Elucidating electron transfer pathways in N2OR catalysis for mitigation of N2O emissions: a comprehensive review

IF 8.6 1区 环境科学与生态学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Lingxiu Liu, Minyu Suo, Changjie Shi, Nan Li, Hua Pan, Dzmitry Hrynsphan, Savitskaya Tatsiana, Raúl Robles-Iglesias, Zeyu Wang, Jun Chen
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Abstract

Nitrous oxide (N2O) is a potent greenhouse gas that accumulates in the atmosphere due to anthropogenic N2O emissions, disrupting the nitrogen balance. N2O reductase (N2OR) in denitrifying bacteria contributes to the nitrogen cycle by converting N2O to molecular nitrogen as a last step. For the reduction of N2O during denitrification, electron donors must supply two electrons. This review discusses the in vivo physiological electron donors involved in the reduction reaction of N2OR: cytochrome c55X and pseudoazurin, as well as the non-physiological electron donors commonly used in N2OR studies: reduced MV/BV, dithionite, and ascorbate. The kinetic parameters of the connection between N2OR and the electron donors are also included. This aim of this review to gain further insight into the reduction mechanism of N2OR, presenting the electron transfer center, CuA, and the catalytic center, CuZ, of N2OR. The state changes of Cu site have a significant impact on electron transfer and N2O binding. Moreover, the review focuses on potential electron transfer pathways and binding sites in the electron donor → CuA → CuZ process, along with the steady-state turnover in the CuZ site. Additionally, the review explains the commonly used methods in mechanistic studies of N2OR. Modulating the electron transfer pathways of N2OR holds promise as an approach to decreasing N2O emissions.

Graphical abstract

Abstract Image

阐明 N2OR 催化过程中的电子传递途径以减少 N2O 排放:综述
一氧化二氮(N2O)是一种强效温室气体,由于人为的一氧化二氮排放而在大气中积累,破坏了氮平衡。反硝化细菌中的一氧化二氮还原酶(N2OR)在氮循环的最后一步将一氧化二氮转化为分子氮。要在反硝化过程中还原 N2O,电子供体必须提供两个电子。本综述讨论了参与 N2OR 还原反应的体内生理性电子供体:细胞色素 c55X 和假氮嘌呤,以及 N2OR 研究中常用的非生理性电子供体:还原 MV/BV、连硫酸盐和抗坏血酸。此外,还包括 N2OR 与电子供体之间联系的动力学参数。本综述旨在进一步深入了解 N2OR 的还原机制,介绍 N2OR 的电子传递中心 CuA 和催化中心 CuZ。Cu 位点的状态变化对电子传递和 N2O 结合有重要影响。此外,综述还重点介绍了电子供体 → CuA → CuZ 过程中潜在的电子转移途径和结合位点,以及 CuZ 位点的稳态周转。此外,综述还解释了 N2OR 机理研究的常用方法。调节 N2OR 的电子传递途径有望成为减少 N2O 排放的一种方法。
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来源期刊
Reviews in Environmental Science and Bio/Technology
Reviews in Environmental Science and Bio/Technology Environmental Science-Waste Management and Disposal
CiteScore
25.00
自引率
1.40%
发文量
37
审稿时长
4.5 months
期刊介绍: Reviews in Environmental Science and Bio/Technology is a publication that offers easily comprehensible, reliable, and well-rounded perspectives and evaluations in the realm of environmental science and (bio)technology. It disseminates the most recent progressions and timely compilations of groundbreaking scientific discoveries, technological advancements, practical applications, policy developments, and societal concerns encompassing all facets of environmental science and (bio)technology. Furthermore, it tackles broader aspects beyond the natural sciences, incorporating subjects such as education, funding, policy-making, intellectual property, and societal influence.
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