Uncovering the function of peptides: Bridging hormone signaling, microbial interactions, and root development in plants

New Crops Pub Date : 2024-01-29 DOI:10.1016/j.ncrops.2024.100011

Yuwen Zhang , Xingliang Duan , Yuanming Xie, Wei Xuan

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Abstract

Plant root systems are critical for absorbing water and nutrients and anchoring plants in the soil, and their development is regulated by phytohormones and complex signaling pathways. Recent studies have identified small peptides as essential players in governing root development, binding to specific receptors on the cell membrane, and triggering signaling processes. In this study, we summarize recent advances in small peptide regulation of root system architecture and tissue organization, as well as the molecular interaction between peptides and canonical hormone signaling. Additionally, we discuss the functions of small peptides in modulating root development responses to environmental forces like nitrogen and phosphate starvation, osmotic stress, and soil microbes through the activation of local and systemic signaling pathways. This review offers a comprehensive overview of peptide signaling during plant root development and prospects for further crop breeding applications.

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揭示肽的功能：连接植物的激素信号、微生物相互作用和根系发育

植物根系是吸收水分和养分以及将植物固定在土壤中的关键，其发育受植物激素和复杂信号途径的调控。最近的研究发现，小肽是调控根系发育、与细胞膜上的特定受体结合并触发信号传导过程的重要角色。在本研究中，我们总结了小肽调控根系结构和组织的最新进展，以及小肽与典型激素信号之间的分子相互作用。此外，我们还讨论了小肽在通过激活局部和系统信号通路来调节根系发育对氮磷饥饿、渗透胁迫和土壤微生物等环境力量的反应方面的功能。这篇综述全面概述了植物根系发育过程中的多肽信号传导以及作物育种的进一步应用前景。

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New Crops

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