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Pro-197-Ser Mutation and Cytochrome P450-Mediated Metabolism Conferring Resistance to Flucarbazone-Sodium in Bromus japonicus

Yuning Lan, Xinxin Zhou, Shenyuan Lin, Yi Cao, Shouhui Wei, Hongjuan Huang, Wenyu Li, Zhaofeng Huang

2022Plants19 citationsDOIOpen Access PDF

Abstract

In crop fields, resistance to acetolactate synthase (ALS)-inhibiting herbicides found in many troublesome weed species, including Bromus japonicus Thunb, is a worldwide problem. In particular, the development of herbicide resistance in B. japonicus is a severe threat to wheat production in China. The purpose of this research was to investigate the physiological and molecular basis of B. japonicus resistance to flucarbazone-sodium. Dose-response analysis demonstrated that, compared with the susceptible B. japonicus (S) population, the resistant (R) population exhibited a 120-fold increase in flucarbazone-sodium resistance. Nucleotide sequence alignment of the ALS gene indicated that the Pro-197-Ser mutation in ALS was associated with resistance to flucarbazone-sodium in the R population. The results of a malathion pretreatment study showed that B. japonicus might also have remarkable cytochrome P450 monooxygenase (P450)-mediated metabolic resistance. This is the first report of a Pro-197-Ser mutation and P450-mediated metabolism conferring resistance to flucarbazone-sodium in B. japonicus.

Topics & Concepts

BiologyPopulationAcetolactate synthaseMalathionMonooxygenaseGeneticsMutationCytochrome P450WeedGeneMetabolismBiochemistryBotanyPesticideAgronomyDemographySociologyWeed Control and Herbicide ApplicationsPlant tissue culture and regenerationAllelopathy and phytotoxic interactions