Abstract

The adaptation to the different biotic and abiotic factors of wine fermentation has led to the accumulation of numerous genomic hallmarks in Saccharomyces cerevisiae wine strains. IRC7, a gene encoding a cysteine-S-β-lyase enzyme related volatile thiols production in wines, has two alleles: a full-length allele (IRC7^F ) and a mutated one (IRC7^S ), harbouring a 38 bp-deletion. Interestingly, IRC7^S -encoding a less active enzyme - appears widespread amongst wine populations. Studying the global distribution of the IRC7^S allele in different yeast lineages, we confirmed its high prevalence in the Wine clade and demonstrated a minority presence in other domesticated clades (Wine-PDM, Beer and Bread) while it is completely missing in wild clades. Here, we show that IRC7^S -homozygous (HS) strains exhibited both fitness and competitive advantages compared with IRC7^F -homozygous (HF) strains. There are some pieces of evidence of the direct contribution of the IRC7^S allele to the outstanding behaviour of HS strains (i.e., improved response to oxidative stress conditions and higher tolerance to high copper levels); however, we also identified a set of sequence variants with significant co-occurrence patterns with the IRC7^S allele, which can be co-contributing to the fitness and competitive advantages of HS strains in wine fermentations.