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1.
FEMS Yeast Res ; 20(3)2020 05 01.
Article in English | MEDLINE | ID: mdl-32196094

ABSTRACT

Saccharomyces cerevisiae is the most extensively studied yeast and, over the last century, provided insights on the physiology, genetics, cellular biology and molecular mechanisms of eukaryotes. More recently, the increase in the discovery of wild strains, species and hybrids of the genus Saccharomyces has shifted the attention towards studies on genome evolution, ecology and biogeography, with the yeast becoming a model system for population genomic studies. The genus currently comprises eight species, some of clear industrial importance, while others are confined to natural environments, such as wild forests devoid from human domestication activities. To date, numerous studies showed that some Saccharomyces species form genetically diverged populations that are structured by geography, ecology or domestication activity and that the yeast species can also hybridize readily both in natural and domesticated environments. Much emphasis is now placed on the evolutionary process that drives phenotypic diversity between species, hybrids and populations to allow adaptation to different niches. Here, we provide an update of the biodiversity, ecology and population structure of the Saccharomyces species, and recapitulate the current knowledge on the natural history of Saccharomyces genus.


Subject(s)
Adaptation, Physiological/genetics , Ecology , Genetic Variation , Phylogeography , Saccharomyces/classification , Saccharomyces/genetics , Genome, Fungal , Hybridization, Genetic , Saccharomyces/physiology
2.
Environ Microbiol Rep ; 11(2): 206-214, 2019 04.
Article in English | MEDLINE | ID: mdl-30507071

ABSTRACT

The species of the genus Saccharomyces are commonly inhabiting tree bark and the surrounding soil, but their abundance have likely been underestimated due to biases in culturing methods. Metagenomic studies have so far been unable to detect Saccharomyces species in wild environments. Here, we sequenced the mycobiome of soils surrounding different trees at various altitudes in the Italian Alps. To survey for yeasts species belonging to Saccharomyces genus rather than other fungal species, we performed a selectivity step involving the isolation of the internal transcribed spacer (ITS) region that is specific to this yeast group. Reads mapping to Saccharomyces species were detected in all soil samples, including reads for S. mikatae and for S. eubayanus. ITS1 alignment of the S. cerevisiae, S. paradoxus and S. kudriavzevii sequences showed up to three base pair polymorphisms with other known strains, indicating possible new lineages. Basidiomycetous fungi were still the dominant species, compared to the Ascomycota, but the selectivity step allowed for the first time the detection and study of the biodiversity of the Saccharomyces species in their natural environment.


Subject(s)
Biodiversity , Metagenomics/methods , Saccharomyces/genetics , Soil Microbiology , DNA, Fungal/genetics , DNA, Ribosomal Spacer/genetics , Genome, Fungal/genetics , Italy , Saccharomyces/classification , Saccharomyces/isolation & purification , Saccharomyces cerevisiae/classification , Saccharomyces cerevisiae/genetics , Saccharomyces cerevisiae/isolation & purification , Sequence Analysis, DNA , Trees
3.
G3 (Bethesda) ; 8(9): 2967-2977, 2018 08 30.
Article in English | MEDLINE | ID: mdl-30097472

ABSTRACT

Saccharomyces sensu stricto complex consist of yeast species, which are not only important in the fermentation industry but are also model systems for genomic and ecological analysis. Here, we present the complete genome assemblies of Saccharomyces jurei, a newly discovered Saccharomyces sensu stricto species from high altitude oaks. Phylogenetic and phenotypic analysis revealed that S. jurei is more closely related to S. mikatae, than S. cerevisiae, and S. paradoxus The karyotype of S. jurei presents two reciprocal chromosomal translocations between chromosome VI/VII and I/XIII when compared to the S. cerevisiae genome. Interestingly, while the rearrangement I/XIII is unique to S. jurei, the other is in common with S. mikatae strain IFO1815, suggesting shared evolutionary history of this species after the split between S. cerevisiae and S. mikatae The number of Ty elements differed in the new species, with a higher number of Ty elements present in S. jurei than in S. cerevisiae Phenotypically, the S. jurei strain NCYC 3962 has relatively higher fitness than the other strain NCYC 3947T under most of the environmental stress conditions tested and showed remarkably increased fitness in higher concentration of acetic acid compared to the other sensu stricto species. Both strains were found to be better adapted to lower temperatures compared to S. cerevisiae.


Subject(s)
Chromosomes, Fungal/genetics , Genome, Fungal , Phenotype , Saccharomyces/genetics , Sequence Analysis, DNA
4.
Int J Syst Evol Microbiol ; 67(6): 2046-2052, 2017 Jun.
Article in English | MEDLINE | ID: mdl-28639933

ABSTRACT

Two strains, D5088T and D5095, representing a novel yeast species belonging to the genus Saccharomyces were isolated from oak tree bark and surrounding soil located at an altitude of 1000 m above sea level in Saint Auban, France. Sequence analyses of the internal transcribed spacer (ITS) region and 26S rRNA D1/D2 domains indicated that the two strains were most closely related to Saccharomyces mikatae and Saccharomyces paradoxus. Genetic hybridization analyses showed that both strains are reproductively isolated from all other Saccharomyces species and, therefore, represent a distinct biological species. The species name Saccharomyces jurei sp. nov. is proposed to accommodate these two strains, with D5088T (=CBS 14759T=NCYC 3947T) designated as the type strain.


Subject(s)
Phylogeny , Plant Bark/microbiology , Quercus/microbiology , Saccharomyces/classification , DNA, Fungal/genetics , DNA, Ribosomal Spacer/genetics , France , Mycological Typing Techniques , RNA, Ribosomal/genetics , Saccharomyces/genetics , Saccharomyces/isolation & purification , Sequence Analysis, DNA
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