Abstract
AbstractThe mitochondrial respiratory chain bc1 complex is a proven target of agrofungicides. Most of them are Qo-site antagonists (i.e QoIs), competing with the substrate ubiquinol, and likely share the same binding mode as the widespread Qo-site resistance mutation G143A confers cross-resistance. Metyltetraprole (MTP) presents an exception as studies with phytopathogenic fungi showed that the inhibitor was unaffected by G143A. Here, we used the yeast model to investigate its mode of action. Analysis of bc1 complex mutants supports a Qo-site binding for MTP. However the compound seems distinct to other QoIs, such as azoxystrobin, in various ways, namely; 1) G143A was without effect on MTP, as previously reported. 2) The level of MTP resistance of mutants was higher in bc1 complex activity assays than in growth assays while the opposite was observed with azoxystrobin. 3) Steady-state kinetics used to characterise the mode of action of MTP also revealed differences compared to other QoIs.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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