The OsSRO1c-OsDREB2B complex undergoes protein phase transition to enhance cold tolerance in rice.

IF 17.1 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Plant Pub Date : 2024-08-21 DOI:10.1016/j.molp.2024.08.006

Dan Hu, Yilong Yao, Yan Lv, Jun You, Yu Zhang, Qingya Lv, Jiawei Li, Stephanie Hutin, Haiyan Xiong, Chloe Zubieta, Xuelei Lai, Lizhong Xiong

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Abstract

Cold stress is one of the major abiotic stress factors affecting rice growth and development, leading to significant yield loss in the context of global climate change. Exploring natural variants that confer cold resistance and the underlying molecular mechanism responsible for this is the major strategy to breed cold tolerant rice varieties. Here, we show that the natural variations of a SIMILAR to RCD ONE (SRO) gene, OsSRO1c, confer cold tolerance in rice at both seedling and booting stages. OsSRO1c possesses intrinsic liquid-liquid phase separation ability in vivo and in vitro and recruits an AP2/ERF transcription factor and positive cold stress regulator, OsDREB2B, into its biomolecular condensates in the nucleus, resulting in elevated transcriptional activity of OsDREB2B. The OsSRO1c-OsDREB2B complex directly responds to low temperature through dynamic phase transitions and regulates key cold response genes, including COLD1. Furthermore, introgression of an elite haplotype of OsSRO1c into a cold susceptible indica rice significantly increases its cold resistance. Collectively, our work reveals a novel cold tolerance regulatory module in rice and provides promising genetic targets for molecular breeding of cold-tolerant rice varieties.

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OsSRO1c-OsDREB2B 复合物经历蛋白质相变以增强水稻的耐寒性。

冷胁迫是影响水稻生长发育的主要非生物胁迫因素之一，在全球气候变化的背景下会导致严重的产量损失。探索赋予抗寒性的天然变异及其潜在的分子机制是培育抗寒水稻品种的主要策略。在这里，我们发现一个与 RCD ONE 相似（SRO）基因 OsSRO1c 的天然变异在水稻幼苗和出苗阶段都具有抗寒性。OsSRO1c 在体内和体外都具有内在的液-液相分离能力，并能将 AP2/ERF 转录因子和冷胁迫正调控因子 OsDREB2B 募集到细胞核内的生物分子凝聚体中，从而提高 OsDREB2B 的转录活性。OsSRO1c-OsDREB2B 复合物通过动态相变直接响应低温，并调控包括 COLD1 在内的关键冷响应基因。此外，将 OsSRO1c 的精英单倍型导入到易感冷的籼稻中可显著提高其抗寒性。总之，我们的研究揭示了水稻中一个新的耐寒调控模块，为耐寒水稻品种的分子育种提供了有前景的遗传目标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular Plant 植物科学-生化与分子生物学

CiteScore

37.60

自引率

2.20%

发文量

1784

审稿时长

1 months

期刊介绍： Molecular Plant is dedicated to serving the plant science community by publishing novel and exciting findings with high significance in plant biology. The journal focuses broadly on cellular biology, physiology, biochemistry, molecular biology, genetics, development, plant-microbe interaction, genomics, bioinformatics, and molecular evolution. Molecular Plant publishes original research articles, reviews, Correspondence, and Spotlights on the most important developments in plant biology.