Binding-Site Assessment by Virtual Fragment Screening

可药性 生物信息学 药物发现 小分子 片段(逻辑) 虚拟筛选 码头 结构基因组学 对接(动物) 结合位点 计算生物学 化学 生物 蛋白质结构 生物信息学 噬菌体展示 计算机科学 生物化学 算法 基因
作者
Niu Huang,Matthew P. Jacobson
出处
期刊:PLOS ONE [Public Library of Science]
卷期号:5 (4): e10109-e10109 被引量:55
标识
DOI:10.1371/journal.pone.0010109
摘要

The accurate prediction of protein druggability (propensity to bind high-affinity drug-like small molecules) would greatly benefit the fields of chemical genomics and drug discovery. We have developed a novel approach to quantitatively assess protein druggability by computationally screening a fragment-like compound library. In analogy to NMR-based fragment screening, we dock ∼11000 fragments against a given binding site and compute a computational hit rate based on the fraction of molecules that exceed an empirically chosen score cutoff. We perform a large-scale evaluation of the approach on four datasets, totaling 152 binding sites. We demonstrate that computed hit rates correlate with hit rates measured experimentally in a previously published NMR-based screening method. Secondly, we show that the in silico fragment screening method can be used to distinguish known druggable and non-druggable targets, including both enzymes and protein-protein interaction sites. Finally, we explore the sensitivity of the results to different receptor conformations, including flexible protein-protein interaction sites. Besides its original aim to assess druggability of different protein targets, this method could be used to identifying druggable conformations of flexible binding site for lead discovery, and suggesting strategies for growing or joining initial fragment hits to obtain more potent inhibitors.

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