植物小分子非编码RNA:从基础科学到创新应用。

Giulia Tarquini, Erika Cione
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引用次数: 0

摘要

植物拥有不同种类的可变大小的小rna (sRNAs),它们通过转录或转录后基因沉默在多种生理和病理过程中发挥调节作用。农业在未来几十年将面临的严峻挑战,例如与全球人口增长有关的对农业食品生产的需求不断增加,刺激了农业创新生物技术方法的发展。在这方面,人工srna的使用已经成功地用于许多目的,包括控制严重的植物疾病,改善栽培物种的遗传和农艺性状,以及增加植物食品的营养价值。这种策略依赖于应用合成的sRNA分子,通过触发适当的RNA沉默途径来诱导特定的生理反应。本文从植物中RNA沉默机制的多样性出发,综述了人工RNA的应用。此外,讨论还探讨了来自可食用植物和外泌体样囊泡的microrna,也称为植物源性可食用纳米颗粒(ENPs),它们本身可以作为微量营养素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Small Non-coding RNA in Plants: From Basic Science to Innovative Applications.

Plants possess an arsenal of different classes of small RNAs (sRNAs) of variable size, which play a regulatory role in a multitude of physiological and pathological processes via transcriptional or post-transcriptional gene silencing. The hard challenges that agriculture will face in the next few decades, such as an increasing demand for agrifood production related to the global increase in population, have stimulated the development of innovative biotechnological approaches in agriculture. In this regard, the use of artificial sRNAs has already been exploited successfully for many purposes, including control of severe plant diseases, improvement of genetic and agronomic traits of cultivated species, and increasing the nutritional value of plant foodstuffs. This strategy relies on the application of synthetic sRNA molecules to induce specific physiological responses by triggering appropriate RNA silencing pathways. This review contextualizes the use of artificial sRNAs in consideration of the huge diversity of RNA silencing mechanisms in plants. Additionally, the discussion also examines microRNAs from edible plants and exosome-like vesicles, also known as plant-derived edible nanoparticles (ENPs), which themselves can act as micronutrients.

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