4.7 Article

Investigation of clomazone-tolerance mechanism in a long-grain cultivar of rice

期刊

PEST MANAGEMENT SCIENCE
卷 77, 期 5, 页码 2454-2461

出版社

JOHN WILEY & SONS LTD
DOI: 10.1002/ps.6274

关键词

CYP81A; cytochrome P450; Oryza sativa; herbicide tolerance; CSSL

资金

  1. Kato Memorial Bioscience Foundation

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The long-grain cultivar Kasalath exhibited approximately five-fold higher tolerance to clomazone compared to short-grain cultivars Nipponbare and Koshihikari, suggesting involvement of multiple loci in clomazone tolerance. Chromosome segment substitution lines of Nipponbare/Kasalath and Koshihikari/Kasalath showed partial tolerance to clomazone, indicating a potential genetic basis for developing clomazone-tolerant short-grain cultivars.
BACKGROUND Clomazone is a potent herbicide for controlling weeds that have evolved resistance to other herbicides due to its unique mode of action. Clomazone is used in rice cultivation, but is limited to long-grain cultivars because other cultivars are highly sensitive to it. In this study, we investigated the mechanism of clomazone tolerance in a long-grain cultivar. RESULTS The long-grain cultivar Kasalath tolerated approximately five-fold higher doses of clomazone compared to two short-grain cultivars, Nipponbare and Koshihikari. While Arabidopsis thaliana transformed with a rice cytochrome P450, CYP81A6, showed resistance to clomazone, the cyp81a6 knockout Kasalath was unchanged in its clomazone sensitivity. The inheritance of clomazone sensitivity in the F1 and F2 of Kasalath and Nipponbare indicated the involvement of multiple loci for clomazone tolerance. Four chromosome segment substitution lines of Nipponbare/Kasalath and Koshihikari/Kasalath exhibited partial tolerance to clomazone. The overlapping DNA region among the four lines is on chromosome 5 within 11.5 Mb. CONCLUSION Multiple loci are involved in clomazone tolerance in Kasalath, one of which is located on chromosome 5. This information will help develop short-grain cultivars tolerant to clomazone.

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