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CytochromeP450-mediated herbicide metabolism in plants: current understanding and prospects

期刊

PEST MANAGEMENT SCIENCE
卷 77, 期 1, 页码 22-32

出版社

JOHN WILEY & SONS LTD
DOI: 10.1002/ps.6040

关键词

cytochrome P450s; herbicide metabolism; herbicide resistance; herbicide selectivity

资金

  1. JSPS KAKENHI [19H02955]
  2. Grants-in-Aid for Scientific Research [19H02955] Funding Source: KAKEN

向作者/读者索取更多资源

Cytochrome P450s (P450s) play a key role in herbicide metabolism research, providing selectivity in crops and resistance in weeds. While diverse plant P450s with herbicide-metabolizing functions have been identified, fully exploring their potential in crop improvement and herbicide resistance mitigation remains challenging due to the complexity of their function and regulation. Comparing substrate specificity and protein structures of P450s may lead to the development of selective herbicides and crops with higher herbicide tolerance.
Cytochrome P450s (P450s) have been at the center of herbicide metabolism research as a result of their ability to endow selectivity in crops and resistance in weeds. In the last 20 years, approximate to 30 P450s from diverse plant species have been revealed to possess herbicide-metabolizing function, some of which were demonstrated to play a key role in plant herbicide sensitivity. Recent research even demonstrated that some P450s from crops and weeds metabolize numerous herbicides from various chemical backbones, which highlights the importance of P450s in the current agricultural systems. However, due to the enormous number of plant P450s and the complexity of their function, expression and regulation, it remains a challenge to fully explore the potential of P450-mediated herbicide metabolism in crop improvement and herbicide resistance mitigation. Differences in the substrate specificity of each herbicide-metabolizing P450 are now evident. Comparisons of the substrate specificity and protein structures of P450s will be beneficial for the discovery of selective herbicides and may lead to the development of crops with higher herbicide tolerance by transgenics or genome-editing technologies. Furthermore, the knowledge will help design sound management strategies for weed resistance including the prediction of cross-resistance patterns. Overcoming the ambiguity of P450 function in plant xenobiotic pathways will unlock the full potential of this enzyme family in advancing global agriculture and food security. (c) 2020 Society of Chemical Industry

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