Department of Botany, University of California, Davis, California 95616.
Plant Physiol. 1981 Oct;68(4):899-904. doi: 10.1104/pp.68.4.899.
The administration of the sulfhydryl reagent N-ethyl-maleimide (NEM) to internodal cells of Chara corallina caused alterations in the biophysical properties of the plasmalemma, as measured with electrophysiological and radioactive tracer techniques. The membrane potential depolarized to, or near, the calculated Nernst potential for potassium (E(K)) after 30 seconds' exposure to 0.1 millimolar NEM. During this time, the ATP level did not decrease below the control value, and the specific membrane resistance did not increase; only upon further exposure to NEM did the resistance approach the value observed in the dark. In the depolarized state, the membrane potential responded to changes in the external potassium concentration in the manner of a K(+)-electrode, but it retained it's relative insensitivity to external sodium.THESE RESULTS ARE INTERPRETED IN THE FOLLOWING MANNER: NEM causes a) an increase in the membrane permeability to K(+) (i.e. an increase in K(+) conductance); and b) perturbation of the electrogenic transport system(s) of the plasma membrane. The latter effect is manifested in a manner that is not consistent with an inhibition of ATP catalysis by a voltage-dependent ATPase possessing conductance. The nonpermeant sulfhydryl modifier, p-chloromercuribenzenesulfonic acid, appeared to affect membrane properties in a similar, but reversible, way.
用生理物理学和放射性示踪技术测定,巯基试剂 N-乙基马来酰亚胺(NEM)处理珊瑚藻节间细胞,会引起质膜生物物理性质的改变。质膜电位在 30 秒内即可去极化至 0.1 毫摩尔 NEM 计算出的钾离子(E(K))的平衡电位,或接近此值。在此期间,ATP 水平并未降至对照值以下,而质膜的比电阻并未增加;只有在进一步接触 NEM 时,电阻才会接近黑暗中观察到的数值。在去极化状态下,质膜电位对外界钾离子浓度的变化的响应方式类似于 K(+)-电极,但仍保持对外部钠离子的相对不敏感性。以下是对这些结果的解释:NEM 导致 a)质膜对 K(+)的通透性增加(即 K(+)电导增加);b)质膜的电化学传输系统受到干扰。后一种效应表现为与电压依赖性 ATP 酶的 ATP 催化抑制不一致的方式。非透性巯基修饰剂对氯汞苯磺酸(p-chloromercuribenzenesulfonic acid)似乎以类似但可逆转的方式影响膜性质。