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Host-to-pathogen gene transfer facilitated infection of insects by a pathogenic fungus.

PLoS pathogens (2014-04-12)
Hong Zhao, Chuan Xu, Hsiao-Ling Lu, Xiaoxuan Chen, Raymond J St Leger, Weiguo Fang
RESUMEN

Metarhizium robertsii is a plant root colonizing fungus that is also an insect pathogen. Its entomopathogenicity is a characteristic that was acquired during evolution from a plant endophyte ancestor. This transition provides a novel perspective on how new functional mechanisms important for host switching and virulence have evolved. From a random T-DNA insertion library, we obtained a pathogenicity defective mutant that resulted from the disruption of a sterol carrier gene (Mr-npc2a). Phylogenetic analysis revealed that Metarhizium acquired Mr-npc2a from an insect by horizontal gene transfer (HGT). Mr-NPC2a binds to cholesterol, an animal sterol, rather than the fungal sterol ergosterol, indicating it retains the specificity of insect NPC2 proteins. Mr-NPC2a is an intracellular protein and is exclusively expressed in the hemolymph of living insects. The disruption of Mr-npc2a reduced the amount of sterol in cell membranes of the yeast-like hyphal bodies that facilitate dispersal in the host body. These were consequently more susceptible to insect immune responses than the wild type. Transgenic expression of Mr-NPC2a increased the virulence of Beauveria bassiana, an endophytic insect-pathogenic fungus that lacks a Mr-NPC2a homolog.

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Sigma-Aldrich
Colesterol, Sigma Grade, ≥99%
Sigma-Aldrich
Lipid A, monophosphoryl from Escherichia coli F583 (Rd mutant), lyophilized powder