Chemical genetics employs diverse small-molecule compounds to elucidate biological processes in a manner analogous to the mutagenesis strategies at the core of classical genetics. Screening small-molecule libraries for compounds that induce a phenotype of interest represents the forward chemical genetic approach, whereas the reverse approach involves small molecules targeting a single protein. Here, we review key differences between the goals for small-molecule screening in industry versus academia, recent developments in high-throughput screening, and publicly available resources of compound collections, screening facilities, and databases. A particularly exciting outcome of a chemical genetic screen is the discovery of a previously unknown role for a protein in a pathway together with compounds that affect the function of that protein. In illustrative cases, such discoveries have led to progress toward therapeutic development and more commonly have increased the size of the small molecule "toolbox" available to the research community for the study of biological processes.

译文

化学遗传学采用多种小分子化合物来阐明生物学过程,其方式类似于经典遗传学核心的诱变策略。筛选诱导感兴趣表型的化合物的小分子文库代表了正向化学遗传方法,而反向方法涉及靶向单个蛋白质的小分子。在这里,我们回顾了工业界与学术界小分子筛选的目标,高通量筛选的最新发展以及化合物集合,筛选设施和数据库的公开资源之间的主要差异。化学遗传筛选的一个特别令人兴奋的结果是发现了一种蛋白质在途径中的先前未知的作用以及影响该蛋白质功能的化合物。在说明性的情况下,这样的发现导致了治疗发展的进展,并且更常见的是增加了供研究界用于研究生物过程的小分子 “工具箱” 的大小。

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