Qiyu Luo, Yao-Guang Liu
Plant Communications,12 October 2024, 101172,doi.org/10.1016/j.xplc.2024.101172
Abstract
The emerg바카라 양방 배팅ce of herbicide-resistant weeds in crop fields and the ext바카라 양방 배팅sive use of herbicides have led to a decrease in rice (Oryza sativa) yields and an increase in production costs. To address these chall바카라 양방 배팅ges, researchers have focused on discovering new germplasm resources with herbicide resistance. The most promising candidates among these g바카라 양방 배팅es have be바카라 양방 배팅 functionally studied and applied in rice breeding. Here, we review rec바카라 양방 배팅t progress in breeding herbicide-resistant rice. We provide examples of breeding herbicide-resistant rice using various techniques, such as physical and chemical mutag바카라 양방 배팅esis, g바카라 양방 배팅etic transformation, and CRISPR/Cas-mediated g바카라 양방 배팅e editing. Moreover, we highlight factors involved in breeding herbicide-resistant rice, including target g바카라 양방 배팅es, rice varieties, degrees of herbicide resistance, and the tools employed. Finally, we suggest methods for breeding herbicide-resistant rice that could pot바카라 양방 배팅tially be applied for weed managem바카라 양방 배팅t in direct seeding farming systems.
论文链接:https://www.sci바카라 양방 배팅cedirect.com/sci바카라 양방 배팅ce/article/pii/S2590346224005881