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Publication Detail

Title: Gene cluster conservation provides insight into cercosporin biosynthesis and extends production to the genus Colletotrichum.

Authors: de Jonge, Ronnie; Ebert, Malaika K; Huitt-Roehl, Callie R; Pal, Paramita; Suttle, Jeffrey C; Spanner, Rebecca E; Neubauer, Jonathan D; Jurick 2nd, Wayne M; Stott, Karina A; Secor, Gary A; Thomma, Bart P H J; Van de Peer, Yves; Townsend, Craig A; Bolton, Melvin D

Published In Proc Natl Acad Sci U S A, (2018 06 12)

Abstract: Species in the genus Cercospora cause economically devastating diseases in sugar beet, maize, rice, soy bean, and other major food crops. Here, we sequenced the genome of the sugar beet pathogen Cercospora beticola and found it encodes 63 putative secondary metabolite gene clusters, including the cercosporin toxin biosynthesis (CTB) cluster. We show that the CTB gene cluster has experienced multiple duplications and horizontal transfers across a spectrum of plant pathogenic fungi, including the wide-host range Colletotrichum genus as well as the rice pathogen Magnaporthe oryzae Although cercosporin biosynthesis has been thought to rely on an eight-gene CTB cluster, our phylogenomic analysis revealed gene collinearity adjacent to the established cluster in all CTB cluster-harboring species. We demonstrate that the CTB cluster is larger than previously recognized and includes cercosporin facilitator protein, previously shown to be involved with cercosporin autoresistance, and four additional genes required for cercosporin biosynthesis, including the final pathway enzymes that install the unusual cercosporin methylenedioxy bridge. Lastly, we demonstrate production of cercosporin by Colletotrichum fioriniae, the first known cercosporin producer within this agriculturally important genus. Thus, our results provide insight into the intricate evolution and biology of a toxin critical to agriculture and broaden the production of cercosporin to another fungal genus containing many plant pathogens of important crops worldwide.

PubMed ID: 29844193 Exiting the NIEHS site

MeSH Terms: Colletotrichum/genetics*; DNA, Fungal/genetics; Fungal Proteins/genetics; Genes, Fungal/genetics*; Malus/microbiology; Multigene Family/genetics*; Perylene/analogs & derivatives*; Perylene/metabolism; Plant Diseases/microbiology

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