Cell biology and molecular basis of denitrification

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Microbiol. Mol. Biol. Rev., Dec 1997, 533-616, Vol 61, No. 4
Copyright © 1997, American Society for Microbiology

Cell biology and molecular basis of denitrification [In Process Citation]

WG Zumft
Lehrstuhl fur Mikrobiologie, Universitat Fridericiana, Karlsruhe, Germany.

Denitrification is a distinct means of energy conservation, making use of N oxides as terminal electron acceptors for cellular bioenergetics under anaerobic, microaerophilic, and occasionally aerobic conditions. The process is an essential branch of the global N cycle, reversing dinitrogen fixation, and is associated with chemolithotrophic, phototrophic, diazotrophic, or organotrophic metabolism but generally not with obligately anaerobic life. Discovered more than a century ago and believed to be exclusively a bacterial trait, denitrification has now been found in halophilic and hyperthermophilic archaea and in the mitochondria of fungi, raising evolutionarily intriguing vistas. Important advances in the biochemical characterization of denitrification and the underlying genetics have been achieved with Pseudomonas stutzeri, Pseudomonas aeruginosa, Paracoccus denitrificans, Ralstonia eutropha, and Rhodobacter sphaeroides. Pseudomonads represent one of the largest assemblies of the denitrifying bacteria within a single genus, favoring their use as model organisms. Around 50 genes are required within a single bacterium to encode the core structures of the denitrification apparatus. Much of the denitrification process of gram-negative bacteria has been found confined to the periplasm, whereas the topology and enzymology of the gram-positive bacteria are less well established. The activation and enzymatic transformation of N oxides is based on the redox chemistry of Fe, Cu, and Mo. Biochemical breakthroughs have included the X-ray structures of the two types of respiratory nitrite reductases and the isolation of the novel enzymes nitric oxide reductase and nitrous oxide reductase, as well as their structural characterization by indirect spectroscopic means. This revealed unexpected relationships among denitrification enzymes and respiratory oxygen reductases. Denitrification is intimately related to fundamental cellular processes that include primary and secondary transport, protein translocation, cytochrome c biogenesis, anaerobic gene regulation, metalloprotein assembly, and the biosynthesis of the cofactors molybdopterin and heme D1. An important class of regulators for the anaerobic expression of the denitrification apparatus are transcription factors of the greater FNR family. Nitrate and nitric oxide, in addition to being respiratory substrates, have been identified as signaling molecules for the induction of distinct N oxide- metabolizing enzymes.

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Juhas, M., Wiehlmann, L., Huber, B., Jordan, D., Lauber, J., Salunkhe, P., Limpert, A. S., von Gotz, F., Steinmetz, I., Eberl, L., Tummler, B. (2004). Global regulation of quorum sensing and virulence by VqsR in Pseudomonas aeruginosa. Microbiology 150: 831-841 [Abstract] [Full Text]
Takasaki, K., Shoun, H., Yamaguchi, M., Takeo, K., Nakamura, A., Hoshino, T., Takaya, N. (2004). Fungal Ammonia Fermentation, a Novel Metabolic Mechanism That Couples the Dissimilatory and Assimilatory Pathways of Both Nitrate and Ethanol: ROLE OF ACETYL CoA SYNTHETASE IN ANAEROBIC ATP SYNTHESIS. J. Biol. Chem. 279: 12414-12420 [Abstract] [Full Text]
Stres, B., Mahne, I., Avgustin, G., Tiedje, J. M. (2004). Nitrous Oxide Reductase (nosZ) Gene Fragments Differ between Native and Cultivated Michigan Soils. Appl. Environ. Microbiol. 70: 301-309 [Abstract] [Full Text]
Labbe, N., Parent, S., Villemur, R. (2004). Nitratireductor aquibiodomus gen. nov., sp. nov., a novel {alpha}-proteobacterium from the marine denitrification system of the Montreal Biodome (Canada). Int. J. Syst. Evol. Microbiol. 54: 269-273 [Abstract] [Full Text]
Delgado, M. J., Bonnard, N., Tresierra-Ayala, A., Bedmar, E. J., Muller, P. (2003). The Bradyrhizobium japonicum napEDABC genes encoding the periplasmic nitrate reductase are essential for nitrate respiration. Microbiology 149: 3395-3403 [Abstract] [Full Text]
Yamaguchi, K., Kawamura, A., Ogawa, H., Suzuki, S. (2003). Characterization of Nitrous Oxide Reductase from a Methylotrophic Denitrifying Bacterium, Hyphomicrobium denitrificans A3151. J Biochem 134: 853-858 [Abstract] [Full Text]
de Vries, S., Strampraad, M. J. F., Lu, S., Moenne-Loccoz, P., Schroder, I. (2003). Purification and Characterization of the MQH2:NO Oxidoreductase from the Hyperthermophilic Archaeon Pyrobaculum aerophilum. J. Biol. Chem. 278: 35861-35868 [Abstract] [Full Text]
Saltikov, C. W., Newman, D. K. (2003). Genetic identification of a respiratory arsenate reductase. Proc. Natl. Acad. Sci. USA 100: 10983-10988 [Abstract] [Full Text]
Yin, S., Fuangthong, M., Laratta, W. P., Shapleigh, J. P. (2003). Use of a Green Fluorescent Protein-Based Reporter Fusion for Detection of Nitric Oxide Produced by Denitrifiers. Appl. Environ. Microbiol. 69: 3938-3944 [Abstract] [Full Text]
Mesa, S., Bedmar, E. J., Chanfon, A., Hennecke, H., Fischer, H.-M. (2003). Bradyrhizobium japonicum NnrR, a Denitrification Regulator, Expands the FixLJ-FixK2 Regulatory Cascade. J. Bacteriol. 185: 3978-3982 [Abstract] [Full Text]
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Braker, G., Tiedje, J. M. (2003). Nitric Oxide Reductase (norB) Genes from Pure Cultures and Environmental Samples. Appl. Environ. Microbiol. 69: 3476-3483 [Abstract] [Full Text]
Ellington, M. J. K., Sawers, G., Sears, H. J., Spiro, S., Richardson, D. J., Ferguson, S. J. (2003). Characterization of the expression and activity of the periplasmic nitrate reductase of Paracoccus pantotrophus in chemostat cultures. Microbiology 149: 1533-1540 [Abstract] [Full Text]
Hwang, L., Hocking-Murray, D., Bahrami, A. K., Andersson, M., Rine, J., Sil, A. (2003). Identifying Phase-specific Genes in the Fungal Pathogen Histoplasma capsulatum Using a Genomic Shotgun Microarray. Mol. Biol. Cell 14: 2314-2326 [Abstract] [Full Text]

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