GhTTL启动子的自然变异通过GhTALE-GhTTL-GhBIN2模块调节棉纤维伸长。

IF 11.6 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Plant Communications Pub Date : 2025-09-03 DOI:10.1016/j.xplc.2025.101498

Le Liu, Zhao Liu, Liqiang Fan, Mengli Yu, Ghulam Qanmber, Longfei Wang, Yujun Li, Fuguang Li, Shuangxia Jin, Zuoren Yang

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引用次数: 0

摘要

棉花纤维长度是棉花工业用途的关键决定因素，也是棉花驯化最重要的农业性状之一。然而，纤维长度自然变异的遗传决定因素和分子机制仍然没有得到充分的表征。我们通过全基因组关联分析（GWAS）发现GhTTL是纤维伸长的关键正调节因子。研究表明，GhTTL启动子区域的自然多态性显著影响转录因子GhTALE与其顺式调控元件的结合亲和力，从而调节不同棉花群体中GhTTL的表达水平。机制研究表明，GhTTL与GhBIN2相互作用，GhBIN2是油菜素内酯（BR）信号通路的中心负调节因子，并将其锚定在细胞膜上。这种相互作用降低了GhBIN2的细胞质水平，阻止其与GhBES1结合，GhBES1是BR信号的主要转录因子。因此，这有利于GhBES1的核定位，从而促进纤维细胞的伸长。这些发现阐明了棉纤维长度自然变化的分子基础，为纤维伸长的调控提供了更深入的见解。此外，本研究还强调了棉纤维品质和产量遗传改良的潜在目标。

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Natural variation in the GhTTL promoter modulates cotton fiber elongation through the GhTALE-GhTTL-GhBIN2 module.

In cotton, fiber length is a key determinant of industrial utility and is one of the most important agricultural traits shaped during domestication. However, the genetic determinants and molecular mechanisms underlying natural variation in fiber length remain poorly characterized. In this study, we identified GhTTL as a critical positive regulator of fiber elongation through genome-wide association study (GWAS). Natural polymorphisms in the cis-regulatory element of theGhTTL promoter region were found to significantly affect its binding affinity for the transcription factor GhTALE, thereby modulating GhTTL expression across diverse cotton populations. Mechanistic investigations revealed that GhTTL interacts with GhBIN2, a central negative regulator of the brassinosteroid (BR) signaling pathway, and anchors it to the cell membrane. This reduces cytoplasmic GhBIN2 levels, preventing it from associating with GhBES1, a master transcription factor of BR signaling. As a result, GhBES1 localizes to the nucleus, where it promotes fiber cell elongation. These findings elucidate the molecular basis of natural variation in cotton fiber length and provide deeper insights into the regulation of fiber elongation. In addition, this study identifies potential targets for genetic improvement to enhance cotton fiber quality and yield.

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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.