTACAAC 
GATAATATGT CTGAAGAACA GTGGTTAAGA CAATTTGAAG TTAGCGATGA TGAAAAAAAT 
GACAAGCAGG CAAGAAAACA ACGAACAAAG AAGGAAGATA AGAGCGAGGC GATTGATGGG 
AATGGAGAAA TTAAAGGCGA AAACATTGAC GCTGATAATG ACGGTCCTAG AATTAATAAT 
ATATCGGCCG AAGATCGGGC AGATACGGAT TTGGCAATGA ATGACGATGA TTTCTTGTCT 
AAAAAGAGAA AGGCAGGAAG GCCCCGTGGA AGACCTAAGA AAGTGAAACT TGAAGGATCT 
GAAAATTCTG AACCACCAGC GCTTGAATCA AGTCCAGTTA CTGGCGATAA CTCTCCCAGT 
GAGGATTTTA TGGACATTCC AAAACCACGT ACAGCGGGAA AAACATCTGT TAAATCAGCA 
AGAACTTCAA CAAGGGGCCG TGGTCGCGGT CGTGGTCGTG GTCGAGGGCG AGGACGTGGA 
CGAGGAAGGC CGCCAAAAGC AAGAAATGGG CTTGATTATG TCCGCACGCC CGCTGCGGCA 
ACGAGTCCTA TTGATATTAG AGAGAAAGTT GCTAAACAAG CTCTAGACTT ATACCACTTT 
GCTCTCAATT ATGAAAATGA AGCTGGAAGG AAACTTTCTG ACATTTTCCT CTCCAAACCT 
TCCAAAGCAC TATATCCCGA CTACTATATG ATTATTAAGT ACCCTGTCGC CTTTGATAAT 
ATTAACACGC ATATTGAAAC GCTAGCTTAC AACTCCCTTA AAGAGACCCT TCAAGACTTT 
CATCTGATAT TTTCCAATGC TAGGATATAC AATACTGAGG GTTCAGTAGT ATACGAAGAC 
TCTTTAGAAC TGGAAAAAGT GGTTACGAAG AAATACTGTG AGATAATGGG CGATAACTCA 
CAACTCGACT TTACTGAATT TGATGAACAG TATGGCACCA GACCCCTCGT CTTGCCTCCT 
GTTGTTACTT CAAGCGTGGC TGAATCTTTC ACAGATGAAG CGGACTCGAG CATGACAGAA 
GCGAGTGTAT AG

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

PubMed

The nucleotide sequence of Saccharomyces cerevisiae chromosome XV.
Nature387(6632 Suppl)98-102(1997 May)
Dujon B,Albermann K,Aldea M,Alexandraki D,Ansorge W,Arino J,Benes V,Bohn C,Bolotin-Fukuhara M,Bordonn? R,Boyer J,Camasses A,Casamayor A,Casas C,Ch?ret G,Cziepluch C,Daignan-Fornier B,Dang DV,de Haan M,Delius H,Durand P,Fairhead C,Feldmann H,Gaillon L,Kleine K

Life with 6000 genes.
Science (New York, N.Y.)274(5287)546, 563-7(1996 Oct)
Goffeau A,Barrell BG,Bussey H,Davis RW,Dujon B,Feldmann H,Galibert F,Hoheisel JD,Jacq C,Johnston M,Louis EJ,Mewes HW,Murakami Y,Philippsen P,Tettelin H,Oliver SG

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SNF2 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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