SlBES1-mediated brassinosteroid signaling suppresses flavonoid biosynthesis in tomato fruit.

IF 11.6 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Plant Communications Pub Date : 2025-09-09 DOI:10.1016/j.xplc.2025.101523

Yue Jian, Yuening Li, Haoran Liu, Songshen Hu, Chengguo Jia, Shunhao Yu, Zhiyong Shao, Xi Ou, Jiaxin Yang, Fanliang Meng, Lihong Liu, Qiaomei Wang

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引用次数: 0

Abstract

With the improvement of living standards, consumers' demands for color diversity and nutritional quality of tomato products have increased. Flavonoid is a considerable index of peel color and nutritional quality in tomato fruit, where flavonoid biosynthesis is controlled by various phytohormones, including brassinosteroids (BRs). However, the underlying mechanism by which BR regulates flavonoid biosynthesis is still unknown. Here, we found that exogenous BR inhibits flavonoid accumulation, while reduced endogenous BR in RNA interference (RNAi) lines of SlCYP90B3, a rate-limiting BR biosynthetic gene, results in increased flavonoid content in fruit peel. Furthermore, we observed that BRI1-EMS-suppressor1 (SlBES1), a bHLH transcription factor essential for BR signaling, not only regulates fruit firmness, but also suppresses flavonoid accumulation by directly binding to the promoters of flavonoid biosynthetic genes SlCHS1, SlCHS2, and SlF3'H. Additionally, SlBES1 modulates a hierarchical transcriptional cascade to suppress flavonoid biosynthesis via repressing SlMYB12. Moreover, the homologous gene Brassinazole-resistant1 (SlBZR1) enhances the SlBES1-mediated repression of flavonoid accumulation. Specifically, SlBES1 predominantly inhibits the flavonoid biosynthesis, whereas SlBZR1 primarily enhances the carotenoid pathway. Interestingly, the variation of SlBES1 was correlated with flavonoid content during tomato domestication. Collectively, these findings provide new insights into novel role of SlBES1 as a negative regulator of flavonoid biosynthesis with potential for biofortification of flavonoid in tomato.

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slbes1介导的油菜素内酯信号抑制番茄果实中类黄酮的生物合成。

随着生活水平的提高，消费者对番茄产品颜色多样性和营养品质的要求也越来越高。类黄酮是衡量番茄果实果皮颜色和营养品质的重要指标，其中类黄酮的生物合成受多种植物激素的控制，包括油菜素内酯（BRs）。然而，BR调控类黄酮生物合成的潜在机制尚不清楚。本研究发现，外源BR抑制了类黄酮的积累，而在限制性BR生物合成基因SlCYP90B3的RNA干扰（RNAi）系中，内源BR的减少导致果皮中类黄酮含量的增加。此外，我们发现br1 - ems -suppressor1 （SlBES1）是BR信号通路必需的bHLH转录因子，它不仅可以调节果实硬度，还可以通过直接结合类黄酮合成基因SlCHS1、SlCHS2和SlF3'H的启动子来抑制类黄酮的积累。此外，SlBES1通过抑制SlMYB12调节分级转录级联来抑制类黄酮的生物合成。此外，同源基因SlBZR1增强了slbes1介导的类黄酮积累的抑制。其中，SlBES1主要抑制类黄酮的生物合成，而SlBZR1主要增强类胡萝卜素途径。有趣的是，SlBES1基因的变异与番茄驯化过程中类黄酮含量相关。总之，这些发现为SlBES1作为类黄酮生物合成负调控因子的新作用提供了新的见解，并具有在番茄中生物强化类黄酮的潜力。

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

Plant Communications Agricultural and Biological Sciences-Plant Science

CiteScore

15.70

自引率

5.70%

发文量

105

审稿时长

6 weeks

期刊介绍： Plant Communications is an open access publishing platform that supports the global plant science community. It publishes original research, review articles, technical advances, and research resources in various areas of plant sciences. The scope of topics includes evolution, ecology, physiology, biochemistry, development, reproduction, metabolism, molecular and cellular biology, genetics, genomics, environmental interactions, biotechnology, breeding of higher and lower plants, and their interactions with other organisms. The goal of Plant Communications is to provide a high-quality platform for the dissemination of plant science research.