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血红素模型中Fe-CO和Fe-O₂的谐波与非谐波动力学

Harmonic and anharmonic dynamics of Fe-CO and Fe-O(2) in heme models.

作者信息

Rovira C, Parrinello M

机构信息

Max-Planck Institut für Festkörperforschung, Heisenbergstrasse 1, 70569 Stuttgart, Germany.

出版信息

Biophys J. 2000 Jan;78(1):93-100. doi: 10.1016/S0006-3495(00)76575-1.

DOI:10.1016/S0006-3495(00)76575-1
PMID:10620276
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1300620/
Abstract

We present density-functional molecular dynamics simulations of FeP(Im)(AB) heme models (AB = CO, O(2), Im = imidazole) as a way of sketching the dynamic motion of the axial ligands at room temperature. The FeP(Im)(CO) model is characterized by an essentially upright FeCO unit, undergoing small deviations with respect to its linear equilibrium structure (bending and tilting up to 10 degrees and 7 degrees, often occur). The motion of the carbon monoxide ligand is found to be quite complex and fast, its projection on the porphyrin plane sampling all the porphyrin quadrants in a short time ( approximately 0.5 ps). Simultaneously, the imidazole ligand rotates slowly around the Fe-N(epsilon) bond. In contrast to carbon monoxide, the oxygen ligand in FeP(Im)(O(2)) prefers a conformation where the projection of the O-O axis on the porphyrin plane bisects one of the porphyrin quadrants. A transition to other quadrants takes place through an O-O/Fe-N(p) overlapping conformation, within 4-6 ps. Further details of these mechanisms and their implications are discussed.

摘要

我们展示了FeP(Im)(AB)血红素模型(AB = CO、O₂,Im = 咪唑)的密度泛函分子动力学模拟,以此描绘室温下轴向配体的动态运动。FeP(Im)(CO)模型的特征是FeCO单元基本呈直立状态,相对于其线性平衡结构会有小的偏差(弯曲和倾斜可达10度和7度,经常出现)。发现一氧化碳配体的运动相当复杂且快速,其在卟啉平面上的投影在短时间内(约0.5皮秒)遍历所有卟啉象限。同时,咪唑配体围绕Fe-N(ε)键缓慢旋转。与一氧化碳不同,FeP(Im)(O₂)中的氧配体更喜欢一种构象,即O - O轴在卟啉平面上的投影平分其中一个卟啉象限。通过O - O/Fe - N(p)重叠构象,在4 - 6皮秒内会发生向其他象限的转变。讨论了这些机制的更多细节及其影响。