Hetzel R, Wüthrich K, Deisenhofer J, Huber R
Biophys Struct Mech. 1976 Aug 23;2(2):159-80. doi: 10.1007/BF00863707.
The molecular conformation of the basic pancreatic trypsin inhibitor (BPTI) is known in considerable detail from both X-ray studies in single crystals and NMR studies in solution. The NMR experiments showed that the aromatic rings of the phenylalanyl and tyrosyl residues can undergo rapid rotational motions about the C beta--Cv bond. The present paper describes a model investigation of the mechanistic aspects of these intramolecular rotational motions. From calculations of the conformational energies for molecular species derived from the X-ray structure by rotations of individual aromatic rings, it was apparent that the rotational motions of the aromatics could only be understood in a flexible structure. Flexibility was simulated by allowing the protein to relax to an energetically favorable conformation for each of the different rotation states of the aromatic rings. It was then of particular interest to investigate how the perturbations caused by different rotation states of the aromatic rings were propagated in the protein structure. It was found that the rotation axes C beta--Cv were only slightly affected (delta X1 approximately less than 20 degrees. The most sizeable perturbations are caused by through space interactions with nearby atoms, which move away from the ring center and thus release the steric hindrance opposing the rotational motions. The values for the energy barriers obtained from the energy minimization are of the same order of magnitude as those measured by NMR.
通过单晶X射线研究和溶液中的核磁共振(NMR)研究,人们已相当详细地了解了碱性胰蛋白酶抑制剂(BPTI)的分子构象。NMR实验表明,苯丙氨酰基和酪氨酰基残基的芳香环可围绕Cβ - Cγ键进行快速旋转运动。本文描述了对这些分子内旋转运动机制方面的模型研究。通过对由X射线结构通过单个芳香环旋转得到的分子物种的构象能进行计算,很明显,芳香环的旋转运动只能在柔性结构中得到理解。通过允许蛋白质针对芳香环的每种不同旋转状态弛豫到能量有利的构象来模拟柔性。然后,研究芳香环不同旋转状态引起的扰动如何在蛋白质结构中传播就特别有趣了。发现旋转轴Cβ - Cγ仅受到轻微影响(δX1约小于20度)。最大的扰动是由与附近原子的空间相互作用引起的,这些原子远离环中心,从而消除了阻碍旋转运动的空间位阻。从能量最小化获得的能垒值与通过NMR测量的值处于相同的数量级。
