血红蛋白中一氧化碳光解离的分子动力学模拟
Molecular dynamics simulation of photodissociation of carbon monoxide from hemoglobin.
作者信息
Henry E R, Levitt M, Eaton W A
出版信息
Proc Natl Acad Sci U S A. 1985 Apr;82(7):2034-8. doi: 10.1073/pnas.82.7.2034.
Abstract
A molecular dynamics simulation of the photodissociation of carbon monoxide from the alpha subunit of hemoglobin is described. To initiate photodissociation, trajectories of the liganded molecule were interrupted, the iron-carbon monoxide bond was broken, and the parameters of the iron-nitrogen bonds were simultaneously altered to produce a deoxyheme conformation. Heme potential functions were used that reproduce the energies and forces for the iron out-of-plane motion obtained from quantum mechanical calculations. The effect of the protein on the rate and extent of the displacement of the iron from the porphyrin plane was assessed by comparing the results with those obtained for an isolated complex of heme with imidazole and carbon monoxide. The half-time for the displacement of the iron from the porphyrin plane was found to be 50-150 fs for both the protein and the isolated complex. These results support the interpretation of optical absorption studies using 250-fs laser pulses that the iron is displaced from the porphyrin plane within 350 fs in both hemoglobin and a free heme complex in solution.
摘要
本文描述了血红蛋白α亚基中一氧化碳光解离的分子动力学模拟。为引发光解离,配体化分子的轨迹被中断,铁-一氧化碳键被打破,同时铁-氮键的参数被改变以产生脱氧血红素构象。使用了血红素势函数,该函数再现了从量子力学计算中获得的铁平面外运动的能量和力。通过将结果与血红素与咪唑和一氧化碳的分离复合物的结果进行比较,评估了蛋白质对铁从卟啉平面位移的速率和程度的影响。发现蛋白质和分离复合物中铁从卟啉平面位移的半衰期均为50-150飞秒。这些结果支持了使用250飞秒激光脉冲进行的光吸收研究的解释,即在血红蛋白和溶液中的游离血红素复合物中,铁在350飞秒内从卟啉平面位移。
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