Litcius/Paper detail

Sterol 14α-Demethylase <i>CaCYP51A</i> and <i>CaCYP51B</i> are Functionally Redundant, but Differentially Regulated in <i>Colletotrichum acutatum</i>: Responsibility for DMI-Fungicide Resistance

Lingling Wei, Xiujuan Li, Bin Chen, Wenchan Chen, Lihui Wei, Dongmei Zhou, Changjun Chen, Chengdong Wu

2022Journal of Agricultural and Food Chemistry21 citationsDOI

Abstract

Colletotrichum acutatum, the main pathogen causing anthracnose on chili worldwide, is controlled by tebuconazole [a sterol C14-demethylation inhibitor (DMI) fungicide, abbreviated as Teb] with excellent efficacy. Our previous study exhibited that all C. acutatum isolates were sensitive to Teb while the Colletotrichum gloeosporioides population had developed resistance to Teb on the same fungicide-pressure selection. Therefore, the assessment of Teb-resistance in C. acutatum is impending. Twenty Teb-resistant (TebR) mutants obtained by fungicide domestication and ultraviolet (UV)-mutagenesis displayed similar fitness compared to parental isolates. Data in the current study exhibited that mutations at CaCYP51A and/or overexpression of CaCYP51s were responsible for Teb-resistance. Furthermore, the deletion mutants ΔCaCYP51A and ΔCaCYP51B played different roles in sensitivities to DMIs. Taken together, this study first reported that mutations at CaCYP51A and/or overexpression of CaCYP51s conferred resistance to Teb in C. acutatum, CaCYP51A and CaCYP51B are functionally redundant, but differentially regulated in DMI resistance.

Topics & Concepts

Colletotrichum acutatumBiologyFungicideMutantDemethylationMutagenesisTebuconazoleCross-resistanceFludioxonilMicrobiologyBotanyGeneticsHorticultureGeneGene expressionInoculationDNA methylationPlant Pathogens and Fungal DiseasesFungal Plant Pathogen ControlPlant-Microbe Interactions and Immunity