Bromoperoxidase activity of amavadin dissected: a DFT investigation

Giuseppe Zampella; Luca Bertini; Luca De Gioia

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Bromoperoxidase activity of amavadin dissected: a DFT investigation

机译：解剖的阿马瓦丁的溴过氧化物酶活性：DFT调查

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Bromoperoxidase catalytic activity exerted by oxidated amavadin MHIDPA)_2] (HIOPA = 2,2'-(hydroxyimino) dipropionate) in mono- and bis-protonated forms has been investigated by DFT. Possible reaction pathways for formation of peroxido/hydroperoxido complexes and subsequent bromide oxidation have been systematically dissected. The effect of increasing [H~+] on catalytically active species and on halogenide oxidation has been also studied. Similarly to vanadium haloperoxidase (VHPO), the results point to a hydroperoxido amavadin adduct as the most reactive species toward bromide oxidation. However, comparison of the reactivity of amavadin and VHPO reveals also crucial differences in the catalytic mechanism of such natural V complexes.

机译：DFT研究了氧化的金刚烷蛋白MHIDPA）_2]（HIOPA = 2,2'-（羟基亚氨基）二丙酸酯）发挥的溴过氧化物酶催化活性。已经系统地剖析了形成过氧化物/氢过氧化物复合物和随后的溴化物氧化的可能反应途径。还研究了增加[H〜+]对催化活性物质和对卤化物氧化的影响。与钒卤代过氧化物酶（VHPO）相似，结果表明氢过氧化物阿马瓦丁加合物是对溴化物氧化反应最活跃的物种。然而，对阿马伐丁和VHPO的反应性的比较也揭示了这种天然V配合物的催化机理的关键差异。

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《Chemical Communications》 |2014年第3期|304-307|共4页
作者
Giuseppe Zampella; Luca Bertini; Luca De Gioia;
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Department of Biotechnology and Bioscience, Piazza della Scienza, 2, 20100 Milan, Italy;

Department of Biotechnology and Bioscience, Piazza della Scienza, 2, 20100 Milan, Italy;

Department of Biotechnology and Bioscience, Piazza della Scienza, 2, 20100 Milan, Italy;

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入库时间 2022-08-17 13:14:51

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Bromoperoxidase activity of amavadin dissected: a DFT investigation

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