Muriel Gelin, Vanessa Delfosse, Frédéric Allemand, François Hoh, Yoann Sallaz-Damaz, Michel Pirocchi, William Bourguet, Jean Luc Ferrer, Gilles Labesse, Jean François Guichou
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引用次数: 37
摘要
在基于片段的药物设计项目中,X 射线晶体学是一种成熟的配体筛选技术,但所需的人工操作步骤--用配体浸泡晶体和随后的收获--非常繁琐,限制了该过程的产量。这里报告的是一种替代方法:在蛋白质结晶之前,在结晶板上预先涂上潜在的结合剂,然后直接在 "原位"(或板内)进行 X 射线衍射。通过使用弯曲磁束线或旋转阳极发生器进行 X 射线晶体学研究,对目前正在研究的配体筛选的独特相关治疗靶标进行了性能演示。使用 DMSO 配体储备溶液进行涂层的可能性为筛选大多数化学库开辟了一条途径。
Combining 'dry' co-crystallization and in situ diffraction to facilitate ligand screening by X-ray crystallography.
X-ray crystallography is an established technique for ligand screening in fragment-based drug-design projects, but the required manual handling steps - soaking crystals with ligand and the subsequent harvesting - are tedious and limit the throughput of the process. Here, an alternative approach is reported: crystallization plates are pre-coated with potential binders prior to protein crystallization and X-ray diffraction is performed directly 'in situ' (or in-plate). Its performance is demonstrated on distinct and relevant therapeutic targets currently being studied for ligand screening by X-ray crystallography using either a bending-magnet beamline or a rotating-anode generator. The possibility of using DMSO stock solutions of the ligands to be coated opens up a route to screening most chemical libraries.
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