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Genetic characterization of hyperresistance to formaldehyde and 4-nitroquinoline-N-oxide in the yeast Saccharomyces cerevisiae

✍ Scribed by Mack, Michael ;Gömpel-Klein, Patricia ;Haase, Eckard ;Hictkamp, Jürgen ;Ruhland, Axel ;Brendel, Martin

Publisher
Springer
Year
1988
Tongue
English
Weight
589 KB
Volume
211
Category
Article
ISSN
0026-8925

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✦ Synopsis

The hyperresistance to 4-nitroquinoline-N-oxide (4-NQO) and formaldehyde (FA) of yeast strains transformed with the multi-copy plasmids pAR172 and pAR184, respectively, is due to the two genes, SNQ and SFA, which are present on these plasmids. Restriction analysis revealed the maximal size of SFA as 2.7 kb and of SNQ as 2.2 kb, including transcription control elements. The presence of the smallest 2.7 kb subclone carrying SFA increased hyperresistance to formaldehyde fivefold over that of the original pAR184 isolate. No such increase in hyperresistance to 4-NQO was seen with the smaller subclones of the pAR172 isolate. Disruption of the SFA gene led to a threefold increase in sensitivity to FA as compared with the wild type. Expression of gene SNQ introduced on a multi-copy vector into haploid yeast mutants rad2, rad3, and snm1 did not complement these mutations that block excision repair.

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Molecular characterization of the two ge
Molecular characterization of the two genesSNQandSFAthat confer Hyperresistance to 4-nitroquinoline-N-oxide and formaldehyde inSaccharomyces cerevisiae
✍ Patricia Gömpel-Klein; Michael Mack; Martin Brendel 📂 Article 📅 1989 🏛 Springer-Verlag 🌐 English ⚖ 937 KB

The genes SNQ and SFA confer hyperresistance to 4-NQO and FA when present on a multi-copy plasmid in yeast. Both are non-essential genes since transplacement of SNQ by a disrupted snq-0::LEU2 yielded stable and viable haploid integrants. Southern analysis revealed that SNQ and SFA are single-loci ge