用于赋予新生物学特性的新型配体的对接筛选
Docking Screens for Novel Ligands Conferring New Biology.
作者信息
Irwin John J, Shoichet Brian K
机构信息
Department of Pharmaceutical Chemistry and QB3 Institute, University of California-San Francisco , San Francisco, California 94158, United States.
出版信息
J Med Chem. 2016 May 12;59(9):4103-20. doi: 10.1021/acs.jmedchem.5b02008. Epub 2016 Mar 15.
Abstract
It is now plausible to dock libraries of 10 million molecules against targets over several days or weeks. When the molecules screened are commercially available, they may be rapidly tested to find new leads. Although docking retains important liabilities (it cannot calculate affinities accurately nor even reliably rank order high-scoring molecules), it can often can distinguish likely from unlikely ligands, often with hit rates above 10%. Here we summarize the improvements in libraries, target quality, and methods that have supported these advances, and the open access resources that make docking accessible. Recent docking screens for new ligands are sketched, as are the binding, crystallographic, and in vivo assays that support them. Like any technique, controls are crucial, and key experimental ones are reviewed. With such controls, docking campaigns can find ligands with new chemotypes, often revealing the new biology that may be docking's greatest impact over the next few years.
摘要
在几天或几周的时间里,将包含1000万个分子的文库与靶点进行对接如今已成为可能。当所筛选的分子为市售可得时,它们可以被快速测试以找到新的先导化合物。尽管对接仍存在一些重要问题(它无法准确计算亲和力,甚至无法可靠地对高分分子进行排序),但它通常能够区分可能的配体和不太可能的配体,命中率通常超过10%。在这里,我们总结了文库、靶点质量和方法方面的改进,这些改进推动了这些进展,以及使对接变得可行的开放获取资源。概述了近期针对新配体的对接筛选,以及支持这些筛选的结合、晶体学和体内试验。与任何技术一样,对照至关重要,文中对关键的实验对照进行了综述。有了这些对照,对接研究可以找到具有新化学类型的配体,常常揭示出新的生物学现象,这可能是对接在未来几年产生的最大影响。
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