Regulation of oxidative phosphorylation: the flexible respiratory network of Paracoccus denitrificans

Paracoccus denitrificans is a facultative anaerobic bacterium that has the capacity to adjust its metabolic infrastructure, quantitatively and/or qualitatively, to the prevailing growth condition. In this bacterium the relative activity of distinct catabolic pathways is subject to a hierarchical con...

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Veröffentlicht in:	Journal of bioenergetics and biomembranes 1995-10, Vol.27 (5), p.499
Hauptverfasser:	Van Spanning, R J, de Boer, A P, Reijnders, W N, De Gier, J W, Delorme, C O, Stouthamer, A H, Westerhoff, H V, Harms, N, van der Oost, J
Format:	Artikel
Sprache:	eng
Schlagworte:	Aerobiosis Anaerobiosis Gene Expression Regulation, Bacterial Genes, Bacterial Homeostasis Models, Biological Mutagenesis Oxidative Phosphorylation Paracoccus denitrificans - genetics Paracoccus denitrificans - growth & development Paracoccus denitrificans - metabolism
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container_issue	5
container_start_page	499
container_title	Journal of bioenergetics and biomembranes
container_volume	27
creator	Van Spanning, R J de Boer, A P Reijnders, W N De Gier, J W Delorme, C O Stouthamer, A H Westerhoff, H V Harms, N van der Oost, J
description	Paracoccus denitrificans is a facultative anaerobic bacterium that has the capacity to adjust its metabolic infrastructure, quantitatively and/or qualitatively, to the prevailing growth condition. In this bacterium the relative activity of distinct catabolic pathways is subject to a hierarchical control. In the presence of oxygen the aerobic respiration, the most efficient way of electron transfer-linked phosphorylation, has priority. At high oxygen tensions P. denitrificans synthesizes an oxidase with a relatively low affinity for oxygen, whereas under oxygen limitation a high-affinity oxidase appears specifically induced. During anaerobiosis, the pathways with lower free energy-transducing efficiency are induced. In the presence of nitrate, the expression of a number of dehydrogenases ensures the continuation of oxidative phosphorylation via denitrification. After identification of the structural components that are involved in both the aerobic and the anaerobic respiratory networks of P. denitrificans, the intriguing next challenge is to get insight in its regulation. Two transcription regulators have recently been demonstrated to be involved in the expression of a number of aerobic and/or anaerobic respiratory complexes in P. denitrificans. Understanding of the regulation machinery is beginning to emerge and promises much excitement in discovery.
doi_str_mv	10.1007/BF02110190
format	Article
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In this bacterium the relative activity of distinct catabolic pathways is subject to a hierarchical control. In the presence of oxygen the aerobic respiration, the most efficient way of electron transfer-linked phosphorylation, has priority. At high oxygen tensions P. denitrificans synthesizes an oxidase with a relatively low affinity for oxygen, whereas under oxygen limitation a high-affinity oxidase appears specifically induced. During anaerobiosis, the pathways with lower free energy-transducing efficiency are induced. In the presence of nitrate, the expression of a number of dehydrogenases ensures the continuation of oxidative phosphorylation via denitrification. After identification of the structural components that are involved in both the aerobic and the anaerobic respiratory networks of P. denitrificans, the intriguing next challenge is to get insight in its regulation. Two transcription regulators have recently been demonstrated to be involved in the expression of a number of aerobic and/or anaerobic respiratory complexes in P. denitrificans. 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In this bacterium the relative activity of distinct catabolic pathways is subject to a hierarchical control. In the presence of oxygen the aerobic respiration, the most efficient way of electron transfer-linked phosphorylation, has priority. At high oxygen tensions P. denitrificans synthesizes an oxidase with a relatively low affinity for oxygen, whereas under oxygen limitation a high-affinity oxidase appears specifically induced. During anaerobiosis, the pathways with lower free energy-transducing efficiency are induced. In the presence of nitrate, the expression of a number of dehydrogenases ensures the continuation of oxidative phosphorylation via denitrification. After identification of the structural components that are involved in both the aerobic and the anaerobic respiratory networks of P. denitrificans, the intriguing next challenge is to get insight in its regulation. Two transcription regulators have recently been demonstrated to be involved in the expression of a number of aerobic and/or anaerobic respiratory complexes in P. denitrificans. 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Two transcription regulators have recently been demonstrated to be involved in the expression of a number of aerobic and/or anaerobic respiratory complexes in P. denitrificans. Understanding of the regulation machinery is beginning to emerge and promises much excitement in discovery.</abstract><cop>United States</cop><pmid>8718455</pmid><doi>10.1007/BF02110190</doi></addata></record>
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subjects	Aerobiosis Anaerobiosis Gene Expression Regulation, Bacterial Genes, Bacterial Homeostasis Models, Biological Mutagenesis Oxidative Phosphorylation Paracoccus denitrificans - genetics Paracoccus denitrificans - growth & development Paracoccus denitrificans - metabolism
title	Regulation of oxidative phosphorylation: the flexible respiratory network of Paracoccus denitrificans
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