AtPQT11, a P450 enzyme, detoxifies paraquat via N-demethylation

Paraquat is one of the most widely used nonselective herbicides in agriculture. Due to its wide use, paraquat resistant weeds have emerged and is becoming a potential threat to agriculture. The molecular mechanisms of paraquat resistance in weeds remain largely unknown. Physiological studies indicated that the impaired translocation of paraquat and enhanced antioxidation could improve paraquat resistance in plants. However, the detoxification of paraquat via active metabolism by plants has not been reported to date. Here we report that an activated expression of At1g01600 encoding the P450 protein CYP86A4 confers paraquat resistance as revealed by the gain-of-function mutant paraquat tolerance 11D (pqt11D), in which a T-DNA with four 35S enhancers was inserted at 1646 bp upstream the ATG of At1g01600. The paraquat resistance can be recapitulated in Arabidopsis wild type by overexpressing AtPQT11 (At1g01600), while its knockout mutant is hypersensitive to paraquat. Moreover, AtPQT11 also confers paraquat resistance in E. coli when overexpressed. We further demonstrate that AtPQT11 has P450 enzyme activity that converts paraquat to N-demethyl paraquat nontoxic to Arabidopsis, therefore detoxifying paraquat in plants. Taken together, our results unequivocally demonstrate that AtPQT11/ CYP86A4 detoxifies paraquat via active metabolism, thus revealing a novel molecular mechanism of paraquat resistance in plants and providing a means potentially enabling crops to resist paraquat.