Melatonin as a key regulator in seed germination under abiotic stress

IF 8.3 1区 医学 Q1 ENDOCRINOLOGY & METABOLISM Journal of Pineal Research Pub Date : 2024-01-19 DOI:10.1111/jpi.12937
Lei Wang, Mohsin Tanveer, Hongling Wang, Marino B. Arnao
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Abstract

Seed germination (SG) is the first stage in a plant's life and has an immense importance in sustaining crop production. Abiotic stresses reduce SG by increasing the deterioration of seed quality, and reducing germination potential, and seed vigor. Thus, to achieve a sustainable level of crop yield, it is important to improve SG under abiotic stress conditions. Melatonin (MEL) is an important biomolecule that interplays in developmental processes and regulates many adaptive responses in plants, especially under abiotic stresses. Thus, this review specifically summarizes and discusses the mechanistic basis of MEL-mediated SG under abiotic stresses. MEL regulates SG by regulating some stress-specific responses and some common responses. For instance, MEL induced stress specific responses include the regulation of ionic homeostasis, and hydrolysis of storage proteins under salinity stress, regulation of C-repeat binding factors signaling under cold stress, starch metabolism under high temperature and heavy metal stress, and activation of aquaporins and accumulation of osmolytes under drought stress. On other hand, MEL mediated regulation of gibberellins biosynthesis and abscisic acid catabolism, redox homeostasis, and Ca2+ signaling are amongst the common responses. Nonetheless factors such as endogenous MEL contents, plant species, and growth conditions also influence above-mentioned responses. In conclusion, MEL regulates SG under abiotic stress conditions by interacting with different physiological mechanisms.

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褪黑素是非生物胁迫下种子萌发的关键调节因子。
种子萌发(SG)是植物生命的第一阶段,对维持作物生产具有极其重要的意义。非生物胁迫会加剧种子质量的恶化,降低萌发潜力和种子活力,从而降低种子萌发率。因此,要实现可持续的作物产量水平,就必须提高非生物胁迫条件下的SG。褪黑激素(MEL)是一种重要的生物大分子,它参与植物的发育过程并调节植物的许多适应性反应,尤其是在非生物胁迫条件下。因此,本综述特别总结并讨论了非生物胁迫下 MEL 介导的 SG 的机理基础。MEL 通过调节一些胁迫特异性反应和一些常见反应来调控 SG。例如,MEL诱导的胁迫特异性反应包括盐胁迫下的离子平衡调节和贮藏蛋白水解、冷胁迫下的C-重复结合因子信号调节、高温和重金属胁迫下的淀粉代谢以及干旱胁迫下的水汽蛋白激活和渗透溶质积累。另一方面,MEL 介导的赤霉素生物合成和脱落酸分解、氧化还原平衡和 Ca2+ 信号转导调节也是常见的反应之一。不过,内源 MEL 含量、植物种类和生长条件等因素也会影响上述反应。总之,MEL 通过与不同的生理机制相互作用,调节非生物胁迫条件下的 SG。
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来源期刊
Journal of Pineal Research
Journal of Pineal Research 医学-内分泌学与代谢
CiteScore
17.70
自引率
4.90%
发文量
66
审稿时长
1 months
期刊介绍: The Journal of Pineal Research welcomes original scientific research on the pineal gland and melatonin in vertebrates, as well as the biological functions of melatonin in non-vertebrates, plants, and microorganisms. Criteria for publication include scientific importance, novelty, timeliness, and clarity of presentation. The journal considers experimental data that challenge current thinking and welcomes case reports contributing to understanding the pineal gland and melatonin research. Its aim is to serve researchers in all disciplines related to the pineal gland and melatonin.
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