Your search keyword '"error-prone repair"' showing total 2 results

1. RNR4 mutant alleles pso3-1 and rnr4Δ block induced mutation in Saccharomyces cerevisiae.

Author

Strauss, Martin, Grey, Martin, Pegas Henriques, João Antonio, and Brendel, Martin

Subjects

*SACCHAROMYCES cerevisiae, *GENETIC mutation, *GENES, *CLONING, *DNA, *MUTAGENESIS

Abstract

The PSO3 gene of Saccharomyces cerevisiae was molecularly cloned by complementing the cold-sensitivity phenotype of a pso3-1 mutant and was found to be allelic to RNR4, encoding one of the two DNA damage-inducible small subunits of the ribonucleotide reductase (RNR) complex. Compared to a rnr4Δ mutant that allows only very little mutation induction at very low doses of 254nm ultraviolet light (UVC), the pso3-1 mutant allele confers leakiness in that it permits some DNA damage-induced mutagenesis at low doses of UVC. Similarly, the pso3 mutant is slightly less sensitive to UVC than an rnr4Δ mutant. Cloning and sequencing of the RNR4 locus of the pso3-1 mutant revealed that its intermediate phenotype is attributable to a G → A transition at nucleotide 352, leading to replacement of glycine by arginine [G118R] in the mutant’s protein. Both RNR4 mutant alleles confer significantly less sensitivity to UVC than mutant alleles of non-UVC-mutable REV3, indicating that, apart from nucleotide excision repair, RAD6-dependent error-free DNA repair may still be functional. The phenotype of a strongly reduced UVC-induced mutagenesis for rnr4 mutant alleles has not yet been described; it suggests the importance of this gene for a fully functional RNR providing correct amounts of DNA precursor molecules, thereby, allowing translesion synthesis (error-prone) of UVC-damaged DNA. Stationary phase cells of the rnr4Δ mutant, but not of the original pso3-1 mutant, are swollen with a fourfold to eightfold increase in volume. The central role of RNR in DNA precursor metabolism and its complex regulation allow for several modes of suppression that may influence the phenotypes of RNR4 mutants, especially those containing the leaky pso3-1 mutant allele. [ABSTRACT FROM AUTHOR]

Published

2007

2. Low glutathione pools in the original pso3 mutant of Saccharomyces cerevisiae are responsible for its pleiotropic sensitivity phenotype.

Author

Brendel, M., Grey, M., Maris, A. F., Hietkamp, J., Fesus, Z., Pich, C. T., Dafré, A. L., Schmidt, M., Eckardt-Schupp, F., and Henriques, J. A. P.

Abstract

The original pso3-1 mutant isolate of the yeast Saccharomyces cerevisiae exhibits a pleiotropic mutagen-sensitivity phenotype that includes sensitivity to UVA-activated 3-carbethoxypsoralen, to UVC-light, to mono- and bi-functional nitrogen mustard, to paraquat, and to cadmium; on the other hand, it shows hyper-resistance (HYR) to nitrosoguanidine when compared to established wild-type strains. Also, the original pso3-1 mutant exhibits a low UVC-induced mutability and mitotic gene conversion and a high rate of spontaneous and UVC-induced petite mutations. Since the HYR to the nitrosoguanidine (MNNG) phenotype resembles that of low glutathione-containing yeast cells, the original pso3-1 mutant was crossed to a gsh1 knock-out mutant that lacks the enzyme for the first step in glutathione biosynthesis and the resulting diploid was tested for complementation. While there was none for HYR to nitrosoguanidine, and other low glutathione-related phenotypes, some other phenotypic characteristics of pso3-1, e.g. UVC sensitivity and UVC-induced mutability were restored to a wild-type level. Tetrad analysis of a diploid derived from a cross of the original haploid pso3-1 isolate with a repair-proficient, normal glutathione-containing, PSO3 GSH1 wild-type led to the separation of a leaky gsh1 mutation phenotype from that of the repair-deficient pso3-1 phenotype. Linkage studies by tetrad and random spore analyses indicated no linkage of the two genes. This shows that the low glutathione content in the original pso3-1 isolate is due to a second, additional, mutation in the GSH1 locus and is unrelated to the pso3-1 mutation. Thus, the original pso3-1 isolate is a pso3-1 gsh1 double mutant with most of the particular characteristics of the pleiotropic sensitivity phenotype contributed by either the pso3-1 or the gsh1-leaky mutant allele. The expression of a few phenotypic characteristics of pso3, however, were most pronounced in pso3-1 mutants with a low glutathione pool. [ABSTRACT FROM AUTHOR]

Published

1998