液态水中CO2对羟基离子的固存:碳酸酐酶的生理意义和第二功能。

Cytobios Pub Date : 2000-01-01
W F Widdas, G F Baker
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引用次数: 0

摘要

由于二氧化碳在水中冒泡而产生的pH值变化产生了异常,这种异常更容易用基于分子间静电吸引的假设来解释。目前的研究表明,六个二氧化碳分子的六边形阵列可以结合和隔离一个羟基阴离子。据估计,该配合物的结合能与共价化合物的结合能相当,它的解离可能只发生在与空气的水界面或在蛋白质间隙中的水/疏水蛋白质界面。碳酸酐酶在生理上的重要性在于相应释放等量的自由氢离子(h30 +),破坏缓冲系统调节细胞质ph的正常作用。碳酸酐酶同工异构体的第二个重要功能是对这种隔离反应的抵消和由此产生的酸碱干扰,本文对其机制进行了简要讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The sequestration of hydroxyl ions by CO2 in liquid water: the physiological implications and the second function of carbonic anhydrase.

The pH changes due to bubbling CO2 through water produced anomalies which were more readily explained by an hypothesis based on electrostatic attractions between the molecules. The present studies have suggested that an hexagonal array of six carbon dioxide molecules could bind and sequester a hydroxyl anion. The binding energy of the complex is estimated to be comparable with that of a covalent compound and its dissociation may only occur at the water interface with air or at the water/hydrophobic protein interface in a protein cleft. The physiological importance lies in the consequential release of an equal number of free hydrogen ions (H3O+) and the disruption of the normal action of buffer systems in regulating the cytoplasmic pH. The counteraction of this sequestration reaction and the acid-base disturbances which result, form the second important function of carbonic anhydrase isoforms, the mechanisms of which are briefly discussed.

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