利用电子自旋共振自旋标记技术研究氧气在水和碳氢化合物中的扩散

Diffusion of oxygen in water and hydrocarbons using an electron spin resonance spin-label technique.

作者信息

Subczynski W K, Hyde J S

出版信息

Biophys J. 1984 Apr;45(4):743-8. doi: 10.1016/S0006-3495(84)84217-4.

DOI:10.1016/S0006-3495(84)84217-4

PMID:6326877

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1434914/

Abstract

The Smoluchowski equation for the bimolecular collision rate of dissolved oxygen molecules with spin labels yielded values for the diffusion constant of oxygen in water that are in agreement with the Stokes-Einstein equation (D infinity T/eta, where eta is the macroscopic viscosity) and with published values obtained by conventional methods. Heisenberg exchange at an interaction distance of 4.5 A occurs with a probability close to one for each encounter. In mixed hydrocarbons (olive oil, paraffin oils) and sec-butyl benzene, D infinity (T/eta)rho, where rho lies between 0.5 and 1. Oxygen diffuses in the hydrocarbons between 10 and 100 times more rapidly than predicted from the macroscopic viscosity. Similar results would be expected for diffusion of oxygen in model and biological membranes. Parallel measurements of rotational diffusion of the spin labels show little correlation with measurements of translational diffusion of oxygen. Dipolar interactions between spin labels and oxygen appear negligible except in the limit of highest viscosities.

摘要

溶解氧分子与自旋标记物双分子碰撞速率的斯莫卢霍夫斯基方程得出的水中氧扩散常数的值，与斯托克斯 - 爱因斯坦方程（(D\propto T/\eta)，其中(\eta)为宏观粘度）以及通过传统方法获得的已发表值一致。在4.5埃的相互作用距离处，海森堡交换每次相遇发生的概率接近1。在混合烃（橄榄油、石蜡油）和仲丁基苯中，(D\propto(T/\eta)\rho)，其中(\rho)在0.5到1之间。氧在烃中的扩散速度比根据宏观粘度预测的快10到100倍。对于氧在模型膜和生物膜中的扩散，预计会有类似结果。自旋标记物旋转扩散的平行测量结果与氧平移扩散的测量结果几乎没有相关性。自旋标记物与氧之间的偶极相互作用似乎可以忽略不计，除非在最高粘度的极限情况下。

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本文引用的文献

Oxygen transport parameter in membranes as deduced by saturation recovery measurements of spin-lattice relaxation times of spin labels.通过自旋标记的自旋晶格弛豫时间的饱和恢复测量推导得出的膜中氧传输参数。

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