Patterns of Genomic Variation in the Opportunistic Pathogen Candida glabrata Suggest the Existence of Mating and a Secondary Association with Humans

Carreté, Laia; Ksiezopolska, Ewa; Pegueroles, Cinta; Gómez-Molero, Emilia; Saus, Ester; Iraola-Guzmán, Susana; Loska, Damian; Bader, Oliver; Fairhead, Cécile; Gabaldón, Toni

doi:10.1016/j.cub.2017.11.027

Cited by 99 publications

(182 citation statements)

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“…Other early such examples included Aspergillus flavus (Geiser et al ., ), Cenococcum geophilum (LoBuglio and Taylor, ) and Fusarium oxysporum (Koenig et al ., ). Similar observations continued with the introduction of the population genomics, which was, for example, used to show that C. glabrata , a presumed asexual species, can recombine (Carreté et al ., ).…”

Section: Discussionmentioning

confidence: 97%

“…The SNP density in S. cerevisiae is 0.55% in wild strains and 0.41% in domesticated strains (Peter et al, 2018), in Neurospora. crassa this is 0.41% (Pomraning et al, 2011) and in Candida glabrata, 0.47%-0.66% (Carreté et al, 2018). The number of core genes was modest (3637)the core genome of S. cerevisiae contains almost 5000 genes, and that estimate is based on over 1000 genomes (Peter et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

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Fifty Aureobasidium pullulans genomes reveal a recombining polyextremotolerant generalist

Gostinčar

Turk

Zajc

et al. 2019

Environmental Microbiology

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Summary The black yeast Aureobasidium pullulans is a textbook example of a generalistic and ubiquitous fungus thriving in a wide variety of environments. To investigate whether A. pullulans is a true generalist, or alternatively, whether part of its versatility can be attributed to intraspecific specialization masked by cryptic diversification undetectable by traditional phylogenetic analyses, we sequenced and analysed the genomes of 50 strains of A. pullulans from different habitats and geographic locations. No population structure was observed in the sequenced strains. Decay of linkage disequilibrium over shorter physical distances (<100 bp) than in many sexually reproducing fungi indicates a high level of recombination in the species. A homothallic mating locus was found in all of the sequenced genomes. Aureobasidium pullulans appears to have a homogeneous population genetics structure, which is best explained by good dispersal and high levels of recombination. This means that A. pullulans is a true generalist that can inhabit different habitats without substantial specialization to any of these habitats at the genomic level. Furthermore, in the future, the high level of A. pullulans recombination can be exploited for the identification of genomic loci that are involved in the many biotechnologically useful traits of this black yeast.

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Section: Discussionmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

Fifty Aureobasidium pullulans genomes reveal a recombining polyextremotolerant generalist

Gostinčar

Turk

Zajc

et al. 2019

Environmental Microbiology

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“…To gain novel insight into these open questions, we recently sequenced the genomes of 33 clinical C. glabrata isolates from around the globe and reconstructed their recent evolution (Carreté et al 2018). Using this genetic information, we reconstructed a ‘family tree’ for all the strains.…”

Section: Resolving Puzzles From Genomics Footprintsmentioning

confidence: 99%

Genomes shed light on the secret life of Candida glabrata: not so asexual, not so commensal

Gabaldón

Fairhead

2018

Curr Genet

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Candida glabrata is an opportunistic yeast pathogen, whose incidence has increased over the last decades. Despite its genus name, this species is actually more closely related to the budding yeast Saccharomyces cerevisiae than to other Candida pathogens, such as Candida albicans. Hence, C. glabrata and C. albicans must have acquired the ability to infect humans independently, which is reflected in the use of different mechanism for virulence, and survival in the host. Yet, research on C. glabrata suffers from assumptions carried over from the more studied C. albicans. Regarding the adaptation of C. glabrata to the human host, the prejudice was that, just as C. albicans, C. glabrata is a natural human commensal that turns deadly when immune defenses weaken. It was also considered asexual, as no one has observed mating, diploids, or spores, despite great efforts. However, the recent analysis of whole genomes from globally distributed C. glabrata isolates have shaken these assumptions. C. glabrata seems to be only secondarily associated to humans, as indicated by a lack of co-evolution with its host, and genomic footprints of recombination shows compelling evidence that this yeast is able to have sex. Here, we discuss the implications of this and other recent findings and highlight the new questions opened by this change in paradigm.

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“…With the currently available sequencing technologies, it is now possible to explore the intraspecific variability of a species at the genome-wide level. Such population genomic studies have been performed on multiple yeast species, including S. cerevisiae (Peter, et al 2018;Skelly, et al 2013;Bergström, et al 2014;Strope, et al 2015;Almeida, et al 2015;Zhu, et al 2016;Gonçalves, et al 2016, Gallone, et al 2016 and Schizosaccharomyces pombe (Fawcett, et al 2014;Jeffares, et al 2015) but also non-model yeast species (Leducq, et al 2016;Carreté, et al 2018;Hirakawa, et al 2015;Ford, et al 2015;Ropars, et al 2018;Friedrich, et al 2015;Ortiz-Merino, et al 2018), granting better insights into their respective evolutionary histories as well as genotype-phenotype relationships.…”

Section: Introductionmentioning

confidence: 99%

High complexity and degree of genetic variation inBrettanomyces bruxellensispopulation

Gounot

Neuvéglise

Freel

et al. 2019

Preprint

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AbstractGenome-wide characterization of genetic variants of a large population of individuals within the same species is essential to have a deeper insight into its evolutionary history as well as the genotype-phenotype relationship. Population genomic surveys have been performed in multiple yeast species, including the two model organisms, Saccharomyces cerevisiae and Schizosaccharomyces pombe. In this context, we sought to explore an uncharacterized yeast species, Brettanomyces bruxellensis, which is a major cause of wine spoilage but also can contribute to the specific flavor profile of some Belgium beers. We have completely sequenced the genome of 53 B. bruxellensis strains isolated worldwide. The annotation of the reference genome allowed us to define the gene content of this species. As previously suggested, our genomic data clearly highlighted that genetic diversity variation is related to ploidy level, which is variable in the B. bruxellensis species. Genomes are punctuated by multiple loss-of-heterozygosity regions while aneuploidies as well as segmental duplications are uncommon. Interestingly, triploid genomes are more prone to gene copy number variation than diploids. Finally, the pangenome of the species was reconstructed and was found to be small with few accessory genes compared to S. cerevisiae. The pangenome is composed of 4,923 core ORFs and 303 ORFs that are variable within the population. All these results highlight the different trajectories of species evolution and consequently the interest of establishing population genomic surveys in more populations.

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Patterns of Genomic Variation in the Opportunistic Pathogen Candida glabrata Suggest the Existence of Mating and a Secondary Association with Humans

Cited by 99 publications

References 64 publications

Fifty Aureobasidium pullulans genomes reveal a recombining polyextremotolerant generalist

Fifty Aureobasidium pullulans genomes reveal a recombining polyextremotolerant generalist

Genomes shed light on the secret life of Candida glabrata: not so asexual, not so commensal

High complexity and degree of genetic variation inBrettanomyces bruxellensispopulation

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