肌肉和圆柱形凝胶系统中的静电力。

Electrostatic forces in muscle and cylindrical gel systems.

作者信息

Millman B M, Nickel B G

出版信息

Biophys J. 1980 Oct;32(1):49-63. doi: 10.1016/S0006-3495(80)84915-0.

DOI:10.1016/S0006-3495(80)84915-0

PMID:7248458

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1327255/

Abstract

Repulsive pressure has been measured as a function of lattice spacing in gels of tobacco mosaic virus (TMV) and in the filament lattice of vertebrate striated muscle. External pressures up to ten atm have been applied to these lattices by an osmotic stress method. Numerical solutions to the Poisson-Boltzmann equation in hexagonal lattices have been obtained and compared to the TMV and muscle data. The theoretical curves using values for k calculated from the ionic strength give a good fit to experimental data from TMV gels, and an approximate fit to that from the muscle lattice, provided that a charge radius for the muscle thick filaments of approximately 16 nm is assumed. Variations in ionic strength, sarcomere length and state of the muscle give results which agree qualitatively with the theory, though a good fit between experiment and theory in the muscle case will clearly require consideration of other types of forces. We conclude that Poisson-Boltzmann theory can provide a good first approximation to the long-range electrostatic forces operating in such biological gel systems.

摘要

在烟草花叶病毒（TMV）凝胶以及脊椎动物横纹肌的细丝晶格中，已测量了排斥压力作为晶格间距的函数。通过渗透压方法，已对这些晶格施加了高达十个大气压的外部压力。已获得六边形晶格中泊松 - 玻尔兹曼方程的数值解，并与TMV和肌肉数据进行了比较。使用从离子强度计算出的k值得到的理论曲线与TMV凝胶的实验数据拟合良好，并且在假设肌肉粗丝的电荷半径约为16纳米的情况下，与肌肉晶格的实验数据近似拟合。离子强度、肌节长度和肌肉状态的变化所得到的结果在定性上与理论相符，尽管在肌肉的情况下，要使实验与理论之间有良好的拟合显然需要考虑其他类型的力。我们得出结论，泊松 - 玻尔兹曼理论可以为在这种生物凝胶系统中起作用的长程静电力提供一个良好的一阶近似。

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