[The evolution of heat shock genes and expression patterns of heat shock proteins in the species from temperature contrasting habitats].

Genetika Pub Date : 2017-01-01
D G Garbuz, M B Evgen’ev
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Abstract

Heat shock genes are the most evolutionarily ancient among the systems responsible for adaptation of organisms to a harsh environment. The encoded proteins (heat shock proteins, Hsps) represent the most important factors of adaptation to adverse environmental conditions. They serve as molecular chaperones, providing protein folding and preventing aggregation of damaged cellular proteins. Structural analysis of the heat shock genes in individuals from both phylogenetically close and very distant taxa made it possible to reveal the basic trends of the heat shock gene organization in the context of adaptation to extreme conditions. Using different model objects and nonmodel species from natural populations, it was demonstrated that modulation of the Hsps expression during adaptation to different environmental conditions could be achieved by changing the number and structural organization of heat shock genes in the genome, as well as the structure of their promoters. It was demonstrated that thermotolerant species were usually characterized by elevated levels of Hsps under normal temperature or by the increase in the synthesis of these proteins in response to heat shock. Analysis of the heat shock genes in phylogenetically distant organisms is of great interest because, on one hand, it contributes to the understanding of the molecular mechanisms of evolution of adaptogenes and, on the other hand, sheds the light on the role of different Hsps families in the development of thermotolerance and the resistance to other stress factors.

[热休克基因的进化和热休克蛋白在不同温度环境下的表达模式]。
热休克基因是负责生物体适应恶劣环境的最古老的进化系统。编码的蛋白质(热休克蛋白,Hsps)代表了适应不利环境条件的最重要因素。它们充当分子伴侣,提供蛋白质折叠并防止受损细胞蛋白质聚集。对系统发育相近和距离较远的类群个体的热休克基因进行结构分析,可以揭示热休克基因组织在适应极端条件下的基本趋势。利用不同的模型对象和来自自然种群的非模式物种,研究表明,在适应不同环境条件的过程中,可以通过改变基因组中热休克基因的数量和结构组织以及启动子的结构来调节热休克蛋白的表达。结果表明,耐热物种的特征通常是在常温下热休克蛋白水平升高,或者在热休克反应中这些蛋白的合成增加。对系统发育较远的生物热休克基因的分析具有重要意义,因为它一方面有助于了解适应基因的分子进化机制,另一方面有助于揭示不同热休克蛋白家族在耐热性和对其他胁迫因素的抗性发展中的作用。
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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