Metalloprotein-inhibitor binding: Human carbonic anhydrase II as a model for probing metal-ligand interactions in a metalloprotein active site

Martin D.P.; Hann Z.S.; Cohen S.M.

首页> 外文期刊>Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics >Metalloprotein-inhibitor binding: Human carbonic anhydrase II as a model for probing metal-ligand interactions in a metalloprotein active site

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Metalloprotein-inhibitor binding: Human carbonic anhydrase II as a model for probing metal-ligand interactions in a metalloprotein active site

机译：金属蛋白抑制剂结合：人类碳酸酐酶II作为探测金属蛋白活性位点中金属-配体相互作用的模型

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An ever-increasing number of metalloproteins are being discovered that play essential roles in physiological processes. Inhibitors of these proteins have significant potential for the treatment of human disease, but clinical success of these compounds has been limited. Herein, zinc(II)-dependent metalloprotein inhibitors in clinical use are reviewed, and the potential for using novel metal-binding groups (MBGs) in the design of these inhibitors is discussed. By using human carbonic anhydrase II as a model system, the nuances of MBG-metal interactions in the context of a protein environment can be probed. Understanding how metal coordination influences inhibitor binding may help in the design of new therapeutics targeting metalloproteins.

机译：越来越多的金属蛋白在生理过程中起着至关重要的作用。这些蛋白质的抑制剂具有治疗人类疾病的巨大潜力，但是这些化合物的临床成功受到限制。本文中，综述了锌（II）依赖性金属蛋白抑制剂在临床中的应用，并讨论了在这些抑制剂的设计中使用新型金属结合基（MBG）的潜力。通过使用人类碳酸酐酶II作为模型系统，可以探究蛋白质环境中MBG-金属相互作用的细微差别。了解金属配位如何影响抑制剂结合可能有助于设计针对金属蛋白的新疗法。

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《Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics》 |2013年第21期|共9页
作者
Martin D.P.; Hann Z.S.; Cohen S.M.;
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正文语种 eng
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binding; anhydrase; metalloproteins;

机译：结合酸酐酶金属蛋白;

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1. Metalloprotein-inhibitor binding: Human carbonic anhydrase II as a model for probing metal-ligand interactions in a metalloprotein active site [J] . Martin D.P., Hann Z.S., Cohen S.M. Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2013,第21期

机译：金属蛋白抑制剂结合：人类碳酸酐酶II作为探测金属蛋白活性位点中金属-配体相互作用的模型
2. NMR Studies of Active-Site Properties of Human Carbonic Anhydrase II by Using N-15-Labeled 4-Methylimidazole as a Local Probe and Histidine Hydrogen-Bond Correlations [J] . Shenderovich Ilya G., Lesnichin Stepan B., Tu Chingkuang, Chemistry: A European journal . 2015,第7期

机译：以N-15标签的4-甲基咪唑为局部探针并与组氨酸氢键相关的NMR研究人类碳酸酐酶II的活性位
3. A QM/MM study of fluoroaromatic interactions at the binding site of carbonic anhydrase II, using a DFT method corrected for dispersive interactions [J] . Claudio A. Morgado, Ian H. Hillier, Neil A. Burton Physical chemistry chemical physics: PCCP . 2008,第19期

机译：QM / MM研究了碳酸酐酶II结合位点的氟代芳香族相互作用，使用针对分散相互作用校正的DFT方法
4. Modeling, synthesis and characterization of zinc containing carbonic anhydrase active site mimics [C] . J. H. Satcher, S.E. Baker, H. J. Kulik, GHGT-10 . 2011

机译：含碳酸酐酶活性位点模拟锌的建模，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. Metalloprotein-inhibitor binding: Human carbonic anhydrase II as a model for probing metal-ligand interactions in a metalloprotein active site [O] . David P. Martin, Zachary S. Hann, Seth M. Cohen -1

机译：金属蛋白抑制剂结合：人类碳酸酐酶II作为探测金属蛋白活性位点中金属-配体相互作用的模型
7. Metalloprotein–Inhibitor Binding: Human Carbonic Anhydrase II as a Model for Probing Metal–Ligand Interactions in a Metalloprotein Active Site [O] . David P. Martin, Zachary S. Hann, Seth M. Cohen 2013

机译：金属蛋白抑制剂结合：人碳酸酐酶II作为探测金属蛋白活性位点的金属 - 配体相互作用的模型
8. Dynamic (13)C NMR Studies on the Active Site Structure and Kinetics of Human Carbonic Anhydrase I [R] . Henkens, R. W., Merrill, S. P., Williams, T. J. 1984

机译：动态（13）C NmR研究人碳酸酐酶的活性位点结构和动力学I.

Metalloprotein-inhibitor binding: Human carbonic anhydrase II as a model for probing metal-ligand interactions in a metalloprotein active site

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