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Gene flow contributes to diversification of the major fungal pathogen $Candida\ albicans$

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Ropars, Jeanne | Maufrais, Corinne | Diogo, Dorothée | Marcet-Houben, Marina | Perin, Aurélie | Sertour, Natacha | Mosca, Kevin | Permal, Emmanuelle | Laval, Guillaume | Bouchier, Christiane | Ma, Laurence | Schwartz, Katja | Voelz, Kerstin | May, Robin, C | Poulain, Julie | Battail, Christophe | Wincker, Patrick | Borman, Andrew, M | Chowdhary, Anuradha | Fan, Shangrong | Kim, Soo Hyun | Le Pape, Patrice | Romeo, Orazio | Shin, Jong Hee | Gabaldon, Toni | Sherlock, Gavin | Bougnoux, Marie-Elisabeth | D'Enfert, Christophe

Edité par CCSD ; Nature Publishing Group -

International audience. Elucidating population structure and levels of genetic diversity and recombination is necessary to understand the evolution and adaptation of species. $Candida\ albicans$ is the second most frequent agent of human fungal infections worldwide, causing high-mortality rates. Here we present the genomic sequences of 182 C. $albicans$ isolates collected worldwide, including commensal isolates, as well as ones responsible for superficial and invasive infections, constituting the largest dataset to date for this major fungal pathogen. Although, C. $albicans$ shows a predominantly clonal population structure, we find evidence of gene flow between previously known and newly identified genetic clusters, supporting the occurrence of (para)sexuality in nature. A highly clonal lineage, which experimentally shows reduced fitness, has undergone pseudogenization in genes required for virulence and morphogenesis, which may explain its niche restriction. $Candida\ albicans$ thus takes advantage of both clonality and gene flow to diversify.

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