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Natural variation of <i>WBR7</i> confers rice high yield and quality by modulating sucrose supply in sink organs

Huan Shi, Yun Peng, Yun Zhu, Lu Wang, Yipei Wang, Pingbo Li, Hao Zhou, Shiyuan Cheng, Rongjia Liu, Guanjun Gao, Qinglu Zhang, Jinghua Xiao, Yibo Li, Lizhong Xiong, Aiqing You, Yuqing He

2024Plant Biotechnology Journal19 citationsDOIOpen Access PDF

Abstract

Summary Grain chalkiness is an undesirable trait that negatively regulates grain yield and quality in rice. However, the regulatory mechanism underlying chalkiness is complex and remains unclear. We identified a positive regulator of white‐belly rate (WBR). The WBR7 gene encodes sucrose synthase 3 (SUS3). A weak functional allele of WBR7 is beneficial in increasing grain yield and quality. During the domestication of indica rice, a functional G/A variation in the coding region of WBR7 resulted in an E541K amino acid substitution in the GT‐4 glycosyltransferase domain, leading to a significant decrease in decomposition activity of WBR7 A (allele in cultivar Jin23B) compared with WBR7 G (allele in cultivar Beilu130). The NIL(J23B) and knockout line NIL(BL130) KO exhibited lower WBR7 decomposition activity than that of NIL(BL130) and NIL(J23B) COM , resulting in less sucrose decomposition and metabolism in the conducting organs. This caused more sucrose transportation to the endosperm, enhancing the synthesis of storage components in the endosperm and leading to decreased WBR. More sucrose was also transported to the anthers, providing sufficient substrate and energy supply for pollen maturation and germination, ultimately leading to an increase rate of seed setting and increased grain yield. Our findings elucidate a mechanism for enhancing rice yield and quality by modulating sucrose metabolism and allocation, and provides a valuable allele for improved rice quality.

Topics & Concepts

EndospermBiologySucroseCultivarAlleleSucrose synthaseFood scienceBotanyHorticultureAgronomyGeneBiochemistryInvertaseGenetic Mapping and Diversity in Plants and AnimalsRice Cultivation and Yield ImprovementPlant nutrient uptake and metabolism