Inactivation of firefly luciferase and rat erythrocyte ATPase by ultrasound.

Membrane biochemistry Pub Date : 1993-10-01 DOI:10.3109/09687689309150269

J C Matthews, W L Harder, W K Richardson, R J Fisher, A M al-Karmi, L A Crum, M A Dinno

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引用次数: 6

Abstract

Previous work in our laboratories has shown that, amongst other effects, irradiation of frog skin with low intensity ultrasound causes reductions in the chemical driving force of the short-circuit current. This indicated that either the Na/K dependent ATPase or ATP availability were being reduced. We measured the effect of ultrasound irradiation on ATP and NA/K-dependent ATPase from inverted erythrocyte ghosts and on firefly luciferin and luciferase activity. Our findings demonstrate that ultrasonic cavitation-induced sonochemical reactions were responsible for irreversible inactivation of luciferase and ATPase but had little or no effect on ATP and luciferin. We measured the levels of hydrogen peroxide generated by ultrasound under the conditions of our experiments and found that it could account for only part of the enzyme inactivation observed. Free radical scavengers/antioxidants were capable of fully protecting the enzymes from ultrasound-induced inactivation. These findings demonstrate that, in addition to hydrogen peroxide, free radicals generated by ultrasound are responsible for the effects.

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萤火虫荧光素酶和大鼠红细胞atp酶的超声失活。

我们实验室以前的工作表明，除其他影响外，用低强度超声波照射青蛙皮肤会导致短路电流的化学驱动力减少。这表明Na/K依赖性ATP酶或ATP可用性正在降低。我们测量了超声照射对倒置红细胞鬼影中ATP和NA/ k依赖性ATP酶的影响，以及对萤火虫荧光素和荧光素酶活性的影响。我们的研究结果表明，超声空化诱导的声化学反应是导致荧光素酶和ATP酶不可逆失活的原因，但对ATP和荧光素的影响很小或没有影响。我们在实验条件下测量了超声波产生的过氧化氢水平，发现它只能解释观察到的部分酶失活。自由基清除剂/抗氧化剂能够完全保护酶免受超声诱导的失活。这些发现表明，除了过氧化氢，超声波产生的自由基也是造成这种效果的原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Membrane biochemistry

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