Centre for Cellular and Molecular Biology (Council of Scientific and Industrial Research), Uppal Road, Hyderabad 500007, India.
Centre for Cellular and Molecular Biology (Council of Scientific and Industrial Research), Uppal Road, Hyderabad 500007, India.
Biochim Biophys Acta Gene Regul Mech. 2018 Apr;1861(4):295-309. doi: 10.1016/j.bbagrm.2017.11.008. Epub 2017 Dec 5.
The short, non-coding genes transcribed by the RNA polymerase (pol) III, necessary for survival of a cell, need to be repressed under the stress conditions in vivo. The pol III-transcribed genes have adopted several novel chromatin-based regulatory mechanisms to their advantage. In the budding yeast, the sub-nucleosomal size tRNA genes are found in the nucleosome-free regions, flanked by positioned nucleosomes at both the ends. With their chromosomes-wide distribution, all tRNA genes have a different chromatin context. A single nucleosome dynamics controls the accessibility of the genes for transcription. This dynamics operates under the influence of several chromatin modifiers in a gene-specific manner, giving the scope for differential regulation of even the isogenes within a tRNA gene family. The chromatin structure around the pol III-transcribed genes provides a context conducive for steady-state transcription as well as gene-specific transcriptional regulation upon signaling from the environmental cues. This article is part of a Special Issue entitled: SI: Regulation of tRNA synthesis and modification in physiological conditions and disease edited by Dr. Boguta Magdalena.
由 RNA 聚合酶(pol)III 转录的短非编码基因对于细胞的生存是必需的,但在体内应激条件下需要被抑制。pol III 转录的基因已经采用了几种新颖的基于染色质的调节机制来发挥其优势。在 budding yeast 中,亚核小体大小的 tRNA 基因存在于无核小体区域,两端由定位核小体包围。由于它们在染色体上的广泛分布,所有 tRNA 基因都具有不同的染色质背景。单个核小体动力学控制基因转录的可及性。这种动力学以基因特异性的方式受到几种染色质修饰物的影响,即使在 tRNA 基因家族内的同基因中也存在差异调节的范围。pol III 转录基因周围的染色质结构提供了有利于稳定转录的环境,以及在环境信号发出时进行基因特异性转录调节的环境。本文是由 Magdalena Boguta 博士编辑的题为“SI:生理条件和疾病下 tRNA 合成和修饰的调控”的特刊的一部分。
