药物发现
化学
片段(逻辑)
计算生物学
配体效率
损耗
高通量筛选
制药工业
生化工程
虚拟筛选
小分子
组合化学
纳米技术
药理学
计算机科学
生物化学
医学
受体
牙科
配体(生物化学)
工程类
生物
程序设计语言
材料科学
作者
Christopher W. Murray,David C. Rees
出处
期刊:Nature Chemistry
[Nature Portfolio]
日期:2009-05-22
卷期号:1 (3): 187-192
被引量:775
摘要
Fragment-based drug discovery is an approach that relies on the ability to identify weakly binding drug fragments using sophisticated screening techniques. Binding can be optimized while maintaining favourable physical properties of the drug, which should have a positive impact on the attrition rates of new drug candidates.
The search for new drugs is plagued by high attrition rates at all stages in research and development. Chemists have an opportunity to tackle this problem because attrition can be traced back, in part, to the quality of the chemical leads. Fragment-based drug discovery (FBDD) is a new approach, increasingly used in the pharmaceutical industry, for reducing attrition and providing leads for previously intractable biological targets. FBDD identifies low-molecular-weight ligands (∼150 Da) that bind to biologically important macromolecules. The three-dimensional experimental binding mode of these fragments is determined using X-ray crystallography or NMR spectroscopy, and is used to facilitate their optimization into potent molecules with drug-like properties. Compared with high-throughput-screening, the fragment approach requires fewer compounds to be screened, and, despite the lower initial potency of the screening hits, offers more efficient and fruitful optimization campaigns. Here, we review the rise of FBDD, including its application to discovering clinical candidates against targets for which other chemistry approaches have struggled.
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