酿酒酵母固定期转录激活过程中HSP12的染色质构象。

Q1 Biochemistry, Genetics and Molecular Biology Advances in biological regulation Pub Date : 2023-09-16 DOI:10.1016/j.jbior.2023.100986
Yuri D'Alessio, Anna D'Alfonso, Giorgio Camilloni
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引用次数: 0

摘要

在进化过程中,活细胞已经发展出复杂的分子和生理过程来应对各种压力。这些机制共同构成了环境应激反应,涉及数百个基因的激活/抑制,这些基因被调节以快速有效地反应来保护细胞。主要的压力源包括环境温度和渗透压的突然升高、接触重金属、营养限制、ROS积累和蛋白质损伤事件。酿酒酵母的生长阶段从指数期到过渡期,最后达到稳定期。正是在后一阶段,主要的压力源事件更加活跃。在目前的工作中,我们的目的是了解压力源的突然出现所引发的反应,比如细胞在经历静止期时发生的反应,是否与同一刺激逐渐增加所诱导的反应不同或相似。为此,我们研究了HSP家族蛋白的HSP12基因的表达,通常由应激条件诱导,重点是染色质在这种调节中的作用。核小体占据和三维染色质构象的分析表明,在应激刺激的突然和逐渐发作时,不同的反应途径被激活。在这里,我们发现是HSP12的三维染色质结构,而不是核小体重塑,在HSP12的稳定期转录中发生了改变。
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Chromatin conformations of HSP12 during transcriptional activation in the Saccharomyces cerevisiae stationary phase

During evolution, living cells have developed sophisticated molecular and physiological processes to cope with a variety of stressors. These mechanisms, which collectively constitute the Environmental Stress Response, involve the activation/repression of hundreds of genes that are regulated to respond rapidly and effectively to protect the cell. The main stressors include sudden increases in environmental temperature and osmolarity, exposure to heavy metals, nutrient limitation, ROS accumulation, and protein-damaging events. The growth stages of the yeast S. cerevisiae proceed from the exponential to the diauxic phase, finally reaching the stationary phase. It is in this latter phase that the main stressor events are more active. In the present work, we aim to understand whether the responses evoked by the sudden onset of a stressor, like what happens to cells going through the stationary phase, would be different or similar to those induced by a gradual increase in the same stimulus. To this aim, we studied the expression of the HSP12 gene of the HSP family of proteins, typically induced by stress conditions, with a focus on the role of chromatin in this regulation. Analyses of nucleosome occupancy and three-dimensional chromatin conformation suggest the activation of a different response pathway upon a sudden vs a gradual onset of a stress stimulus. Here we show that it is the three-dimensional chromatin structure of HSP12, rather than nucleosome remodeling, that becomes altered in HSP12 transcription during the stationary phase.

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来源期刊
Advances in biological regulation
Advances in biological regulation Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
8.90
自引率
0.00%
发文量
41
审稿时长
17 days
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