应激诱导进化的生理机制。

Elizabeth A Mojica, D. Kültz
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引用次数: 7

摘要

每当环境参数超过有利于维持体内平衡的范围时,生物体就会产生细胞应激反应。这种反应对紧急情况下的生存至关重要,因为它保护大分子的完整性,从而保护细胞/生物体的功能。从进化的角度来看,细胞的应激反应通过一种称为应激诱导进化的过程来加速适应,从而抵消严重的应激。本文综述了应激诱导进化的五种主要生理机制。也就是说,这些是应激诱导的变化:(1)突变率,(2)组蛋白翻译后修饰,(3)DNA甲基化,(4)染色体发生和(5)转座因子活性。通过这些机制中的每一种,生物体迅速产生可遗传的表型,这些表型在特定环境中可能是适应性的、不适应性的或中性的。不管它们对个体适应性的影响如何,这些机制在种群水平上产生表型变异。由于变异促进了自然选择,压力诱导进化的生理机制增加了种群避免灭绝的可能性,而不是在新环境条件的压力下适应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Physiological mechanisms of stress-induced evolution.
Organisms mount the cellular stress response whenever environmental parameters exceed the range that is conducive to maintaining homeostasis. This response is critical for survival in emergency situations because it protects macromolecular integrity and, therefore, cell/organismal function. From an evolutionary perspective, the cellular stress response counteracts severe stress by accelerating adaptation via a process called stress-induced evolution. In this Review, we summarize five key physiological mechanisms of stress-induced evolution. Namely, these are stress-induced changes in: (1) mutation rates, (2) histone post-translational modifications, (3) DNA methylation, (4) chromoanagenesis and (5) transposable element activity. Through each of these mechanisms, organisms rapidly generate heritable phenotypes that may be adaptive, maladaptive or neutral in specific contexts. Regardless of their consequences to individual fitness, these mechanisms produce phenotypic variation at the population level. Because variation fuels natural selection, the physiological mechanisms of stress-induced evolution increase the likelihood that populations can avoid extirpation and instead adapt under the stress of new environmental conditions.
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