Botrytis cinerea identifies host plants via the recognition of antifungal capsidiol to induce expression of a specific detoxification gene

Abstract: The gray mold pathogen Botrytis cinerea has a broad host range, causing disease in over 400 plant species, but it is not known how this pathogen evolved this polyxenous nature. B. cinerea can metabolize a wide range of phytoalexins, including the stilbenoid, resveratrol, and the sesquiterpenoids capsidiol in tobacco, and rishitin in potato and tomato. In this study, we analyzed the metabolism of sesquiterpenoid phytoalexins by B. cinerea. Capsidiol was dehydrogenated to capsenone which was then further oxidize… Show more

“…B. cinerea strain AI18 (Kuroyanagi et al, 2022), Epichloë festucae strain Fl1 and their transformants used in this study are listed in Supplementary Table S1. They were grown on potato dextrose agar (PDA) at 23°C.…”

“…For the detection of rishitin and their metabolites after the incubation with B. cinerea or E. festucae transformants, the supernatant (50 μl) was collected, mixed with 50 μl acetonitrile and measured by LC/MS (Accurate-Mass Q-TOF LC/MS 6520, Agilent Technologies, Santa Clara, CA, USA) with ODS column Cadenza CD-C18, 75 × 2 mm (Imtakt, Kyoto, Japan) as previously described (Kuroyanagi et al, 2022).…”

“…Extraction of RNA and RNA sequencing analysis were performed as previously described (Kuroyanagi et al, 2022). The nucleotides of each read with less than 13 quality value were masked and reads shorter than 50 bp in length were discarded, and filtered reads were mapped to annotated cDNA sequences for B. cinerea (ASM83294v1, GenBank accession GCA_000143535) using Bowtie software (Langmead et al, 2009).…”

“…Preparation of E. festucae and B. cinerea protoplasts and transformation was performed as previously reported (Kuroyanagi et al, 2022). Candidate colonies were exposed to BLB blacklight for the induction of sporulation and single spore isolation was performed to obtain purified strains.…”

“…Another significant hurdle confronting pathogens is that several of these plant chemicals act in unison and occur in such diversity to challenge such dexterous pathogens (Pedras and Abdoli, 2017; Allan et al, 2019; Newman et al, 2020; N’Guyen et al, 2021; Westrick et al, 2021). Several studies attribute this dexterity to detoxification of phytochemicals to multi-functional enzymes such as cytochrome P450 (oxidoreductase, monooxygenase and dehydratases) which are quintessential components of robust fungal pathogenic systems (Pedras and Ahiahonu, 2005; Kuroyanagi et al, 2022).…”

Functional characterization ofBotrytis cinereaABC transporter geneBcatrBin response to phytoalexins produced in plants belonging to families Solanaceae, Brassicaceae and Fabaceae

“…B. cinerea strain AI18 (Kuroyanagi et al, 2022), Epichloë festucae strain Fl1 and their transformants used in this study are listed in Supplementary Table S1. They were grown on potato dextrose agar (PDA) at 23°C.…”

“…For the detection of rishitin and their metabolites after the incubation with B. cinerea or E. festucae transformants, the supernatant (50 μl) was collected, mixed with 50 μl acetonitrile and measured by LC/MS (Accurate-Mass Q-TOF LC/MS 6520, Agilent Technologies, Santa Clara, CA, USA) with ODS column Cadenza CD-C18, 75 × 2 mm (Imtakt, Kyoto, Japan) as previously described (Kuroyanagi et al, 2022).…”

“…Extraction of RNA and RNA sequencing analysis were performed as previously described (Kuroyanagi et al, 2022). The nucleotides of each read with less than 13 quality value were masked and reads shorter than 50 bp in length were discarded, and filtered reads were mapped to annotated cDNA sequences for B. cinerea (ASM83294v1, GenBank accession GCA_000143535) using Bowtie software (Langmead et al, 2009).…”

“…Preparation of E. festucae and B. cinerea protoplasts and transformation was performed as previously reported (Kuroyanagi et al, 2022). Candidate colonies were exposed to BLB blacklight for the induction of sporulation and single spore isolation was performed to obtain purified strains.…”

“…Another significant hurdle confronting pathogens is that several of these plant chemicals act in unison and occur in such diversity to challenge such dexterous pathogens (Pedras and Abdoli, 2017; Allan et al, 2019; Newman et al, 2020; N’Guyen et al, 2021; Westrick et al, 2021). Several studies attribute this dexterity to detoxification of phytochemicals to multi-functional enzymes such as cytochrome P450 (oxidoreductase, monooxygenase and dehydratases) which are quintessential components of robust fungal pathogenic systems (Pedras and Ahiahonu, 2005; Kuroyanagi et al, 2022).…”

Functional characterization ofBotrytis cinereaABC transporter geneBcatrBin response to phytoalexins produced in plants belonging to families Solanaceae, Brassicaceae and Fabaceae