为未来的作物做好准备：重新构建胁迫记忆。

Priming crops for the future: rewiring stress memory.

作者信息

Liu Haipei, Able Amanda J, Able Jason A

机构信息

School of Agriculture, Food & Wine, Waite Research Institute, The University of Adelaide, Urrbrae, SA 5064, Australia.

出版信息

Trends Plant Sci. 2022 Jul;27(7):699-716. doi: 10.1016/j.tplants.2021.11.015. Epub 2021 Dec 11.

DOI:10.1016/j.tplants.2021.11.015

PMID:34906381

Abstract

The agricultural sector must produce resilient and climate-smart crops to meet the increasing needs of global food production. Recent advancements in elucidating the mechanistic basis of plant stress memory have provided new opportunities for crop improvement. Stress memory-coordinated changes at the organismal, cellular, and various omics levels prepare plants to be more responsive to reoccurring stress within or across generation(s). The exposure to a primary stress, or stress priming, can also elicit a beneficial impact when encountering a secondary abiotic or biotic stress through the convergence of synergistic signalling pathways, referred to as cross-stress tolerance. 'Rewired plants' with stress memory provide a new means to stimulate adaptable stress responses, safeguard crop reproduction, and engineer climate-smart crops for the future.

摘要

农业部门必须培育出适应力强且气候智能型的作物，以满足全球粮食生产不断增长的需求。近期在阐明植物应激记忆的机制基础方面取得的进展为作物改良提供了新机遇。应激记忆在生物体、细胞和各种组学水平上协调变化，使植物能对同一代或跨代反复出现的应激做出更积极的反应。经历一次初级应激（即应激引发），在遭遇二次非生物或生物应激时，通过协同信号通路的汇聚（即交叉应激耐受性），也可产生有益影响。具有应激记忆的“重新布线植物”为激发适应性应激反应、保障作物繁殖以及培育未来气候智能型作物提供了新途径。

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为未来的作物做好准备：重新构建胁迫记忆。

Priming crops for the future: rewiring stress memory.

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