镉和苯胂氧化物对线粒体钾依赖性氢离子外流的激活作用。

Activation of potassium-dependent H+ efflux from mitochondria by cadmium and phenylarsine oxide.

作者信息

Sanadi D R, Hughes J B, Joshi S

出版信息

J Bioenerg Biomembr. 1981 Dec;13(5-6):425-31. doi: 10.1007/BF00743214.

Abstract

Addition of Cd2+ or phenylarsine oxide (PhAsO) to respiring rat liver mitochondria results first in acidification of the medium (H+ efflux) followed by disappearance of H+ (discharge of the pH gradient or uncoupling). The first phase of H+ efflux is dependent upon the presence of K+ in the medium, and is not seen in the presence of valinomycin, which is consistent with the conclusion that H+ efflux is linked to membrane potential-dependent uptake of K+. These effects are abolished by low levels of 2,3-dimercaptopropanol but potentiated by excess of 2-mercaptoethanol, showing involvement of a dithiol type of group in the response. Mersalyl produces only the H+ efflux, and subsequent addition of Cd2+ of PhAsO produces collapse of the delta pH.

摘要

向正在进行呼吸作用的大鼠肝脏线粒体中添加Cd2+或苯胂氧化物（PhAsO），首先会导致培养基酸化（H+外流），随后H+消失（pH梯度消失或解偶联）。H+外流的第一阶段取决于培养基中K+的存在，在缬氨霉素存在的情况下看不到这种现象，这与H+外流与膜电位依赖性K+摄取有关的结论一致。低水平的2,3-二巯基丙醇可消除这些效应，但过量的2-巯基乙醇会增强这些效应，表明二硫醇类型的基团参与了该反应。汞撒利仅产生H+外流，随后添加Cd2+或PhAsO会导致ΔpH崩溃。

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镉和苯胂氧化物对线粒体钾依赖性氢离子外流的激活作用。

Activation of potassium-dependent H+ efflux from mitochondria by cadmium and phenylarsine oxide.

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镉和苯胂氧化物对线粒体钾依赖性氢离子外流的激活作用。

Activation of potassium-dependent H+ efflux from mitochondria by cadmium and phenylarsine oxide.

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