氨氧化微生物生理学研究进展。

Insights into the physiology of ammonia-oxidizing microorganisms.

机构信息

Department of Biological Sciences, University of Alberta, Edmonton, T6G 2E9, Canada.

出版信息

Curr Opin Chem Biol. 2019 Apr;49:9-15. doi: 10.1016/j.cbpa.2018.09.003. Epub 2018 Sep 17.

DOI:10.1016/j.cbpa.2018.09.003

Abstract

Nitrification is the aerobic process of the nitrogen cycle that converts ammonia to nitrate and is facilitated by ammonia-oxidizing and nitrite-oxidizing microorganisms. Ammonia-oxidizers are unique chemolithotrophs that evolved specialized networks of electron carriers to generate proton motive force using ammonia as a sole energy source as well as mechanisms to tolerate cytotoxic intermediates of their metabolism. Cultivation and genome sequencing of ammonia-oxidizing bacteria (AOB), archaea (AOA), and comammox bacteria (i.e. COMplete AMMonia OXidizers) have revealed new enzymology, mechanisms to tolerate low pH and hypoxia, and mechanisms for production of the potent greenhouse gas, nitrous oxide. The role of ammonia-oxidizers in natural and engineered environments is of keen interest as they are essential to the nitrogen cycle, wastewater treatment, and flux of greenhouse gases to the atmosphere.

摘要

硝化作用是氮循环中的有氧过程，它将氨转化为硝酸盐，并由氨氧化和亚硝酸盐氧化微生物促进。氨氧化菌是独特的化能自养生物，它们进化出专门的电子载体网络，利用氨作为唯一的能源来产生质子动力，同时还具有耐受其代谢中间产物细胞毒性的机制。氨氧化细菌（AOB）、古菌（AOA）和共氨氧化菌（即 COMplete AMMonia OXidizers）的培养和基因组测序揭示了新的酶学、耐受低 pH 值和缺氧的机制，以及产生强效温室气体一氧化二氮的机制。氨氧化菌在自然和工程环境中的作用引起了人们的极大兴趣，因为它们是氮循环、废水处理和温室气体向大气通量的关键。

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氨氧化微生物生理学研究进展。

Insights into the physiology of ammonia-oxidizing microorganisms.

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