Quenching of red cell tryptophan fluorescence by mercurial compounds.

A S Verkman, M F Lukacovic, M S Tinklepaugh, J A Dix
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引用次数: 6

Abstract

Intrinsic tryptophan fluorescence in red cell ghost membranes labeled with N-ethylmaleimide (N-EM) is quenched in a dose-dependent manner by the organic mercurial p-chloromercuribenzene sulfonate (p-CMBS). Fluorescence lifetime analysis shows that quenching occurs by a static mechanism. Binding of p-CMBS occurs by a rapid (less than 5 s) biomolecular association (dissociation constant K1 = 1.8 mM) followed by a slower unimolecular transition with forward rate constant k2 = 0.015 s-1 and reverse rate constant k-2 = 0.0054 s-1. Analysis of the temperature dependence of k2 gives delta H = 6.5 kcal/mol and delta S = -21 eu. The mercurial compounds p-chloromercuribenzoic acid, p-aminophenylmercuric acetate, and mercuric chloride quench red cell tryptophan fluorescence by the same mechanism as p-CMBS does; the measured k2 value was the same for each compound, whereas K1 varied. p-CMBS also quenches the tryptophan fluorescence in vesicles reconstituted with purified band 3, the red cell anion exchange protein, in a manner similar to that in ghost membranes. These experiments define a mercurial binding site on band 3 in ghosts treated with N-EM and establish the binding mechanism to this site. The characteristics of this p-CMBS binding site on band 3 differ significantly from those of the p-CMBS binding site involved in red cell water and urea transport inhibition.

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汞化合物对红细胞色氨酸荧光的猝灭作用。
以n -乙基马来酰亚胺(N-EM)标记的红细胞鬼膜上的固有色氨酸荧光被有机汞对氯苯磺酸盐(p-CMBS)以剂量依赖的方式猝灭。荧光寿命分析表明,猝灭是通过静态机制发生的。p-CMBS的结合通过快速(小于5 s)的生物分子结合(解离常数K1 = 1.8 mM)发生,然后是较慢的单分子转变,正向速率常数k2 = 0.015 s-1,反向速率常数k-2 = 0.0054 s-1。对k2的温度依赖性分析得出H = 6.5 kcal/mol, S = -21 eu。汞化合物对氯胺苯甲酸、对氨基苯基醋酸汞和氯化汞猝灭红细胞色氨酸荧光的机制与p-CMBS相同;不同化合物的k2测量值相同,而K1则不同。p-CMBS还猝灭了用纯化的带3(红细胞阴离子交换蛋白)重组的囊泡中的色氨酸荧光,其方式与鬼影膜相似。这些实验确定了N-EM处理过的鬼魂在波段3上的汞结合位点,并建立了与该位点的结合机制。第3带上的p-CMBS结合位点的特征与参与红细胞水和尿素运输抑制的p-CMBS结合位点显著不同。
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