Maura Malinska, Miroslawa Dauter, Marcin Kowiel, Mariusz Jaskolski, Zbigniew Dauter
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引用次数: 0
摘要
组氨酸残基中与咪唑分子的两个 N 原子中的一个或两个相连的 H 原子的存在会影响五元环的几何形状。通过分析蛋白质数据库(PDB)中原子分辨率蛋白质晶体结构组氨酸残基中的咪唑分子,以及从剑桥结构数据库(CSD)中检索到的小分子结构,发现了与咪唑分子质子化状态有关的键长和角度的特征模式。通过判别分析,可以定义两个函数,分别对应于四个最敏感的立体化学参数的线性组合,即两个键长(ND1-CE1 和 CE1-NE2)和两个内环角(-ND1- 和 -NE2-),这两个函数可以唯一识别 CSD 中所有咪唑分子的质子化状态,并可用于预测蛋白质结构中组氨酸侧链的哪个 N 原子质子化。针对不同质子化组氨酸侧链提出了更新的几何约束目标值,以用于大分子细化。
The presence of H atoms connected to either or both of the two N atoms of the imidazole moiety in a histidine residue affects the geometry of the five-membered ring. Analysis of the imidazole moieties found in histidine residues of atomic resolution protein crystal structures in the Protein Data Bank (PDB), and in small-molecule structures retrieved from the Cambridge Structural Database (CSD), identified characteristic patterns of bond lengths and angles related to the protonation state of the imidazole moiety. Using discriminant analysis, two functions could be defined, corresponding to linear combinations of the four most sensitive stereochemical parameters, two bond lengths (ND1-CE1 and CE1-NE2) and two endocyclic angles (-ND1- and -NE2-), that uniquely identify the protonation states of all imidazole moieties in the CSD and can be used to predict which N atom(s) of the histidine side chains in protein structures are protonated. Updated geometrical restraint target values are proposed for differently protonated histidine side chains for use in macromolecular refinement.
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