细胞电泳迁移率与有丝分裂周期

Cellular electrophoretic mobility and the mitotic cycle.

作者信息

Mayhew E

出版信息

J Gen Physiol. 1966 Mar;49(4):717-25. doi: 10.1085/jgp.49.4.717.

DOI:10.1085/jgp.49.4.717

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2195510/

Abstract

The electrophoretic mobility of RPMI No. 41 cells grown in suspension, parasynchronized by double thymidine blocking and cold shock, is reported. No. 41 cells have a higher electrophoretic mobility during the mitotic peak phase than at other times in the mitotic cycle. Treatment of parasynchronous cells by neuraminidase reduces the mobility to the same value irrespective of the stage of the cells in the mitotic cycle. The higher electrophoretic mobility of cells in mitotic peak phase is probably due to a higher surface charge density at this time, possibly caused by a higher concentration of ionized neuraminic acid carboxyl groups at the hydrodynamic shear layer. The mobility of nonsynchronous rapidly and slowly growing cells differs; neuraminidase reduces their mobility by proportionately similar amounts. The results suggest that the differences in mobility between rapidly and slowly growing cells cannot be accounted for exclusively by differences in the amount of neuraminic acid groups at the shear layer.

摘要

报告了通过双胸腺嘧啶核苷阻断和冷休克进行同步化处理的悬浮培养RPMI 41细胞的电泳迁移率。41号细胞在有丝分裂高峰期的电泳迁移率高于有丝分裂周期的其他时期。用神经氨酸酶处理同步化细胞后，无论细胞处于有丝分裂周期的哪个阶段，迁移率都会降低到相同的值。有丝分裂高峰期细胞较高的电泳迁移率可能是由于此时较高的表面电荷密度，这可能是由流体动力学剪切层中较高浓度的离子化神经氨酸羧基引起的。非同步快速生长和缓慢生长细胞的迁移率不同；神经氨酸酶以比例相似的量降低它们的迁移率。结果表明，快速生长和缓慢生长细胞之间迁移率的差异不能仅仅由剪切层中神经氨酸基团数量的差异来解释。

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