Tempo of degeneration across independently evolved non-recombining regions

Carpentier, Fantin; Vega, Ricardo C. Rodrí­guez de la; Jay, Paul; Duhamel, Marine; Shykoff, Jacqui A.; Perlin, Michael H.; Wallen, R. Margaret; Hood, Michael E.; Giraud, Tatiana

doi:10.1101/2021.07.20.453045

Cited by 4 publications

(30 citation statements)

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“…tatarinowii (Fig. 1; Carpentier et al 2021), which suggests an independent evolution in this later lineage. We did not find on M. v. parryi footprints of the light blue stratum previously identified in M. v. caroliniana (Branco et al 2018) 4 and Supplementary Table S5).…”

Section: Evolutionary Strata Beyond Mating-type Locimentioning

confidence: 87%

“…The different genes within each locus have been linked since the emergence of the basidiomycete clade (Coelho et al, 2017;Sun et al, 2019), and recombination suppression extended in the local region around each of the two matingtype loci early in the diversification of Microbotryum fungi, generating independent evolutionary strata around the PR locus (called purple stratum) and HD locus (called blue stratum), and later another stratum (called orange) distal to the purple stratum (Branco et al, 2017). Subsequently, at least eight independent events of recombination suppression involving different chromosomal rearrangements linked the HD and PR loci (Branco et al, 2018;Carpentier et al, 2021). The linkage of PR to HD mating-type determining genes is beneficial under the highly selfing system of Microbotryum fungi; only two mating types are then produced by a diploid individual, leading to a 1/2 compatibility among gametes under inter-tetrad selfing, i.e.…”

Section: Introductionmentioning

confidence: 99%

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Onset and stepwise extensions of recombination suppression are common in mating-type chromosomes of Microbotryum anther-smut fungi

Duhamel

Carpentier

Begerow

et al. 2021

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Sex chromosomes and mating-type chromosomes can display large genomic regions without recombination. Recombination suppression often extended stepwise with time away from the sex- or mating-type-determining genes, generating evolutionary strata of differentiation between alternative sex or mating-type chromosomes. In anther-smut fungi of the Microbotryum genus, recombination suppression evolved repeatedly, linking the two mating-type loci and extended multiple times in regions distal to the mating-type genes. Here, we obtained high-quality genome assemblies of alternative mating types for four Microbotryum fungi. We found an additional event of independent chromosomal rearrangements bringing the two mating-type loci on the same chromosome followed by recombination suppression linking them. We also found, in a new clade analysed here, that recombination suppression between the two mating-type loci occurred in several steps, with first an ancestral recombination suppression between one of the mating-type locus and its centromere; later, completion of recombination suppression up to the second mating-type locus occurred independently in three species. The estimated dates of recombination suppression between the mating-type loci ranged from 0.15 to 3.58 million years ago. In total, this makes at least nine independent events of linkage between the mating-type loci across the Microbotryum genus. Several mating-type locus linkage events occurred through the same types of chromosomal rearrangements, where similar chromosome fissions at centromeres represent convergence in the genomic changes leading to the phenotypic convergence. These findings further highlight Microbotryum fungi as excellent models to study the evolution of recombination suppression.

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Section: Evolutionary Strata Beyond Mating-type Locimentioning

confidence: 87%

Section: Introductionmentioning

confidence: 99%

Onset and stepwise extensions of recombination suppression are common in mating-type chromosomes of Microbotryum anther-smut fungi

Duhamel

Carpentier

Begerow

et al. 2021

Preprint

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“…TE density was generally higher in older evolutionary strata such as the purple stratum (Supplementary Figure S7H, S7J and S7O) and lower in young strata such as the young pink and white strata of M. v. paradoxa (Supplementary Figure S7G). In part because of this variation in TE content, the size of the mating-type chromosomes varied greatly across Microbotryum species (Figure 1B), from 1,177,022 bp in M. scabiosae to 10,060,889 bp in M. v. paradoxa (3,076,521 bp on average); the size of the mating-type chromosomes also varies because different chromosomal rearrangements were at the origin of HD-PR locus linkage (Duhamel et al, 2022). For the same reasons, the size of the non-recombining regions was variable, ranging from 630,774 bp in M. scabiosae to 9,461,162 bp in M. v. paradoxa, thus spanning almost the full length of the mating-type chromosome in this later species (Figure 1B), and being absent in M. intermedium.…”

Section: Higher Content Of Transposable Element and Of Rip-like Footp...mentioning

confidence: 99%

“…Fungal mating-type chromosomes are similarly useful models and share key features with sex chromosomes: they can display large non-recombining regions, with evolutionary strata of different ages as well as footprints of degeneration (Menkis et al ., 2008; Whittle et al ., 2011; Fontanillas et al ., 2015; Idnurm et al ., 2015; Branco et al ., 2018; Hartmann et al ., 2021; Carpentier et al ., 2022). When they occur, the non-recombining regions on fungal mating-type chromosomes are relatively young and some genera display multiple independent events of recombination cessation across closely related species, allowing to study the early stages of genomic degenerescence with independent data points (Carpentier et al ., 2022). In addition, fungi generally have small genomes and can be cultivated at the haploid phase, facilitating genomic assemblies and comparisons.…”

Section: Introductionmentioning

confidence: 99%

Dynamics of transposable element accumulation in the non-recombining regions of mating-type chromosomes in anther-smut fungi

Duhamel

Hood

Vega

et al. 2022

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Background: Transposable element (TE) activity is generally deleterious to the host fitness, so that genomes often evolve TE control mechanisms, and TE copies are purged by recombination and selection. In the absence of recombination, the number of TE insertions usually increases, but the dynamics of such TE accumulations is unknown. Results: In this study, we investigated the tempo of TE accumulation in the non-recombining genomic regions of 15 Microbotryum species, leveraging on a unique dataset of 21 independent evolutionary strata of recombination cessation of different ages in closely related species. We show that TEs have rapidly accumulated following recombination suppression but that the TE content reached a plateau at ca. 50% of occupied base pairs by 1.5 MY following recombination suppression. The same superfamilies repeatedly expanded in independently evolved non-recombining regions, and in particular Helitrons, despite being scarce before recombination suppression. TEs from the most abundant elements, i.e., Copia and Ty3/Gypsy retrotransposon superfamilies, have also expanded independently in the different non-recombining regions. Copia and Ty3 retrotransposons have accumulated through bursts affecting both the non-recombining regions of the mating-type chromosomes and autosomes at the same time, which supports the TE reservoir hypothesis, i.e., that the TEs accumulated in non-recombining regions have a genome-wide impact by transposing to recombining regions. Conclusion: This study sheds light on the genome-wide consequences of the accumulation of TEs in non-recombining regions, thus improving our knowledge on genome evolution.

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“…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: Resultsmentioning

confidence: 99%

Domestication of different varieties in the cheese-making fungusGeotrichum candidum

Bennetot

Vernadet

Perkins

et al. 2022

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Domestication is an excellent model for studying adaptation processes, constituting recent adaptation and diversification, as well as degeneration of unused functions. Geotrichum candidum is a fungus used for cheese making and is also found in other environments such as soil and plants. By analyzing whole genome data from 98 strains, we found that all strains isolated from cheese formed a monophyletic clade. Within the cheese clade, we identified three differentiated populations and we detected footprints of recombination and hybridization. The genetic diversity in the cheese clade was the lowest but remained high compared to other domesticated fungi, indicating milder bottlenecks. Commercial starter strains were scattered across the cheese clade, not constituting a single clonal lineage. The cheese clade was phenotypically differentiated from other populations, with a slower growth on all media even cheese, a prominent production of attractive cheese flavors and a lower proteolytic activity. Furthermore, cheese populations displayed contrasted phenotypes, with one cheese population producing a typical blue cheese flavor and another one displaying denser and fluffier colonies, excluding more efficiently cheese spoiler fungi. Cheese populations lost two beta lactamase-like genes, involved in xenobiotic clearance, and displayed transposable element expansion, likely due to relaxed selection. Our findings suggest the existence of genuine domestication in G. candidum, which led to diversification into three varieties with contrasted phenotypes. Some of the traits acquired by cheese strains indicate convergence with other, distantly related fungi used for cheese maturation.

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Tempo of degeneration across independently evolved non-recombining regions

Cited by 4 publications

References 118 publications

Onset and stepwise extensions of recombination suppression are common in mating-type chromosomes of Microbotryum anther-smut fungi

Onset and stepwise extensions of recombination suppression are common in mating-type chromosomes of Microbotryum anther-smut fungi

Dynamics of transposable element accumulation in the non-recombining regions of mating-type chromosomes in anther-smut fungi

Domestication of different varieties in the cheese-making fungusGeotrichum candidum

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