MicroRNAs as potent regulators in nitrogen and phosphorus signaling transduction and their applications.

Yuzhang Yang, Yanting Liang, Chun Wang, Yanwei Wang
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Abstract

Nitrogen (N) and phosphorus (Pi) are essential macronutrients that affect plant growth and development by influencing the molecular, metabolic, biochemical, and physiological responses at the local and whole levels in plants. N and Pi stresses suppress the physiological activities of plants, resulting in agricultural productivity losses and severely threatening food security. Accordingly, plants have elaborated diverse strategies to cope with N and Pi stresses through maintaining N and Pi homeostasis. MicroRNAs (miRNAs) as potent regulators fine-tune N and Pi signaling transduction that are distinct and indivisible from each other. Specific signals, such as noncoding RNAs (ncRNAs), interact with miRNAs and add to the complexity of regulation. Elucidation of the mechanisms by which miRNAs regulate N and Pi signaling transduction aids in the breeding of plants with strong tolerance to N and Pi stresses and high N and Pi use efficiency by fine-tuning MIR genes or miRNAs. However, to date, there has been no detailed and systematic introduction and comparison of the functions of miRNAs in N and Pi signaling transduction from the perspective of miRNAs and their applications. Here, we summarized and discussed current advances in the involvement of miRNAs in N and Pi signaling transduction and highlighted that fine-tuning the MIR genes or miRNAs involved in maintaining N and Pi homeostasis might provide valuable sights for sustainable agriculture.

作为氮磷信号转导强效调控因子的微RNA及其应用。
氮(N)和磷(Pi)是植物必需的大量营养元素,它们通过影响植物局部和整体水平的分子、代谢、生化和生理反应来影响植物的生长和发育。氮和钾胁迫会抑制植物的生理活动,导致农业生产力损失,严重威胁粮食安全。因此,植物制定了多种策略,通过维持 N 和 Pi 的平衡来应对 N 和 Pi 胁迫。微小核糖核酸(miRNA)作为强有力的调控因子,可微调 N 和 Pi 信号转导,这两种信号转导既相互独立又不可分割。非编码 RNA(ncRNA)等特定信号与 miRNA 相互作用,增加了调控的复杂性。阐明 miRNA 调控 N 和 Pi 信号转导的机制有助于通过微调 MIR 基因或 miRNA 培育出对 N 和 Pi 胁迫具有较强耐受性和较高 N 和 Pi 利用效率的植物。然而,迄今为止,还没有从miRNAs及其应用的角度对miRNAs在N和Pi信号转导中的功能进行详细、系统的介绍和比较。在此,我们总结并讨论了目前 miRNA 参与 N 和 Pi 信号转导的研究进展,并强调微调参与维持 N 和 Pi 平衡的 MIR 基因或 miRNA 可能会为可持续农业提供有价值的视角。
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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CiteScore
3.10
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