Whole genome sequencing,de novoassembly and phenotypic profiling for the new budding yeast speciesSaccharomyces jurei

Abstract

AbstractSaccharomyces sensu strictocomplex 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 ofSaccharomyces jurei,a newly discoveredSaccharomyces sensu strictospecies from high altitude oaks. Phylogenetic and phenotypic analysis revealed thatS. jureiis a sister-species toS. mikatae,thanS. cerevisiae,andS. paradoxus.The karyotype ofS. jureipresents two reciprocal chromosomal translocations between chromosome VI/VII and I/XIII when compared toS. cerevisiaegenome. Interestingly, while the rearrangement I/XIII is unique toS. jurei,the other is in common withS. mikataestrain IFO1815, suggesting shared evolutionary history of this species after the split betweenS. cerevisiaeandS. mikatae.The number of Ty elements differed in the new species, with a higher number of Ty elements present inS. jureithan inS. cerevisiae.Phenotypically, theS. jureistrain NCYC 3962 has relatively higher fitness than the other strain NCYC 3947Tunder most of the environmental stress conditions tested and showed remarkably increased fitness in higher concentration of acetic acid compared to the othersensu strictospecies. Both strains were found to be better adapted to lower temperatures compared toS. cerevisiae.