Publication
An Out-of-Patagonia dispersal explains most of the worldwide genetic distribution in Saccharomyces eubayanus
Publisher:
Cold Spring Harbor Laboratory
Date:
20-07-2019
DOI:
10.1101/709253
Abstract: Saccharomyces eubayanus represents missing cryotolerant ancestor of lager yeast hybrid and can be found in Patagonia in association with Nothofagus forests. The limited number of isolates and associated genomes available has prevented to resolve the S. eubayanus origin and evolution. Here, we present a s ling effort at an unprecedented scale and report the isolation of 160 strains from ten s ling sites along 2,000 km distance in South America. We sequenced the genome of 82 strains and, together with other 25 available genomes, performed comprehensive phylogenetic analysis. Our results revealed the presence of three main Patagonia-B lineages together with dozens of admixed strains distributed in three mosaic clusters. The PB-1 lineage isolated from Tierra del Fuego exhibited the highest genetic ersity, lowest LD blocks and highest F is values compared to the other lineages, suggesting a successful adaptation to cold temperatures in extreme environments and greater inbreeding rates in Tierra del Fuego. Differences between lineages and strains were found in terms of aneuploidy and pangenome content, evidencing a lateral gene transfer event in PB-2 strains from an unknown donor species. Overall, the Patagonian lineages, particularly southern populations, showed a greater global genetic ersity compared to Holarctic and Chinese lineages, supporting the scenario of a S. eubayanus colonization from Patagonia and then spread towards northern and western regions, including the Holarctic (North America and China) and New Zealand. Interestingly, fermentative capacity and maltose consumption resulted negatively correlated with latitude, indicating a better fermentative performance in norther populations. Our genome analysis together with previous reports in the sister species S. uvarum strongly suggests that the S. eubayanus ancestor could have originated in Patagonia or the Southern Hemisphere, rather than China, yet further studies are needed to resolve this conflicting scenario. Understanding S. eubayanus evolutionary history is crucial to resolve the unknown origin of the lager yeast and might open new avenues for biotechnological applications.