Abstract
The genus
Colletotrichum
contains a wide variety of important plant pathogens, and
Colletotrichum truncatum
is one of the most prevalent species of
Colletotrichum
on chili in China. Demethylation-inhibitor fungicides (DMIs) are currently registered chemical agents for the management of the anthracnose disease caused by
Colletotrichum
spp. To assess the risk for DMI resistance development, 112
C. truncatum
isolates were collected from infected pepper in 13 regions of China. The sensitivity of
C. truncatum
isolates to five DMI fungicides was determined based on mycelial growth inhibition assay.
C. truncatum
was sensitive to prochloraz, epoxiconazole, and difenoconazole, but not to tebuconazole or myclobutanil. Baseline sensitivity using the 112
C. truncatum
isolates was established for the first three effective DMIs. Prochloraz, epoxiconazole, and difenoconazole EC
50
values were 0.053 ± 0.023, 1.956 ± 0.815, and 1.027 ± 0.644 μg/ml, respectively. Eleven stable DMI-resistant mutants all exhibited lower fitness levels than their wild-type parents, suggesting a low risk of DMI resistance in
C. truncatum
. By inducing gene expression,
CtCYP51
expression increased slightly in the resistant mutants as compared to wild-types when exposed to DMI fungicides and thus contributed at least partially to resistance. Molecular docking with CYP51 structure models was used to explain differential sensitivity of the DMI fungicides in
C. truncatum
. Our results suggest that the M376L/H373N mutations in CYP51 changed the conformation of DMIs in the binding pocket. These changes prevented the formation of the Fe – N coordinate bond between the heme iron active site and tebuconazole or myclobutanil, and apparently contributed to tebuconazole and myclobutanil insensitivity of
C. truncatum
.