2022
DOI: 10.1093/molbev/msac060
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Tempo of Degeneration Across Independently Evolved Nonrecombining Regions

Abstract: Recombination is beneficial over the long term, allowing more effective selection. Despite long-term advantages of recombination, local recombination suppression can evolve and lead to genomic degeneration, in particular on sex chromosomes. Here, we investigated the tempo of degeneration in non-recombining regions, i.e., the function curve for the accumulation of deleterious mutations over time, leveraging on 22 independent events of recombination suppression identified on mating-type chromosomes of anther-smu… Show more

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Cited by 15 publications
(19 citation statements)
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References 109 publications
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“…More precisely, recombination suppression may be selected because it protects DNA fragments with fewer deleterious mutations than average in the population, but the load of these mutations will still prove problematic when they become frequent enough to become homozygous; the capture of a permanently heterozygous allele prevents this effect (14). This mechanism can also explain the evolution of successive evolutionary strata, as observed here in S. tetrasporum and, previously, in N. tetrasperma and P. pseudocomata (22,27,27,48), the basidiomycete mushroom Agaricus bisporus (53) and repeatedly in Microbotryum basidiomycete fungi, plant pathogens in natural ecosystems (8,9,18,54). This mechanism may also account for the suppression of recombination in N. tetrasperma .…”
Section: Discussionsupporting
confidence: 77%
See 1 more Smart Citation
“…More precisely, recombination suppression may be selected because it protects DNA fragments with fewer deleterious mutations than average in the population, but the load of these mutations will still prove problematic when they become frequent enough to become homozygous; the capture of a permanently heterozygous allele prevents this effect (14). This mechanism can also explain the evolution of successive evolutionary strata, as observed here in S. tetrasporum and, previously, in N. tetrasperma and P. pseudocomata (22,27,27,48), the basidiomycete mushroom Agaricus bisporus (53) and repeatedly in Microbotryum basidiomycete fungi, plant pathogens in natural ecosystems (8,9,18,54). This mechanism may also account for the suppression of recombination in N. tetrasperma .…”
Section: Discussionsupporting
confidence: 77%
“…We found no enrichment in repeats, rearrangements or non-synonymous substitutions, whereas transposable elements, non-synonymous substitutions and non-optimal codon usage have all been found to increase with time since recombination suppression in the mating-type chromosomes of Microbotryum anther-smut fungi (9,54,62). Gene disruptions due to small indels remain to be investigated.…”
Section: No Sign Of Degeneration In the Non-recombining Regionmentioning
confidence: 63%
“…We found signs of degeneration in the non-recombining region in terms of gene losses and gene disruptions. In contrast, we found no enrichment in repeats, rearrangements or non-synonymous substitutions, whereas transposable elements, non-synonymous substitutions and non-optimal codon usage have all been found to increase with time since recombination suppression in the mating-type chromosomes of Microbotryum anther-smut fungi [9,46,80]. The suppression of recombination may have occurred too recently in S. tetrasporum for these marks of degeneration to evolve or there may be an efficient mechanism of TE control.…”
Section: Signs Of Degeneration In the Non-recombining Regioncontrasting
confidence: 74%
“…This mechanism can also explain the evolution of successive evolutionary strata, as observed here in S. tetrasporum, and previously in N. tetrasperma and P. pseudocomata [26,31,72], but also in the cultivated variety of the basidiomycete mushroom Agaricus bisporus var. bisporus [50], and repeatedly in Microbotryum basidiomycete fungi, plant pathogens in natural ecosystems [8,9,18,80]. All these lineages undergo mostly or only automixis (intra-tetrad mating) and have only two mating types, which has been theoretically shown to favor the sheltering of deleterious alleles near the mating-type locus [16,47,48].…”
Section: Association Between Pseudo-homothallism and Recombination Su...mentioning
confidence: 99%
“…This was the case even in the clonal Cheese_2 population, while degeneration can be expected to be particularly strong in clonally replicated populations as recombination allows more efficient selection. The absence of sexual reproduction in the Cheese_2 population may be too recent to observe degeneration (Carpentier et al, 2022). We also investigated the presence of premature stop codons due to nonsense mutations in all genes with predicted functions in both CLIB 918 and LMA-244 reference genomes.…”
Section: Missing Evidence Of Relaxed Selection In Cheese Populationsmentioning
confidence: 99%