植物次生代谢中替代剪接的相关性和调控:当前认识和未来方向。

IF 7.6 Q1 GENETICS & HEREDITY
园艺研究(英文) Pub Date : 2024-07-02 eCollection Date: 2024-08-01 DOI:10.1093/hr/uhae173
Zihan Xu, Ying Xiao, Jinlin Guo, Zongyou Lv, Wansheng Chen
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引用次数: 0

摘要

植物的次生代谢是一个重要的生命过程,它使生物体能够在植物发育的各个阶段游刃有余,并应对不断变化的环境压力。次生代谢产物在自然界中大量存在,具有重要的药用价值。在这些代谢过程的调控机制中,替代剪接是多细胞生物中广泛存在的转录后机制。它通过选择不同的剪接位点,促进单个基因产生多个 mRNA 转录本。植物中的选择性剪接事件受到各种信号的广泛诱导,包括外部环境胁迫和激素信号。这些事件通过影响初级代谢产物的合成、激素代谢、生物量积累和毛细管密度,最终调节植物的次级代谢过程和重要次级代谢产物的积累。与此同时,替代剪接在提高蛋白质多样性和转录组丰度方面发挥着至关重要的作用。本文概述了植物中诱导替代剪接事件的因素,并系统地介绍了在调节不同次生代谢物(包括萜类、酚类化合物和含氮化合物)的替代剪接方面取得的进展。这种阐明为理解替代剪接在调节植物代谢中的作用提供了重要的基础见解,并为生物工程提供了新的途径和前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Relevance and regulation of alternative splicing in plant secondary metabolism: current understanding and future directions.

The secondary metabolism of plants is an essential life process enabling organisms to navigate various stages of plant development and cope with ever-changing environmental stresses. Secondary metabolites, abundantly found in nature, possess significant medicinal value. Among the regulatory mechanisms governing these metabolic processes, alternative splicing stands out as a widely observed post-transcriptional mechanism present in multicellular organisms. It facilitates the generation of multiple mRNA transcripts from a single gene by selecting different splicing sites. Selective splicing events in plants are widely induced by various signals, including external environmental stress and hormone signals. These events ultimately regulate the secondary metabolic processes and the accumulation of essential secondary metabolites in plants by influencing the synthesis of primary metabolites, hormone metabolism, biomass accumulation, and capillary density. Simultaneously, alternative splicing plays a crucial role in enhancing protein diversity and the abundance of the transcriptome. This paper provides a summary of the factors inducing alternative splicing events in plants and systematically describes the progress in regulating alternative splicing with respect to different secondary metabolites, including terpenoid, phenolic compounds, and nitrogen-containing compounds. Such elucidation offers critical foundational insights for understanding the role of alternative splicing in regulating plant metabolism and presents novel avenues and perspectives for bioengineering.

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