ULS1 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene
Clones
gRNAs

Summary

Gene Symbol	ULS1
Entrez Gene ID	854363
Full Name	translocase ULS1
Synonyms	DIS1,RIS1,TID4
Gene Type	protein-coding
Organism	Saccharomyces cerevisiae S288C

mRNA and Protein(s)

mRNA	Protein	Name
NM_001183610.1	NP_014834.1	translocase ULS1

Pathways from BioSystems
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?

Uls1 contributes to the pathway where intermediates generated at replication forks are dismantled by Srs2 bound to SUMO-PCNA. Upon ULS1 deletion, accumulating Srs2-SUMO-unable to bind PCNA-takes part in an alternative PCNA-independent recombination repair salvage pathway(s)
Title: DNA Damage Tolerance Pathway Choice Through Uls1 Modulation of Srs2 SUMOylation in

deletion of ULS1 restores stability of the rDNA region in sgs1Delta cells.
Title: Swi2/Snf2-like protein Uls1 functions in the Sgs1-dependent pathway of maintenance of rDNA stability and alleviation of replication stress.

End-joining inhibition at telomeres requires the translocase and polySUMO-dependent ubiquitin ligase Uls1.
Title: End-joining inhibition at telomeres requires the translocase and polySUMO-dependent ubiquitin ligase Uls1.

Deletion of ULS1 in cells lacking RAD52 caused a synthetic growth defect accompanied by prolonged S phase and aberrant cell morphology.
Title: The Swi2-Snf2-like protein Uls1 is involved in replication stress response.

In the absence of the Rad54, Rdh54, and Uls1 translocases, Rad51 accumulates spontaneously on chromatin, blocking cell growth and increasing genomic instability. The translocases dissociate Rad51 from sites of nonspecific dsDNA binding during mitosis.
Title: Swi2/Snf2-related translocases prevent accumulation of toxic Rad51 complexes during mitotic growth.

The following ULS1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ULS1 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
OSi03490	NM_001183610.1 Latest version!	Saccharomyces cerevisiae S288C translocase ULS1 (ULS1), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

ORF Online Only Promotion

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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)

ULS1 ( NM_001183610.1 ) cDNA ORF clone, Saccharomyces cerevisiae S288C -> NP_014834.1 Saccharomyces cerevisiae S288C translocase ULS1 (ULS1), partial mRNA.

Price & Availability↑

CloneID	OSi03490
Clone ID Related Accession (Same CDS sequence)	NM_001183610.1
Accession Version	NM_001183610.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4860bp) 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	translocase ULS1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by SGD. This record is derived from an annotated genomic sequence (NC_001147). ##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.

ATGGCAGCAG TACCCACCAT CGACCTTACA CTAGCCGATT CAGATAATGA AGACATATTC 
CATTCTTTTT CGTCTTCAAC AAGTGTGGAT AAGATAGACA TTAGGAAAGA AAATGGGAAA 
TTAAGAATGG CAGGCTTGGA AGTCGCCCAA TCTAATGACG ATGCAGCACG TCAAGCATTC 
CATGTTTTCA AGACGAACAT ATCAAATAAT GAAACCTTCG ATACTATTCT TTCAAAGAGC 
AAGACAATCA CAGACAGTAC CTTCAACAAT GAAAAATCTT CCAACGAAGT AAAACAGCAG 
CAAGTCTTGA AGGAAGAAAC GATGGGATCT TCCAACGATG AGAAGAAAAC ACAAGAGAGC 
AGCCCAAGCG CAGAGATGAT AAAACTTTTT TATGAAAACG ATGATGTGCC GTTATCCGAT 
AGTTTTAAAC AAAAAGAGGA AGGTAAAAGA ATAAATCAGG ATGAGCAAGT GAAGGAAAAT 
ATCTGTGGCA TTTCTTCCTC ATACGTCTCC AAAGACTACG ATGGCGTTGA AGATGATTTC 
GAGCCTAATA CTTGCCAGGA CAGCAATTTG GATTTTCAAG AGGAGAAGTT AAACTTGAAT 
AACAAACCGT CACAGCAACA GTTCAGCGAC CCAGAAACAA AAGATAACAG TTTGAAGAGC 
GAAAACAAAG ACCAAATAAA AGGAGTCACA ACAACAAGTT ATCGTGATTT ACCTATTGAA 
TCTAGTGCTT TCCAGGATTC TGAAACTCAA AATAACTCCA AAAACACTAT ACCTAACATC 
GTAAATGAAA AGCGAACGCC AGCATTACCG TCCAATCTAA GCTCTGTTGA GAGTTCCCTT 
AAAAACGAGA CGGCCAAAGT AGAGGGGAAG ACGACCGTTC GTCTTCCAGG ACTTCAAAAT 
AATGTTGCCT TACTTGAGCA AGAACAAAGT GAACTATTCA AGCACTTTAG TGAACAACCT 
GTCGATATTA GCGATTTTGG TCGTAAGATT AAAAGGAAGC ATAGCGGAGA TTTTGCAGAT 
AACAAGATAC TTAAAAGACC GATATTGCCC TCAAAAAATA TGGACCACAC AACACATAAT 
TCACATGATT CCGAACAGAA AAATAGCTCG ATTATTATTC TTTCAGATGA GGACGAATCT 
GGTGCCGGTA TCAATGATAT AGAAAGTCCT TTGAAAGTTT CTGAACCAAA TACAGCTGAT 
GCGCTTAGGA GCAGTGTACC AGAAGTCATA TCTTTACTTG ACCTACCCAA TATTGACTTG 
AATAACTCAG TAATAAAAGA AGCAAGTGGC AGCAATTCAA TTCCTACATC AGAAACAGAC 
GCACAATCCT CGAGTTCGTC AGTTCTTCAA GGAACTATCA TGACAGAACA AGCTACTCAA 
TCCTCTCAAC ACGAATGTAA CAGTTCACTT GATACTCTAA AAAAAAATCA TCAAAAATTA 
TTGAAGGATT TGAATTCTAG AGAGTCTGAA CTACGTAATG CTCTCAGTTG CTGCAAGACA 
AACTCTGAAA TTTTAAGAAG GAAACTAAGT AGAAGAGAAA AGGAGGTCTC TGATGCTGAA 
AAACATTGGC AGTTATTGTT GACATCGATG GCTAGAGGGG GAAGAACTAT CAGCTCAACT 
CAGCAGATAT TAGTTGATGA AGCTGAGAAC CAATTAAACA AACTGAAGGA AAAAAGACAG 
TTGACAAAAT CGAAGCTAGA TTCAATCAAT TTGAAAATGT ATAATTATAA CGAACAATGG 
AAGTCCTTTG TGCATTCGAA AAATATAAAC CTGCAGAAAT CTTTGGCTGC CCTTGAGCGG 
TCAGCCAGGG ATAGTAAAGC TTCTGCGACC GTAAATAAAA GAAACGAATG CCTGGCTGAG 
AAAGAAAAGC TAGACCAAAT GTTAAAAGAA GGAACCCTAA GCTTCAGTAC CTACAAGCAG 
TTAACAGGGG AGATCCAGCA GAAACTGAAT GACTTGAAAC TGGGGGACCA ACGCACAACT 
GATATCAATA GTGTATTGCC AATAGTACGG CAACCTCTCG CCAAAAGAGA TTTATTTATT 
AAGTCCATTG ATACTGCAAA AGATTTATTA GCCAAGAACA CATCCAGGAC AGAAATGACG 
AAGAGAATTC TTTATAGACA TTTGGACAAC TTGGTCTCTT ATAAAAACTT TTTTGAAGAC 
GGAAGATCCT TAATAGATAT AAACAGAAGA CACGTTGCAC ATGAATCGGC CCAAATATTG 
TTCACCAACG GTGTAAAGAT GCCCATTGTT TTTGAAACAT TACAAGATTA CGGCATCAAG 
TTTTCTAATC CAGCCATTGT CAATCCTGAC AGAAGAGCCC AATATTTTAA AAGCATCGAA 
GTTGCACGCG ATCTCATATC AAAGTCTACT AGATCAGAGG ATGCTAAACG AAAGATTACT 
CGATTTTTGA ATATAATTGA AGAATTTCGT AAAGATATTG ACACCGGATT TCCACCTACT 
CCTTTAAAAA GGGAAGGCGT CGGAAAAGCT GTTGTTGGGC TAAGACAACA AGGACTTAAG 
ATGGACAGAC TATATGAAAA TTTGAGAAGA TATAAGATTC CAATAACAAG TGAAGAATTA 
CTGCAGCAAA GCTATTTATT TCCGGTAAAC GCAGATCAAC GACCTCCTTC AAACTGGAAC 
ATCGTGGAAA ATACCGAAGA TACTAGTTCT ACAGCCAATG ATCTATCGAT GCAAGATGAA 
TTTCACATCT CTAATATGCA TGCAGCAGAA GATCAAGAAC AGATTAGGGC TCTTTTAGAG 
AATGTCAAAC AATCTGAATC CATTATAGAC GGCGAAGCAC TTACTCCCGA GGATATGACC 
GTAAACTTAT TAAAACACCA GAGGCTGGGT CTGCATTGGT TGTTACAAGT TGAAAACTCC 
GCAAAAAAAG GGGGTCTGCT TGCTGACGAT ATGGGCCTGG GTAAAACGAT TCAAGCTATT 
GCATTGATGT TAGCAAATCG CTCAGAGGAA TCCAAATGTA AAACCAATTT GATCGTCGCA 
CCAGTCTCAG TCTTGAGAGT TTGGAAAGGT GAATTAGAAA CGAAAGTAAA AAAACGCGCA 
AAATTTACTA CATTTATTTT TGGAGGATCA GGTAACGGAA AAGTTAAGCA CTGGAGGGAT 
TTGGCAAGAT ATGATGCTGT TTTGGTATCT TATCAAACTC TAGCAAACGA ATTTAAGAAA 
CATTGGCCGA AAAAACTGGA TGGTGAACAA AATCAGCTAC CAGCTGTGCC TCATATACAA 
GCTCTTAATA GGTTGAAAAC CTCAAATGAA TACTACTCTC CATTTTTCTG CAATGATTCA 
ACGTTTTACA GAATTTTACT GGACGAAGGC CAAAACATCA AGAACAAAAA TACAAGGGCT 
TCTAAAGCGT GCTGTACTAT AAATGGAATG TATAGGTGGG TCTTGTCTGG TACGCCGATT 
CAAAATAGTA TGGATGAGCT TTATTCCTTG ATAAGATTTC TAAGAATTCC ACCCTACCAC 
AAGGAGCAAC GGTTTAAATT AGACATTGGA AGGTTTTTTC AGAGAAATAA GCAATATCAA 
TATGATAACG AGGATAGAAA AAACGCATTA AGAAAGGTTA GAGTCCTTCT AAATGCCATT 
ATGCTTCGTC GGTCTAAGGC TGATAAGATC GACGGCAAAC CTTTACTGGA GCTCCCTCCT 
AAAATTGTGG AAGTAGATGA ATCACGCCTG AAGGGAGAGG AATTAAAATT TTACACAGCT 
TTGGAATCAA AAAATCAAGC ACTCGCTAAG AAATTGTTGA ACAATTCTAC GAGGGGGAGC 
TACTCTAGCG TTCTCACATT ACTACTTCGC TTAAGGCAGG CTTGTTGTCA TTCAGAATTA 
GTTGTGATGG GAGAAAAAAA AGCGGAAGGT ACAAAGGTAG CTAACGGCAA AAGCTTTGAA 
GATGACTGGC TCAGGCTCTA CTATAAAATC ACTCACATGA GCGGAGAAGC GCAGGCTCAG 
GTTATTACTT CAATGAATTC TATGACATGT TTCTGGTGCA TGGAACAATT AGAACCAGAA 
GCGATGTCCG TTCTGACAGG TTGTGGTCAT TTGATTTGCG ACACTTGTAT CGAGCCCTTC 
ATCGAAGAGT CATCCATGCT ACCTCAGGCC AAGAAAACCA AAGGTGGGGC ATTTGCTATC 
CCATGCAAAG ATTGTCAACG TTTGACAAAC GAGAAAGATA TTGTTTCGCA CAAGTTATAC 
GACCAGGTAA TAAACCAGGG ATTTACTGAG GAAGATTTGC ATGCAGAGTA TTTAAGTGAA 
ATGGAGAAAC AAAAAATACA GCAAAAAAAT GTATATGTGC CAAATTTTGA GAGTTTAGAA 
CCATCTACGA AGATAGAGCA ATGTATACAG GTTATTCAAA GAGTTTTTGA TGAATCAGCA 
ACCGAAAAAA TTATTATTTT TTCCCAGTTT ACAACATTTT TTGAGATTCT CGAACATTTT 
CTCAAAAATA AACTGAATTT TCCCTACTTG AAATATATTG GATCAATGAA CGCTCAGAGA 
AGATCAGATG TTATCAACGA ATTTTATCGT GACCCTGAGA AAAGGATACT TCTGATTTCC 
ATGAAAGCCG GTAACTCAGG ACTAACATTG ACATGTGCGA ACCATGTAGT TATAGTTGAT 
CCATTTTGGA ATCCTTACGT CGAAGAACAA GCTCAAGACC GTTGCTATAG AATTAGTCAA 
ACAAAAAAAG TCCAGGTGCA TAAATTGTTT ATAAAGGACT CTGTTGAGGA TCGTATTTCT 
GAATTACAGA AGAGAAAGAA GGAAATGGTC GATTCTGCCA TGGACCCAGG CAAGATAAAG 
GAAGTGAATA GTTTAGGGCG TCGGGAGTTA GGATTTTTAT TTGGTTTAAA CGCTCTTTGA

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

RefSeq	NP_014834.1
CDS	1..4860
Translation	MAAVPTIDLTLADSDNEDIFHSFSSSTSVDKIDIRKENGKLRMAGLEVAQSNDDAARQAFHVFKTNISNNETFDTILSKSKTITDSTFNNEKSSNEVKQQQVLKEETMGSSNDEKKTQESSPSAEMIKLFYENDDVPLSDSFKQKEEGKRINQDEQVKENICGISSSYVSKDYDGVEDDFEPNTCQDSNLDFQEEKLNLNNKPSQQQFSDPETKDNSLKSENKDQIKGVTTTSYRDLPIESSAFQDSETQNNSKNTIPNIVNEKRTPALPSNLSSVESSLKNETAKVEGKTTVRLPGLQNNVALLEQEQSELFKHFSEQPVDISDFGRKIKRKHSGDFADNKILKRPILPSKNMDHTTHNSHDSEQKNSSIIILSDEDESGAGINDIESPLKVSEPNTADALRSSVPEVISLLDLPNIDLNNSVIKEASGSNSIPTSETDAQSSSSSVLQGTIMTEQATQSSQHECNSSLDTLKKNHQKLLKDLNSRESELRNALSCCKTNSEILRRKLSRREKEVSDAEKHWQLLLTSMARGGRTISSTQQILVDEAENQLNKLKEKRQLTKSKLDSINLKMYNYNEQWKSFVHSKNINLQKSLAALERSARDSKASATVNKRNECLAEKEKLDQMLKEGTLSFSTYKQLTGEIQQKLNDLKLGDQRTTDINSVLPIVRQPLAKRDLFIKSIDTAKDLLAKNTSRTEMTKRILYRHLDNLVSYKNFFEDGRSLIDINRRHVAHESAQILFTNGVKMPIVFETLQDYGIKFSNPAIVNPDRRAQYFKSIEVARDLISKSTRSEDAKRKITRFLNIIEEFRKDIDTGFPPTPLKREGVGKAVVGLRQQGLKMDRLYENLRRYKIPITSEELLQQSYLFPVNADQRPPSNWNIVENTEDTSSTANDLSMQDEFHISNMHAAEDQEQIRALLENVKQSESIIDGEALTPEDMTVNLLKHQRLGLHWLLQVENSAKKGGLLADDMGLGKTIQAIALMLANRSEESKCKTNLIVAPVSVLRVWKGELETKVKKRAKFTTFIFGGSGNGKVKHWRDLARYDAVLVSYQTLANEFKKHWPKKLDGEQNQLPAVPHIQALNRLKTSNEYYSPFFCNDSTFYRILLDEGQNIKNKNTRASKACCTINGMYRWVLSGTPIQNSMDELYSLIRFLRIPPYHKEQRFKLDIGRFFQRNKQYQYDNEDRKNALRKVRVLLNAIMLRRSKADKIDGKPLLELPPKIVEVDESRLKGEELKFYTALESKNQALAKKLLNNSTRGSYSSVLTLLLRLRQACCHSELVVMGEKKAEGTKVANGKSFEDDWLRLYYKITHMSGEAQAQVITSMNSMTCFWCMEQLEPEAMSVLTGCGHLICDTCIEPFIEESSMLPQAKKTKGGAFAIPCKDCQRLTNEKDIVSHKLYDQVINQGFTEEDLHAEYLSEMEKQKIQQKNVYVPNFESLEPSTKIEQCIQVIQRVFDESATEKIIIFSQFTTFFEILEHFLKNKLNFPYLKYIGSMNAQRRSDVINEFYRDPEKRILLISMKAGNSGLTLTCANHVVIVDPFWNPYVEEQAQDRCYRISQTKKVQVHKLFIKDSVEDRISELQKRKKEMVDSAMDPGKIKEVNSLGRRELGFLFGLNAL

Target ORF information:

RefSeq Version	NM_001183610.1
Organism	Saccharomyces cerevisiae S288C
Definition	Saccharomyces cerevisiae S288C translocase ULS1 (ULS1), partial mRNA.

Target ORF information:

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

NM_001183610.1

ORF Insert Sequence:

ATGGCAGCAG TACCCACCAT CGACCTTACA CTAGCCGATT CAGATAATGA AGACATATTC 
CATTCTTTTT CGTCTTCAAC AAGTGTGGAT AAGATAGACA TTAGGAAAGA AAATGGGAAA 
TTAAGAATGG CAGGCTTGGA AGTCGCCCAA TCTAATGACG ATGCAGCACG TCAAGCATTC 
CATGTTTTCA AGACGAACAT ATCAAATAAT GAAACCTTCG ATACTATTCT TTCAAAGAGC 
AAGACAATCA CAGACAGTAC CTTCAACAAT GAAAAATCTT CCAACGAAGT AAAACAGCAG 
CAAGTCTTGA AGGAAGAAAC GATGGGATCT TCCAACGATG AGAAGAAAAC ACAAGAGAGC 
AGCCCAAGCG CAGAGATGAT AAAACTTTTT TATGAAAACG ATGATGTGCC GTTATCCGAT 
AGTTTTAAAC AAAAAGAGGA AGGTAAAAGA ATAAATCAGG ATGAGCAAGT GAAGGAAAAT 
ATCTGTGGCA TTTCTTCCTC ATACGTCTCC AAAGACTACG ATGGCGTTGA AGATGATTTC 
GAGCCTAATA CTTGCCAGGA CAGCAATTTG GATTTTCAAG AGGAGAAGTT AAACTTGAAT 
AACAAACCGT CACAGCAACA GTTCAGCGAC CCAGAAACAA AAGATAACAG TTTGAAGAGC 
GAAAACAAAG ACCAAATAAA AGGAGTCACA ACAACAAGTT ATCGTGATTT ACCTATTGAA 
TCTAGTGCTT TCCAGGATTC TGAAACTCAA AATAACTCCA AAAACACTAT ACCTAACATC 
GTAAATGAAA AGCGAACGCC AGCATTACCG TCCAATCTAA GCTCTGTTGA GAGTTCCCTT 
AAAAACGAGA CGGCCAAAGT AGAGGGGAAG ACGACCGTTC GTCTTCCAGG ACTTCAAAAT 
AATGTTGCCT TACTTGAGCA AGAACAAAGT GAACTATTCA AGCACTTTAG TGAACAACCT 
GTCGATATTA GCGATTTTGG TCGTAAGATT AAAAGGAAGC ATAGCGGAGA TTTTGCAGAT 
AACAAGATAC TTAAAAGACC GATATTGCCC TCAAAAAATA TGGACCACAC AACACATAAT 
TCACATGATT CCGAACAGAA AAATAGCTCG ATTATTATTC TTTCAGATGA GGACGAATCT 
GGTGCCGGTA TCAATGATAT AGAAAGTCCT TTGAAAGTTT CTGAACCAAA TACAGCTGAT 
GCGCTTAGGA GCAGTGTACC AGAAGTCATA TCTTTACTTG ACCTACCCAA TATTGACTTG 
AATAACTCAG TAATAAAAGA AGCAAGTGGC AGCAATTCAA TTCCTACATC AGAAACAGAC 
GCACAATCCT CGAGTTCGTC AGTTCTTCAA GGAACTATCA TGACAGAACA AGCTACTCAA 
TCCTCTCAAC ACGAATGTAA CAGTTCACTT GATACTCTAA AAAAAAATCA TCAAAAATTA 
TTGAAGGATT TGAATTCTAG AGAGTCTGAA CTACGTAATG CTCTCAGTTG CTGCAAGACA 
AACTCTGAAA TTTTAAGAAG GAAACTAAGT AGAAGAGAAA AGGAGGTCTC TGATGCTGAA 
AAACATTGGC AGTTATTGTT GACATCGATG GCTAGAGGGG GAAGAACTAT CAGCTCAACT 
CAGCAGATAT TAGTTGATGA AGCTGAGAAC CAATTAAACA AACTGAAGGA AAAAAGACAG 
TTGACAAAAT CGAAGCTAGA TTCAATCAAT TTGAAAATGT ATAATTATAA CGAACAATGG 
AAGTCCTTTG TGCATTCGAA AAATATAAAC CTGCAGAAAT CTTTGGCTGC CCTTGAGCGG 
TCAGCCAGGG ATAGTAAAGC TTCTGCGACC GTAAATAAAA GAAACGAATG CCTGGCTGAG 
AAAGAAAAGC TAGACCAAAT GTTAAAAGAA GGAACCCTAA GCTTCAGTAC CTACAAGCAG 
TTAACAGGGG AGATCCAGCA GAAACTGAAT GACTTGAAAC TGGGGGACCA ACGCACAACT 
GATATCAATA GTGTATTGCC AATAGTACGG CAACCTCTCG CCAAAAGAGA TTTATTTATT 
AAGTCCATTG ATACTGCAAA AGATTTATTA GCCAAGAACA CATCCAGGAC AGAAATGACG 
AAGAGAATTC TTTATAGACA TTTGGACAAC TTGGTCTCTT ATAAAAACTT TTTTGAAGAC 
GGAAGATCCT TAATAGATAT AAACAGAAGA CACGTTGCAC ATGAATCGGC CCAAATATTG 
TTCACCAACG GTGTAAAGAT GCCCATTGTT TTTGAAACAT TACAAGATTA CGGCATCAAG 
TTTTCTAATC CAGCCATTGT CAATCCTGAC AGAAGAGCCC AATATTTTAA AAGCATCGAA 
GTTGCACGCG ATCTCATATC AAAGTCTACT AGATCAGAGG ATGCTAAACG AAAGATTACT 
CGATTTTTGA ATATAATTGA AGAATTTCGT AAAGATATTG ACACCGGATT TCCACCTACT 
CCTTTAAAAA GGGAAGGCGT CGGAAAAGCT GTTGTTGGGC TAAGACAACA AGGACTTAAG 
ATGGACAGAC TATATGAAAA TTTGAGAAGA TATAAGATTC CAATAACAAG TGAAGAATTA 
CTGCAGCAAA GCTATTTATT TCCGGTAAAC GCAGATCAAC GACCTCCTTC AAACTGGAAC 
ATCGTGGAAA ATACCGAAGA TACTAGTTCT ACAGCCAATG ATCTATCGAT GCAAGATGAA 
TTTCACATCT CTAATATGCA TGCAGCAGAA GATCAAGAAC AGATTAGGGC TCTTTTAGAG 
AATGTCAAAC AATCTGAATC CATTATAGAC GGCGAAGCAC TTACTCCCGA GGATATGACC 
GTAAACTTAT TAAAACACCA GAGGCTGGGT CTGCATTGGT TGTTACAAGT TGAAAACTCC 
GCAAAAAAAG GGGGTCTGCT TGCTGACGAT ATGGGCCTGG GTAAAACGAT TCAAGCTATT 
GCATTGATGT TAGCAAATCG CTCAGAGGAA TCCAAATGTA AAACCAATTT GATCGTCGCA 
CCAGTCTCAG TCTTGAGAGT TTGGAAAGGT GAATTAGAAA CGAAAGTAAA AAAACGCGCA 
AAATTTACTA CATTTATTTT TGGAGGATCA GGTAACGGAA AAGTTAAGCA CTGGAGGGAT 
TTGGCAAGAT ATGATGCTGT TTTGGTATCT TATCAAACTC TAGCAAACGA ATTTAAGAAA 
CATTGGCCGA AAAAACTGGA TGGTGAACAA AATCAGCTAC CAGCTGTGCC TCATATACAA 
GCTCTTAATA GGTTGAAAAC CTCAAATGAA TACTACTCTC CATTTTTCTG CAATGATTCA 
ACGTTTTACA GAATTTTACT GGACGAAGGC CAAAACATCA AGAACAAAAA TACAAGGGCT 
TCTAAAGCGT GCTGTACTAT AAATGGAATG TATAGGTGGG TCTTGTCTGG TACGCCGATT 
CAAAATAGTA TGGATGAGCT TTATTCCTTG ATAAGATTTC TAAGAATTCC ACCCTACCAC 
AAGGAGCAAC GGTTTAAATT AGACATTGGA AGGTTTTTTC AGAGAAATAA GCAATATCAA 
TATGATAACG AGGATAGAAA AAACGCATTA AGAAAGGTTA GAGTCCTTCT AAATGCCATT 
ATGCTTCGTC GGTCTAAGGC TGATAAGATC GACGGCAAAC CTTTACTGGA GCTCCCTCCT 
AAAATTGTGG AAGTAGATGA ATCACGCCTG AAGGGAGAGG AATTAAAATT TTACACAGCT 
TTGGAATCAA AAAATCAAGC ACTCGCTAAG AAATTGTTGA ACAATTCTAC GAGGGGGAGC 
TACTCTAGCG TTCTCACATT ACTACTTCGC TTAAGGCAGG CTTGTTGTCA TTCAGAATTA 
GTTGTGATGG GAGAAAAAAA AGCGGAAGGT ACAAAGGTAG CTAACGGCAA AAGCTTTGAA 
GATGACTGGC TCAGGCTCTA CTATAAAATC ACTCACATGA GCGGAGAAGC GCAGGCTCAG 
GTTATTACTT CAATGAATTC TATGACATGT TTCTGGTGCA TGGAACAATT AGAACCAGAA 
GCGATGTCCG TTCTGACAGG TTGTGGTCAT TTGATTTGCG ACACTTGTAT CGAGCCCTTC 
ATCGAAGAGT CATCCATGCT ACCTCAGGCC AAGAAAACCA AAGGTGGGGC ATTTGCTATC 
CCATGCAAAG ATTGTCAACG TTTGACAAAC GAGAAAGATA TTGTTTCGCA CAAGTTATAC 
GACCAGGTAA TAAACCAGGG ATTTACTGAG GAAGATTTGC ATGCAGAGTA TTTAAGTGAA 
ATGGAGAAAC AAAAAATACA GCAAAAAAAT GTATATGTGC CAAATTTTGA GAGTTTAGAA 
CCATCTACGA AGATAGAGCA ATGTATACAG GTTATTCAAA GAGTTTTTGA TGAATCAGCA 
ACCGAAAAAA TTATTATTTT TTCCCAGTTT ACAACATTTT TTGAGATTCT CGAACATTTT 
CTCAAAAATA AACTGAATTT TCCCTACTTG AAATATATTG GATCAATGAA CGCTCAGAGA 
AGATCAGATG TTATCAACGA ATTTTATCGT GACCCTGAGA AAAGGATACT TCTGATTTCC 
ATGAAAGCCG GTAACTCAGG ACTAACATTG ACATGTGCGA ACCATGTAGT TATAGTTGAT 
CCATTTTGGA ATCCTTACGT CGAAGAACAA GCTCAAGACC GTTGCTATAG AATTAGTCAA 
ACAAAAAAAG TCCAGGTGCA TAAATTGTTT ATAAAGGACT CTGTTGAGGA TCGTATTTCT 
GAATTACAGA AGAGAAAGAA GGAAATGGTC GATTCTGCCA TGGACCCAGG CAAGATAAAG 
GAAGTGAATA GTTTAGGGCG TCGGGAGTTA GGATTTTTAT TTGGTTTAAA CGCTCTTTGA

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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オンライン注文

ULS1 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

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