通过转录组变化透视植物记忆--利用植物转录记忆的最新进展和未来实践前景。

Plant signaling & behavior Pub Date : 2024-12-31 Epub Date: 2024-07-30 DOI:10.1080/15592324.2024.2383515
Dóra Farkas, Judit Dobránszki
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引用次数: 0

摘要

植物记忆在高效、快速地适应瞬息万变的环境方面发挥着重要作用。此外,由于植物记忆可以遗传,它还具有适应和进化的重要性。植物存储、保留、检索和删除所获经验信息的能力基于植物的细胞、生化和分子网络。本综述基于我们现有的知识,对植物记忆的形成、类型和检查点进行了最新概述,重点关注其转录方面,即转录记忆。综述了长非编码 RNA 和小非编码 RNA 在植物记忆不同层次的调节、形成和合作中的作用,即在建立与植物记忆形成相关的表观遗传变化中的作用。还介绍了 RNA 和 DNA 水平的 RNA 干扰机制以及它们之间的相互作用。此外,本综述还介绍了如何利用植物转录记忆为制定具有成本效益的有效战略提供新的机遇,以应对气候变化造成的不断变化的环境干扰。此外,还讨论了基于植物记忆的方法在未来农业中的潜力,如作物引诱、交叉适应、miRNAs 记忆修饰和植物记忆的联用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vegetal memory through the lens of transcriptomic changes - recent progress and future practical prospects for exploiting plant transcriptional memory.

Plant memory plays an important role in the efficient and rapid acclimation to a swiftly changing environment. In addition, since plant memory can be inherited, it is also of adaptive and evolutionary importance. The ability of a plant to store, retain, retrieve and delete information on acquired experience is based on cellular, biochemical and molecular networks in the plants. This review offers an up-to-date overview on the formation, types, checkpoints of plant memory based on our current knowledge and focusing on its transcriptional aspects, the transcriptional memory. Roles of long and small non-coding RNAs are summarized in the regulation, formation and the cooperation between the different layers of the plant memory, i.e. in the establishment of epigenetic changes associated with memory formation in plants. The RNA interference mechanisms at the RNA and DNA level and the interplays between them are also presented. Furthermore, this review gives an insight of how exploitation of plant transcriptional memory may provide new opportunities for elaborating promising cost-efficient, and effective strategies to cope with the ever-changing environmental perturbations, caused by climate change. The potentials of plant memory-based methods, such as crop priming, cross acclimatization, memory modification by miRNAs and associative use of plant memory, in the future's agriculture are also discussed.

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