Ligand-target interactions: what can we learn from NMR?

Teresa Carlomagno
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引用次数: 87

Abstract

The conformation of the ligand in complex with a macromolecular target can be studied by nuclear magnetic resonance (NMR) in solution for both tightly and weakly forming complexes. In the weak binding regime (k(off) > 10(4) Hz), the structure of the bound ligand is accessible also for very large complexes (>100 kDa), which are not amenable to NMR studies in the tight binding regime. Here I review the state-of-the-art NMR methodology used for screening ligands and for the structural investigation of bound ligand conformations, in both tight and weak binding regimes. The advantages and disadvantages of each approach are critically described. The NMR methodology used to investigate transiently forming complexes has expanded considerably in the past few years, opening new possibilities for a detailed description of ligand-target interactions. Novel methods for the determination of the bound ligand conformation, in particular transferred cross-correlated relaxation, are thoroughly reviewed, and their advantages with respect to established methodology are discussed, using the epothilone-tubulin complex as a primary example.

配体-靶相互作用:我们能从核磁共振中学到什么?
用核磁共振(NMR)技术可以研究与大分子靶标形成的配合物中配体的构象。在弱结合区(k(off) >10 (4) Hz),结合配体的结构也可用于非常大的配合物(>100 kDa),这在紧密结合区是不适合核磁共振研究的。在这里,我回顾了用于筛选配体和结合配体构象的结构研究的最先进的核磁共振方法,在紧密和弱结合制度。每种方法的优点和缺点都进行了批判性的描述。用于研究瞬态形成复合物的核磁共振方法在过去几年中得到了相当大的发展,为详细描述配体-靶标相互作用开辟了新的可能性。本文全面回顾了测定结合配体构象的新方法,特别是转移交叉相关弛豫,并讨论了它们相对于既定方法的优点,以埃泊霉素-微管蛋白复合物为主要例子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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