Electrostatic control of proton-transfer reaction in the active site of carbonic anhydrase

A. N. Isaev

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Electrostatic control of proton-transfer reaction in the active site of carbonic anhydrase

机译：碳酸酐酶活性部位质子转移反应的静电控制

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The mechanism of proton-transfer (PT) in the active site (AS) of carbonic anhydrase was examined using ab initio calculations on geometry and electronic structure of model complex simulating PT system of the enzyme. The analysis of charge distribution on atoms of the complex gives evidence of the electrostatic control of the PT through H-bonded water chain connecting donor and acceptor groups. The PT reaction proceeds via the concerted mechanism in accordance with the principle of least dipole moment in transition state. The obtained results show that the electrostatic interaction in the enzyme AS can play the role of an 'engine' driving the delivery of a proton from donor to acceptor through the bridge waters. The mobility of the water molecules forming a proton channel is found to be crucial to the PT process.

机译：通过从头算计算模型复杂的模拟该酶PT系统的几何结构和电子结构，研究了碳酸酐酶活性位点（AS）中质子转移（PT）的机理。对配合物原子上电荷分布的分析提供了通过连接供体和受体基团的H键水链对PT进行静电控制的证据。 PT反应根据最小偶极矩在过渡状态下的原理通过协同机制进行。获得的结果表明，酶AS中的静电相互作用可以起到“引擎”的作用，从而驱动质子通过桥水从供体传递至受体。发现形成质子通道的水分子的迁移对PT过程至关重要。

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《Journal of Molecular Structure. Theochem: Applications of Theoretical Chemistry to Organic, Inorganic and Biological Problems》 |2002年第3期|共9页
作者
A. N. Isaev;
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正文语种 eng
中图分类结构化学;
关键词
H-bonds; carbonic anhydrase; proton-transfer complex; electrostatic interaction; dipole moment;

机译：H键;碳酸酐酶;质子转移配合物;静电相互作用;偶极矩;

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1. Electrostatic control of proton-transfer reaction in the active site of carbonic anhydrase [J] . A. N. Isaev Journal of Molecular Structure. Theochem: Applications of Theoretical Chemistry to Organic, Inorganic and Biological Problems . 2002,第1a3期

机译：碳酸酐酶活性部位质子转移反应的静电控制
2. Enhancement of the tail hydrophobic interactions within the carbonic anhydrase IX active site via structural extension: Design and synthesis of novel N-substituted isatins-SLC-0111 hybrids as carbonic anhydrase inhibitors and antitumor agents [J] . Eldehna Wagdy M., Abo-Ashour Mahmoud F., Nocentini Alessio, European Journal of Medicinal Chemistry: Chimie Therapeutique . 2019,第期

机译：通过结构延伸增强碳酸酐酶IX活性部位内的尾疏水相互作用：设计和合成新型N-取代的ISATINS-SLC-0111杂交种作为碳酸酐酶抑制剂和抗肿瘤剂
3. Carbonic Anhydrase Inhibitors with Dual-Tail Moieties To Match the Hydrophobic and Hydrophilic Halves of the Carbonic Anhydrase Active Site [J] . Tanpure Rajendra P., Ren Bin, Peat Thomas S., Journal of Medicinal Chemistry . 2015,第3期

机译：具有双尾部分的碳酸酐酶抑制剂以匹配碳酸酐酶活性位点的疏水和亲水部分
4. SYNTHESIS AND CHARACTERIZATION OF CARBONIC ANHYDRASE ACTIVE-SITE MIMICS FOR CO2 HYDRATION [C] . Deepshikha Gupta, Cameron A. Lippert, Anitha Wishrojwar ACS National Meeting and Exhibition . 2013

机译：CO2水合碳酸酐酶活性位模拟物的合成与表征
5. Structure and catalysis at the active site of human carbonic anhydrase II. [D] . Avvaru, Balendu Sankara. 2010

机译：人碳酸酐酶II活性位点的结构和催化作用。
6. The active site architecture of Pisum sativum β-carbonic anhydrase is a mirror image of that of α-carbonic anhydrases [O] . Matthew S. Kimber, Emil F. Pai 2000

机译：豌豆（Pisum sativum）β-碳酸酐酶的活性位点结构与α-碳酸酐酶的活性位点镜像
7. Entrapment of Carbon Dioxide in the Active Site of Carbonic Anhydrase II* [O] . David N. Silverman, Robert Mckenna 2015

机译：二氧化碳在碳酸酐酶II活性部位的夹带*
8. Active Site Formation in the Last Stages of Folding of Carbonic Anhydrase [R] . Henkens, R. W., Groover, K. H., Sheffey, R. A., 1985

机译：碳酸酐酶折叠最后阶段的活性位点形成

Electrostatic control of proton-transfer reaction in the active site of carbonic anhydrase

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