Adaptive evolution ofMoniliophthoraPR-1 proteins towards its pathogenic lifestyle

Abstract

AbstractMoniliophthora perniciosaandMoniliophthora roreriare hemibiotrophic fungi that harbor a large number of Pathogenesis-Related 1 genes, many of which are induced in the biotrophic interaction withTheobroma cacao.Here, we provide evidence that the evolution of PR-1 inMoniliophthorawas adaptive and potentially related to the emergence of the parasitic lifestyle in this genus. Phylogenetic analysis revealed conserved PR-1 genes, shared by many Agaricales saprotrophic species, that have diversified in new PR-1 genes putatively related to pathogenicity inMoniliophthora, as well as in recent specialization cases within both species. PR-1 families inMoniliophthorawith higher evolutionary rates exhibit induced expression in the biotrophic interaction and positive selection clues, supporting the hypothesis that these proteins accumulated adaptive changes in response to host-pathogen arm race. Furthermore, we show that the highly diversifiedMpPR-1genes are not induced by two phytoalexins, suggesting detoxification might not be their main function as proposed before.