透析乌贼轴突中的镁离子外流
Magnesium efflux in dialyzed squid axons.
作者信息
Mullins L J, Brinley F J, Spangler S G, Abercrombie R F
出版信息
J Gen Physiol. 1977 Apr;69(4):389-400. doi: 10.1085/jgp.69.4.389.
The efflux of Mg++ from squid axons subject to internal solute control by dialysis is a function of ionized [Mg], [Na], [ATP], and [Na]o. The efflux of Mg++ from an axon with physiological concentrations of ATP, Na, and Mg inside into seawater is of the order of 2-4 pmol/cm2s but this efflux is strongly inhibited by increases in [Na]i, by decreases in [ATP]i, or by decreases in [Na]o. The efflux of Mg++ is largely independent of [Mg]i when ATP is at physiological levels, but in the absence of ATP reaches half the value of Mg efflux in be presence of ATP when [Mg]i is about 4 mM and [Na] 40 mM. Half-maximum responses to ATP occur at about 350 micronM ATP into seawater with Na either present or absent. The Mg efflux mechanism has many similarities to the Ca efflux system in squid axons especially with respect to the effects of ATP, Nao, and Na on the flux. The concentrations of free Mg and Ca in axoplasm differ, however, by a factor of 10(5) while the observed fluxes differ by a factor of 10(2).
通过透析进行内部溶质控制的鱿鱼轴突中Mg++的外流是离子化的[Mg]、[Na]、[ATP]和[Na]o的函数。在轴突内部ATP、Na和Mg处于生理浓度时,Mg++从轴突外流到海水中的速率约为2 - 4 pmol/cm²·s,但这种外流会因[Na]i升高、[ATP]i降低或[Na]o降低而受到强烈抑制。当ATP处于生理水平时,Mg++的外流在很大程度上与[Mg]i无关,但在没有ATP的情况下,当[Mg]i约为4 mM且[Na]为40 mM时,Mg外流的值达到有ATP时的一半。在海水中,无论有无Na,对ATP的半最大反应出现在约350 μM ATP时。Mg外流机制与鱿鱼轴突中的Ca外流系统有许多相似之处,特别是在ATP、Nao和Na对通量的影响方面。然而,轴浆中游离Mg和Ca的浓度相差1个数量级的5次方,而观察到的通量相差1个数量级的2次方。
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