F-box蛋白RCN127通过介导OsTB1和OsTCP19的降解来提高水稻分蘖数和籽粒产量。

The F-box protein RCN127 enhances rice tillering and grain yield by mediating the degradation of OsTB1 and OsTCP19.

作者信息

Miao Rong, Wang Xin, Feng Miao, Cheng Zhijun, Shao Jiale, Zhou Chunlei, Qian Jinsheng, Luo Yajing, Luo Wenfan, Luo Sheng, Lei Bin, Liu Xin, Li Shuai, Ling Yimin, Wang Jian, Luo Tong, Ren Yulong, Lei Cailin, Zhu Shanshan, Zhao Zhichao, Jiang Ling, Lin Qibing, Wan Jianmin

机构信息

National Key Laboratory of Crop Genetics & Germplasm Enhancement and Utilization, Jiangsu Nanjing National Field Scientific Observation and Research Station for Rice Germplasm, Nanjing Agricultural University, Nanjing, China.

State Key Laboratory of Crop Gene Resource and Breeding, Institute of Crop Science, Chinese Academy of Agricultural Sciences, Beijing, China.

出版信息

Plant Biotechnol J. 2025 Sep;23(9):3638-3649. doi: 10.1111/pbi.70180. Epub 2025 Jun 9.

DOI:10.1111/pbi.70180

PMID:40488633

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12392937/

Abstract

Tillering ability is a crucial agronomic trait that determines rice yield potential. OsTB1 (the rice ortholog of TEOSINTE BRANCHED 1) and OsTCP19 of the TCP protein family are two key repressors of rice tillering. Until now, their post-translational regulatory mechanisms have remained elusive. In this study, we identified the F-box protein RCN127 as a novel post-translational regulator that promotes rice tillering by targeting them for degradation. The rcn127 mutant exhibits reduced tillering. The target gene RCN127 encodes an F-box protein that localizes in both the nucleus and cytoplasm, with higher expression levels in roots, stem bases, and young panicles. We demonstrate that RCN127 physically interacts with both OsTB1 and OsTCP19, mediating their ubiquitination and subsequent degradation via the 26S proteasome pathway. This reduction in OsTB1 and OsTCP19 protein levels weakens their suppression on tillering, leading to significantly increased tiller numbers. Importantly, RCN127-mediated regulation enhances grain yield in both the model variety Nipponbare and the dominant cultivated variety LJ31, providing a promising strategy for yield improvement. Therefore, our study unveils a novel post-translational regulatory mechanism of TCP protein family, providing a new strategy to increase grain yield by enhancing rice tillering capacity.

摘要

分蘖能力是决定水稻产量潜力的关键农艺性状。TCP蛋白家族的OsTB1（玉米分枝1的水稻直系同源基因）和OsTCP19是水稻分蘖的两个关键抑制因子。迄今为止，它们的翻译后调控机制仍不清楚。在本研究中，我们鉴定出F-box蛋白RCN127是一种新型的翻译后调控因子，它通过靶向降解OsTB1和OsTCP19来促进水稻分蘖。rcn127突变体的分蘖减少。目标基因RCN127编码一种F-box蛋白，该蛋白定位于细胞核和细胞质中，在根、茎基部和幼穗中表达水平较高。我们证明RCN127与OsTB1和OsTCP19都发生物理相互作用，通过26S蛋白酶体途径介导它们的泛素化及随后的降解。OsTB1和OsTCP19蛋白水平的这种降低削弱了它们对分蘖的抑制作用，导致分蘖数显著增加。重要的是，RCN127介导的调控提高了模式品种日本晴和主栽品种LJ31的谷物产量，为产量提高提供了一种有前景的策略。因此，我们的研究揭示了TCP蛋白家族一种新的翻译后调控机制，为通过增强水稻分蘖能力来提高谷物产量提供了一种新策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c8d/12392937/d1a2f008177a/PBI-23-3638-g005.jpg

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F-box蛋白RCN127通过介导OsTB1和OsTCP19的降解来提高水稻分蘖数和籽粒产量。

The F-box protein RCN127 enhances rice tillering and grain yield by mediating the degradation of OsTB1 and OsTCP19.

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