Bleaching physiology: who's the 'weakest link' - host vs. symbiont?

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Stéphane Roberty, Jean-Christophe Plumier
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引用次数: 3

Abstract

Environmental stress, such as an increase in the sea surface temperature, triggers coral bleaching, a profound dysfunction of the mutualist symbiosis between the host cnidarians and their photosynthetic dinoflagellates of the Family Symbiodiniaceae. Because of climate change, mass coral bleaching events will increase in frequency and severity in the future, threatening the persistence of this iconic marine ecosystem at global scale. Strategies adapted to coral reefs preservation and restoration may stem from the identification of the succession of events and of the different molecular and cellular contributors to the bleaching phenomenon. To date, studies aiming to decipher the cellular cascade leading to temperature-related bleaching, emphasized the involvement of reactive species originating from compromised bioenergetic pathways (e.g. cellular respiration and photosynthesis). These molecules are responsible for damage to various cellular components causing the dysregulation of cellular homeostasis and the breakdown of symbiosis. In this review, we synthesize the current knowledge available in the literature on the cellular mechanisms caused by thermal stress, which can initiate or participate in the cell cascade leading to the loss of symbionts, with a particular emphasis on the role of each partner in the initiating processes.

漂白生理学:谁是“最薄弱的环节”——宿主还是共生体?
环境压力,如海水表面温度的升高,会引发珊瑚白化,这是共生菌科寄主刺胞动物和它们的光合鞭毛藻之间共生关系的严重失调。由于气候变化,未来大规模珊瑚白化事件的频率和严重程度将增加,威胁到这一标志性海洋生态系统在全球范围内的持久性。适应于珊瑚礁保护和恢复的策略可能源于对事件演替的识别以及对白化现象的不同分子和细胞贡献者的识别。迄今为止,旨在破译导致温度相关白化的细胞级联的研究强调了源自受损生物能量途径(例如细胞呼吸和光合作用)的反应性物种的参与。这些分子负责破坏各种细胞成分,导致细胞稳态失调和共生关系的破坏。在这篇综述中,我们综合了目前文献中关于热应激引起的细胞机制的现有知识,热应激可以启动或参与导致共生体丧失的细胞级联反应,并特别强调了每个伙伴在启动过程中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.70
自引率
0.00%
发文量
94
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