2016 journal article

Overexpression of the CYP51A1 Gene and Repeated Elements are Associated with Differential Sensitivity to DMI Fungicides in Venturia inaequalis

PHYTOPATHOLOGY, 106(6), 562–571.

By: S. Villani*, J. Hulvey*, J. Hily & K. Cox*

MeSH headings : Ascomycota / enzymology; Ascomycota / genetics; Ascomycota / metabolism; Cloning, Molecular; Drug Resistance, Fungal / genetics; Fungicides, Industrial / pharmacology; Gene Expression Regulation, Enzymologic / physiology; Gene Expression Regulation, Fungal / physiology; Sterol 14-Demethylase / genetics; Sterol 14-Demethylase / metabolism
TL;DR: Different mechanisms may govern resistance to different DMI fungicides in the triazole group, including CYP51A1 overexpression or resistance to difenoconazole. (via Semantic Scholar)
Source: Web Of Science
Added: August 6, 2018

The involvement of overexpression of the CYP51A1 gene in Venturia inaequalis was investigated for isolates exhibiting differential sensitivity to the triazole demethylation inhibitor (DMI) fungicides myclobutanil and difenoconazole. Relative expression (RE) of the CYP51A1 gene was significantly greater (P < 0.0001) for isolates with resistance to both fungicides (MRDR phenotype) or with resistance to difenoconazole only (MSDR phenotype) compared with isolates that were resistant only to myclobutanil (MRDS phenotype) or sensitive to both fungicides (MSDS phenotype). An average of 9- and 13-fold increases in CYP51A1 RE were observed in isolates resistant to difenoconazole compared with isolates with MRDS and MSDS phenotypes, respectively. Linear regression analysis between isolate relative growth on myclobutanil-amended medium and log10 RE revealed that little to no variability in sensitivity to myclobutanil could be explained by CYP51A1 overexpression (R2 = 0.078). To investigate CYP51A1 upstream anomalies associated with CYP51A1 overexpression or resistance to difenoconazole, Illumina sequencing was conducted for three isolates with resistance to difenoconazole and one baseline isolate. A repeated element, “EL 3,1,2”, with the properties of a transcriptional enhancer was identified two to four times upstream of CYP51A1 in difenoconazole-resistant isolates but was not found in isolates with the MRDS phenotype. These results suggest that different mechanisms may govern resistance to different DMI fungicides in the triazole group.