Nitrogen Fixation Special Feature: How many metals does it take to fix N2? A mechanistic overview of biological nitrogen fixation

机译：固氮特性：固氮需要多少种金属？生物固氮机理的概述

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During the process of biological nitrogen fixation, the enzyme nitrogenase catalyzes the ATP-dependent reduction of dinitrogen to ammonia. Nitrogenase consists of two component metalloproteins, the iron (Fe) protein and the molybdenum-iron (MoFe) protein; the Fe protein mediates the coupling of ATP hydrolysis to interprotein electron transfer, whereas the active site of the MoFe protein contains the polynuclear FeMo cofactor, a species composed of seven iron atoms, one molybdenum atom, nine sulfur atoms, an interstitial light atom, and one homocitrate molecule. This Perspective provides an overview of biological nitrogen fixation and introduces three contributions to this special feature that address central aspects of the mechanism and assembly of nitrogenase.

机译：在生物固氮过程中，固氮酶催化ATP依赖的二氮还原为氨。固氮酶由两部分金属蛋白组成，即铁（Fe）蛋白和钼铁（MoFe）蛋白。 Fe蛋白质介导ATP水解与蛋白质间电子转移的耦合，而MoFe蛋白质的活性位点包含多核FeMo辅因子，该辅因子由七个铁原子，一个钼原子，九个硫原子，一个间隙轻原子和一个纯柠檬酸盐分子。本“观点”概述了生物固氮技术，并介绍了此特殊功能的三个贡献，这些特征解决了固氮酶机理和组装的核心问题。

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期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
James B. Howard; Douglas C. Rees;
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年(卷),期 2006(103),46
年度 2006
页码 17088–17093
总页数 6
原文格式 PDF
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专利

1. How many metals does it take to fix N-2? A mechanistic overview of biological nitrogen fixation [J] . Howard JB, Rees DC Proceedings of the National Academy of Sciences of the United States of America . 2006,第46期

机译：固定N-2需要多少金属？生物固氮机理的概述
2. Biological nitrogen fixation by alternative nitrogenases in boreal cyanolichens: importance of molybdenum availability and implications for current biological nitrogen fixation estimates [J] . The New Phytologist . 2017,第2期

机译：Boreal Cyanolichens中替代氮酶的生物氮固定：钼的重要性和对当前生物氮固定估计的影响
3. Grazing density effects on cover, species composition, and nitrogen fixation of biological soil crust in an Inner Mongolia steppe. (Special Feature: Grasslands of Inner Mongolia.) [J] . Liu HuaJie, Han XingGuo, Li LingHao, Rangeland Ecology & Management . 2009,第4期

机译：放牧密度对内蒙古草原生物土壤结皮的覆盖，物种组成和固氮的影响。（专题：内蒙古草原。）
4. Limitations to biological nitrogen fixation as a renewable source of nitrogen for agriculture [C] . M. B. Peoples, K. E. Ciller, D. F. Herridge, International Congress on Nitrogen Fixation . 2002

机译：对生物氮固定的限制作为农业的可再生氮源
5. Nitrogen Fixation Provides a Significant Source of Biologically Available Nitrogen in the Great Lakes [D] . Natwora, Kaela. 2020

机译：氮固定在大湖中提供了生物学上可用氮的重要来源
6. Nitrogen Fixation Special Feature: On the feasibility of N2 fixation via a single-site FeI/FeIV cycle: Spectroscopic studies of FeI(N2)FeI FeIVN and related species [O] . Michael P. Hendrich, William Gunderson, Rachel K. Behan, 2006

机译：固氮特性：关于通过单点FeI / FeIV循环固氮的可行性：FeI（N2）FeIFeIVN和相关物种的光谱研究
7. How many metals does it take to fix N2? A mechanistic overview of biological nitrogen fixation [O] . Howard James B., Rees Douglas C. 2006

机译：固定N2需要多少种金属？生物固氮机理的概述
8. Nitrogen Fixation by Free-Living Microorganisms in Tropical Rice Soils Using Labelled Fertilizer. Part of a Coordinated Programme on Isotope Techniques in Studies of Biological Nitrogen Fixation for the Dual Purpose of Increasing [R] . Rao, V. R. 1981

机译：用标记肥料固定热带水稻土中自由微生物的固氮作用。生物固氮研究同位素技术协调计划的一部分，旨在提高生物固氮的双重目的

Nitrogen Fixation Special Feature: How many metals does it take to fix N2? A mechanistic overview of biological nitrogen fixation

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