Fumarate dependent protein composition under aerobic and anaerobic growth conditions in Escherichia coli.

In the absence of sugars, C4-dicarboxylates (C4DC) like fumarate represent important substrates for growth of Escherichia coli. Aerobically, C4DCs are oxidized to CO2 whereas anaerobically, C4DCs are used for fumarate respiration. In order to determine the impact of fumarate under aerobic and anaerobic conditions, proteomes of E. coli W3110 grown aerobically or anaerobically with fumarate and/or the non-C4DC substrate glycerol were comparatively profiled by nanoLC-MS/MS. Membrane enrichment allowed sensitive detection of membrane proteins. A total of 1657 proteins of which 646 and 374 were assigned to the cytosol or membrane, respectively, were covered. Presence of fumarate triggered changes (≥ 2fold) to the levels of 211 and 76 proteins under aerobic and anaerobic growth, respectively. The fumarate induced changes included proteins encoded by genes regulated by the C4DC two-component system DcuS-DcuR (DctA, DcuB, FumB, FrdABC proteins) catalyzing uptake and initial catabolic steps. Many of the proteins displaying altered levels are not part of the DcuS-DcuR regulon, including proteins of citric acid cycle and associated pathways (aerobic), proteins involved in motility and chemotaxis (anaerobic), and oxidative stress. Their genes are mostly preceded by cAMP receptor protein (CRP) sites, some by DcuR-like sites. Testing of selected genes confirmed regulation by CRP and DcuS-DcuR. SIGNIFICANCE: Global protein profiling of the soluble and the membrane fraction provides a comprehensive view on the protein pattern of E. coli grown aerobically and anaerobically with or without fumarate. The results disclose during aerobic growth besides the known impact of the C4-dicarboxylates (C4DC) on carbon utilization and citric acid cycle major adaptations in amino acid metabolism. In contrast, protein alterations in the presence of fumarate under anaerobic conditions point to enhanced motility and chemotaxis. Only proteins (transporters, initial metabolic steps) feeding external C4DCs to the central pathways were regulated by the C4DC two-component system DcuS-DcuR, whereas other protein levels were controlled in an indirect manner by CRP triggered catabolite control and other mechanisms. Consequently, metabolic and transcriptional regulation by C4DCs is apparently effected by a network of the DcuS-DcuR system with important contribution by catabolite control. Copyright © 2019 Elsevier B.V. All rights reserved.

Citation

Kristin Surmann, Marius Stopp, Sebastian Wörner, Vishnu M Dhople, Uwe Völker, Gottfried Unden, Elke Hammer. Fumarate dependent protein composition under aerobic and anaerobic growth conditions in Escherichia coli. Journal of proteomics. 2020 Feb 10;212:103583

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PMID: 31734389

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