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通过细胞对细胞变异的转录调控

Exploring transcription regulation through cell-to-cell variability
课程网址: http://videolectures.net/mlsb2010_friedman_etr/  
主讲教师: Nir Friedman
开课单位: 耶路撒冷希伯来大学
开课时间: 2010-11-08
课程语种: 英语
中文简介:
细胞蛋白水平的调节是一个复杂的过程,涉及许多调节机制。这些调节机制引入一系列随机事件,导致细胞间蛋白质水平的变异。先前的研究表明,参与转录调控的干扰基因改变了蛋白质水平的变异性,但迄今为止,还没有系统地描述这些效应。在这里,我们利用酿酒酵母在广泛遗传扰动下的两个荧光报告子的单细胞表达水平来鉴定影响表达变异性的蛋白质。我们引入计算方法来确定每个扰动引入的可变性,并区分以协调方式影响两个记者的全局可变性和独立影响个别记者的局部可变性。根据基因的变异表型对其进行分类,可以识别功能上一致的群体,这些群体与转录调控的不同阶段有着广泛的关联。具体来说,我们发现与DNA维持、染色质调节和RNA合成相关的过程的扰动影响局部变异性,而与蛋白质合成和转运、细胞形态和细胞大小相关的过程影响全局变异性。此外,我们发现与染色质调控相关的许多过程的扰动影响全局和局部变异性。最后,我们证明了不同蛋白复合物的变异表型提供了对其细胞功能的洞察。我们的方法学提供了检查变异性数据的工具,并确立了这种表型作为分析基因表达相关调控机制的工具的效用。
课程简介: The regulation of cellular protein levels is a complex process involving many regulatory mechanisms. These regulatory mechanisms introduce a cascade of stochastic events leading to variability of protein levels between cells. Previous studies have shown that perturbing genes involved in transcription regulation alters variability of protein levels, but to date, there has been no systematic characterization of these effects. Here we utilize single-cell expression levels of two fluorescent reporters under a wide range of genetic perturbations in Saccharomyces cerevisiae to identify proteins that affect expression variability. We introduce computational methodology to determine the variability introduced by each perturbation, and distinguish between global variability, affecting both reporters in a coordinated manner, and local variability, affecting individual reporters independently. Classifying genes by their variability phenotype identifies functionally coherent groups, which broadly correlate with the different stages of transcriptional regulation. Specifically, we find that perturbation of processes related to DNA maintenance, chromatin regulation and RNA synthesis affect local variability, while processes related to protein synthesis and transport, cell morphology and cell size affect global variability. In addition, we find that perturbations of many processes related to chromatin regulation affect both global and local variability. Finally, we demonstrate that the variability phenotypes of different protein complexes provide insights into their cellular functions. Our methodology provides tools for examining arising data on variability, and establishes the utility of this phenotype as a tool in dissecting the regulatory mechanisms involved in gene expression.
关 键 词: 机器学习; 计算机科学; 生物信息学; 计算系统生物学
课程来源: 视频讲座网
最后编审: 2020-05-26:毛岱琦(课程编辑志愿者)
阅读次数: 54

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