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W2805651112 abstract "Abstract The ongoing diversification of plant defense compounds exerts dynamic selection pressures on the microorganisms that colonize plant tissues. Evolutionary processes that generate resistance towards these compounds increase microbial fitness by giving access to plant resources and increasing pathogen virulence. These processes entail sequence-based mechanisms that result in adaptive gene functions, and combinatorial mechanisms that result in novel syntheses of existing gene functions. However, the priority and interactions among these processes in adaptive resistance remains poorly understood. Using a combination of molecular genetic and computational approaches, we investigated the contributions of sequence-based and combinatorial processes to the evolution of fungal metabolic gene clusters encoding stilbene cleavage oxygenases (SCOs), which catalyze the degradation of biphenolic plant defense compounds known as stilbenes into monophenolic molecules. We present phylogenetic evidence of convergent assembly among three distinct types of SCO gene clusters containing alternate combinations of phenolic catabolism. Multiple evolutionary transitions between different cluster types suggest recurrent selection for distinct gene assemblages. By comparison, we found that the substrate specificities of heterologously expressed SCO enzymes encoded in different clusters types were all limited to stilbenes and related molecules with a 4’-OH group, and differed modestly in substrate range and activity under the experimental conditions. Together, this work suggests a primary role for genome structural rearrangement, and the importance of enzyme modularity, in promoting fungal metabolic adaptation to plant defense chemistry." @default.
W2805651112 created "2018-06-13" @default.
W2805651112 creator A5025123218 @default.
W2805651112 creator A5053454511 @default.
W2805651112 creator A5079700136 @default.
W2805651112 date "2018-06-11" @default.
W2805651112 modified "2023-09-24" @default.
W2805651112 title "Fungal adaptation to plant defenses through convergent assembly of metabolic modules" @default.
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W2805651112 doi "https://doi.org/10.1101/343673" @default.
W2805651112 hasPublicationYear "2018" @default.
W2805651112 type Work @default.
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W2805651112 hasAuthorship W2805651112A5025123218 @default.