Journal
NEW PHYTOLOGIST
Volume 238, Issue 4, Pages 1578-1592Publisher
WILEY
DOI: 10.1111/nph.18790
Keywords
Colletotrichum orbiculare; host specificity; phytopathogenic fungi; transcriptional control; virulence effector
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Through targeted gene knockout experiments, we identified that the hemibiotrophic fungal pathogen Colletotrichum orbiculare secretes multiple effector proteins during infection of cucurbit crops and tobacco. Four effector proteins were found to be specific for cucurbit hosts, while five others had virulence in both cucurbit crops and tobacco. This study suggests that C. orbiculare employs a host-specific effector deployment strategy when infecting cucurbit crops.
The hemibiotrophic fungal plant pathogen Colletotrichum orbiculare is predicted to secrete hundreds of effector proteins when the pathogen infects cucurbit crops, such as cucumber and melon, and tobacco (Nicotiana benthamiana), a distantly related Solanaceae species. Here, we report the identification of sets of C. orbiculare effector genes that are differentially required for fungal virulence to two phylogenetically distant host species.Through targeted gene knockout screening of C. orbiculare 'core' effector candidates defined based on in planta gene expression, we identified: four host-specific virulence effectors (named effector proteins for cucurbit infection, or EPCs) that are required for full virulence of C. orbiculare to cucurbit hosts, but not to the Solanaceae host N. benthamiana; and five host-nonspecific virulence effectors, which collectively contribute to fungal virulence to both hosts.During host infection, only a small subset of genes, including the host-specific EPC effector genes, showed preferential expression on one of the hosts, while gene expression profiles of the majority of other genes, including the five host-nonspecific effector genes, were common to both hosts.This work suggests that C. orbiculare adopts a host-specific effector deployment strategy, in addition to general host-blind virulence mechanisms, for adaptation to cucurbit hosts.
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