2022
DOI: 10.1016/j.gde.2022.101953
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Recent insights into the evolution of mutation rates in yeast

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Cited by 9 publications
(3 citation statements)
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“…Our experimental context was, of course, artificial, and the comparatively low mutation rate of the parental strain with intact error-free repair indicates that in the BY strain background error-free repair predominates. Mutation rate in different species, and even in different strains of the same species, can vary by at least an order of magnitude (Fijarczyk et al 2021;Jiang et al 2021;Melde et al 2022), and in most cases the mechanism for the variation is not understood. RAD5 was identified as the main causal locus for the mutation rate variation between the RM11-1a strain and the BY strain (Gou et al 2019), and we found that the rad5 allele in RM11-1a confers increased mutagenesis catalyzed by both Rad5-and PCNA-Ub-mediated error-prone repair.…”
Section: Mutagenic Repair Pathways Can Cause Natural Variation In Mut...mentioning
confidence: 99%
“…Our experimental context was, of course, artificial, and the comparatively low mutation rate of the parental strain with intact error-free repair indicates that in the BY strain background error-free repair predominates. Mutation rate in different species, and even in different strains of the same species, can vary by at least an order of magnitude (Fijarczyk et al 2021;Jiang et al 2021;Melde et al 2022), and in most cases the mechanism for the variation is not understood. RAD5 was identified as the main causal locus for the mutation rate variation between the RM11-1a strain and the BY strain (Gou et al 2019), and we found that the rad5 allele in RM11-1a confers increased mutagenesis catalyzed by both Rad5-and PCNA-Ub-mediated error-prone repair.…”
Section: Mutagenic Repair Pathways Can Cause Natural Variation In Mut...mentioning
confidence: 99%
“…Extensions of Fisher's model assuming a Gaussian fitness landscape predict that the current "adaptedness" of a genotype influences the variance of mutational fitness effects but not the average effect; this is because while relatively more beneficial mutations are available to a maladapted genotype, this is offset by an increase in the severity of deleterious mutations (17). Experimental tests of these predictions have yielded somewhat mixed results (21,22), which we review briefly below (see also (12,23)).…”
Section: Introductionmentioning
confidence: 99%
“…However, caution must be taken in transferring mutation rate estimates between different MA experiments. There is ample evidence that mutation rate is highly experiment-dependent even within a species, with substitution rates differing with strain ploidy, genetic background, and even the environmental conditions in which the mutation accumulation occurred [13][14][15][16]. Recent work using either direct measurement of accumulated mutation number in phenotyped MA lines in Chlamydomonas reinhardtii [17], Drosophila melanogaster [18], mice [19], and Escherichia coli [20] or measuring mutation number and phenotype in parallel MA experiments in a mismatch repair-deficient strain of E. coli [21] has provided more precise estimates of the distribution of mutational effect size in these species.…”
Section: Introductionmentioning
confidence: 99%