RT Journal Article
SR Electronic
T1 Genomic evidence for a hybrid origin of the yeast opportunistic pathogen <em>Candida albicans</em>
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 813436
DO 10.1101/813436
A1 Verónica Mixão
A1 Toni Gabaldón
YR 2019
UL http://biorxiv.org/content/early/2019/10/21/813436.abstract
AB Opportunistic yeast pathogens are of increasing medical concern. Candida albicans, the species with the highest incidence, is a natural commensal of humans that can adopt a pathogenic behaviour. This species is highly heterozygous, is an obligate diploid, and cannot undergo meiosis, adopting instead a parasexual cycle. The origin of these traits is unknown and we hypothesize they could result from ancestral hybridization. We tested this idea by analyzing available genomes of C. albicans isolates and comparing them to those of hybrid and non-hybrid strains of other Candida species. Our results show compelling evidence that C. albicans is an evolved hybrid, with levels and patterns of ancestral heterozygosity that cannot be fully explained under the paradigm of vertical evolution. Although the level of inferred divergence between the putative parental lineages (2.8%) is not clearly beyond current species boundaries in Saccharomycotina, we show here that all analyzed C. albicans strains derive from a single hybrid ancestor, which diverged by extensive loss of heterozygosis. This finding has important implications for our understanding of C. albicans evolution, including the loss of the sexual cycle, the origin of the association with humans, and the evolution of virulence traits.