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<i>OsPDCD5</i> negatively regulates plant architecture and grain yield in rice

Shiqing Dong, Xianxin Dong, Xiaokang Han, Fan Zhang, Yu Zhu, Xiaoyun Xin, Ying Wang, Yuanyi Hu, Dingyang Yuan, Jianping Wang, Zhou Huang, Fuan Niu, Zejun Hu, Peiwen Yan, Liming Cao, Haohua He, Junru Fu, Yeyun Xin, Yanning Tan, Bigang Mao, Bingran Zhao, Jinshui Yang, Longping Yuan, Xiaojin Luo

2021Proceedings of the National Academy of Sciences49 citationsDOIOpen Access PDF

Abstract

Significance Rice breeding programs aim to develop cultivars with improved traits, including high grain yield and superior quality. In rice, OsPDCD5 encodes a programmed cell death 5 protein. Targeted mutagenesis of OsPDCD5 enhanced grain yield and plant architecture. Statistical analysis indicated that plot grain yield of OsPDCD5 knockout lines was enhanced by 6.25 to 20.13% in 11 popular or newly bred rice cultivars compared with the corresponding wild types. The OsPDCD5 knockout lines showed increases in milled rice percentage and gel consistency, and a decrease in amylose content. Our results provide insight into the molecular mechanism by which OsPDCD5 influences grain yield and plant architecture, and highlight a promising candidate gene for use in breeding programs designed to develop super rice cultivars.

Topics & Concepts

PanicleBiologyCultivarYield (engineering)GibberellinAgronomyTranscriptomeGrain yieldCRISPRCytokininGeneBiotechnologyBotanyAuxinGene expressionGeneticsMaterials scienceMetallurgyGenetic Mapping and Diversity in Plants and AnimalsPlant Molecular Biology ResearchPlant-Microbe Interactions and Immunity
<i>OsPDCD5</i> negatively regulates plant architecture and grain yield in rice | Litcius