Czerminski R, Elber R
Department of Chemistry, University of Illinois, Chicago 60680.
Proteins. 1991;10(1):70-80. doi: 10.1002/prot.340100107.
The thermally assisted diffusion of a small ligand (carbon monoxide) through a protein matrix (lupine leghemoglobin) is investigated computationally. The diffusion paths are calculated by a variant of the time-dependent Hartree approximation which we call LES (locally enhanced sampling). The variant which was recently introduced by Elber and Karplus is based on the classical TDSCF approximation of Gerber et al. The simulation enables more significant search for diffusion pathways than was possible before. This is done by increasing the number of ligand trajectories using a single trajectory for the protein. We compare qualitatively diffusion rates in leghemoglobin and in myoglobin. The calculation shows that the diffusion in leghemoglobin is much faster than the diffusion in myoglobin, in agreement with experiment. The gate in leghemoglobin is opened by fluctuations at a close contact between the B/C and the G helices. The most relevant fluctuation is the rigid shift of the C helix with respect to the G helix. This path is not observed in a comparable calculation for myoglobin. This finding is rationalized by the lack of the D helix in leghemoglobin and a significantly more flexible CE loop. Supporting experimental evidence for the importance of the CE loop in leghemoglobin can be found in the kinetics studies of Gibson et al.
通过计算研究了小分子配体(一氧化碳)在蛋白质基质(羽扇豆豆血红蛋白)中的热辅助扩散。扩散路径由含时哈特里近似的一个变体计算得出,我们将其称为LES(局部增强采样)。埃尔伯和卡尔普斯最近引入的这个变体基于格伯等人的经典TDSCF近似。该模拟能够比以往更有效地搜索扩散路径。这是通过使用蛋白质的单个轨迹增加配体轨迹数量来实现的。我们定性地比较了豆血红蛋白和肌红蛋白中的扩散速率。计算结果表明,豆血红蛋白中的扩散比肌红蛋白中的扩散快得多,这与实验结果一致。豆血红蛋白中的门是由B/C螺旋和G螺旋之间紧密接触处的波动打开的。最相关的波动是C螺旋相对于G螺旋的刚性位移。在肌红蛋白的类似计算中未观察到这条路径。豆血红蛋白中缺乏D螺旋以及CE环明显更灵活,这一发现解释了上述现象。吉布森等人的动力学研究中可以找到支持CE环在豆血红蛋白中重要性的实验证据。
