直接电化学生成具有催化活性的氧亚铁物种的 I 类和 P 型染料脱色过氧化物酶。

Direct Electrochemical Generation of Catalytically Competent Oxyferryl Species of Classes I and P Dye Decolorizing Peroxidases.

机构信息

Departamento de Química Inorgánica, Analítica y Química Física, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires C1428EGA, Argentina.

Instituto de Química Física de los Materiales, Medio Ambiente y Energía (INQUIMAE), CONICET-Universidad de Buenos Aires, Buenos Aires C1428EGA, Argentina.

出版信息

Int J Mol Sci. 2021 Nov 20;22(22):12532. doi: 10.3390/ijms222212532.

DOI:10.3390/ijms222212532

PMID:34830413

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8653965/

Abstract

This work introduces a novel way to obtain catalytically competent oxyferryl species for two different dye-decolorizing peroxidases (DyPs) in the absence of HO or any other peroxide by simply applying a reductive electrochemical potential under aerobic conditions. UV-vis and resonance Raman spectroscopies show that this method yields long-lived compounds II and I for the DyPs from (BsDyP; Class I) and (PpDyP; Class P), respectively. Both electrochemically generated high valent intermediates are able to oxidize ABTS at both acidic and alkaline pH. Interestingly, the electrocatalytic efficiencies obtained at pH 7.6 are very similar to the values recorded for regular catalytic ABTS/HO assays at the optimal pH of the enzymes, ca. 3.7. These findings pave the way for the design of DyP-based electrocatalytic reactors operable in an extended pH range without the need of harmful reagents such as HO.

摘要

这项工作介绍了一种在有氧条件下施加还原电化学电势，而无需 HO 或任何其他过氧化物，即可获得两种不同染料脱色过氧化物酶 (DyP) 的催化有效氧铁物种的新方法。紫外可见和共振拉曼光谱表明，该方法分别为来自（BsDyP；I 类）和（PpDyP；P 类）的 DyP 产生长寿命的化合物 II 和 I。两种电化学产生的高价中间体均能够在酸性和碱性 pH 下氧化 ABTS。有趣的是，在 pH 7.6 下获得的电催化效率与在酶的最佳 pH（约 3.7）下进行常规催化 ABTS/HO 测定时记录的值非常相似。这些发现为设计基于 DyP 的电催化反应器铺平了道路，这些反应器可在无需有害试剂（如 HO）的情况下在更宽的 pH 范围内运行。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee32/8653965/ad719b9126d1/ijms-22-12532-sch001.jpg

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直接电化学生成具有催化活性的氧亚铁物种的 I 类和 P 型染料脱色过氧化物酶。

Direct Electrochemical Generation of Catalytically Competent Oxyferryl Species of Classes I and P Dye Decolorizing Peroxidases.

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