Rice is the staple crop for more than half of the global population, and improving grain yield, grain quality, and stress resistance remain central goals of modern rice breeding. Among current precision breeding strategies, genome editing has created new opportunities for crop improvement, but its success depends heavily on the selection of effective target genes. In this context, negative regulators of agronomic traits are particularly valuable because their disruption or attenuation can relieve constraints on desirable phenotypes and generate beneficial variation. In this review, we summarize recent progress in the identification and functional characterization of negative regulatory genes associated with rice grain yield, grain quality and stress resistance. We further integrate the current knowledge of their molecular functions, regulatory mechanisms, and genetic networks and discuss their potential applications in genome editing-assisted breeding. This review provides a target-oriented framework for understanding negative regulation in rice and facilitating the development of improved varieties with increased productivity, quality and stress resistance.
Wu et al. (Tue,) studied this question.
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