大环化作为蛋白质-配体相互作用中的一种约束方法的热力学和结构效应。
Thermodynamic and Structural Effects of Macrocyclization as a Constraining Method in Protein-Ligand Interactions.
作者信息
Delorbe John E, Clements John H, Whiddon Benjamin B, Martin Stephen F
机构信息
Department of Chemistry and Biochemistry, The Institute of Cellular and Molecular Biology, and The Texas Institute of Drug and Diagnostic Development, The University of Texas, Austin, Texas 78712, USA.
出版信息
ACS Med Chem Lett. 2010 Nov 11;1(8):448-452. doi: 10.1021/ml100142y.
Abstract
The thermodynamic and structural effects of macrocyclization as a tactic for stabilizing the biologically-active conformation of Grb2 SH2 binding peptides were investigated using isothermal titration calorimetry and x-ray crystallography. 23-Membered macrocycles containing the sequence pYVN were slightly more potent than their linear controls; however, preorganization did not necessarily eventuate in a more favorable binding entropy. Structures of complexes of macrocycle 7 and its acyclic control 8 are similar except for differences in relative orientations of corresponding atoms in the linking moieties of 7 and 8. There are no differences in the number of direct or water-mediated protein-ligand contacts that might account for the less favorable binding enthalpy of 7; however, an intramolecular hydrogen bond between the pY and pY+3 residues in 8 that is absent in 7 may be a factor. These studies highlight the difficulties associated with correlating energetics and structure in protein-ligand interactions.
摘要
采用等温滴定量热法和X射线晶体学,研究了大环化作为一种稳定Grb2 SH2结合肽生物活性构象策略的热力学和结构效应。含有序列pYVN的23元大环比其线性对照物略具活性;然而,预组织并不一定会导致更有利的结合熵。大环7及其无环对照物8的复合物结构相似,只是7和8连接部分中相应原子的相对取向有所不同。7的结合焓较低,可能是由于直接或水介导的蛋白质-配体接触数量没有差异;然而,8中pY和pY + 3残基之间存在而7中不存在的分子内氢键可能是一个因素。这些研究突出了蛋白质-配体相互作用中能量学与结构关联的困难。
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本文引用的文献
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Thermodynamic and structural effects of conformational constraints in protein-ligand interactions. Entropic paradoxy associated with ligand preorganization.构象限制对蛋白-配体相互作用的热力学和结构影响。与配体预组织相关的熵悖论。
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