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Summary

The influence of oxygen on growth and fumarate-dependent respiration of Wolinella recta ATCC 33238 was studied in continuous culture. Steady states were obtained with formate-limited cultures grown at a specific growth rate of 0.1 h−1 with different levels of oxygenation. The extent of aeration was regulated by means of a redox control system permitting reproducible cultivation at oxygen levels below the detection limit of conventional lead-silver probes. The ratio of succinate produced to that of formate consumed (Suc/For) decreased from 0.99 in strictly anaerobic cultures to 0.06–0.10 in aerated cultures. The growth yield did not change significantly with increasing redox readings: 4.9–5.2 g cell carbon/mol formate. The ability to use O2 as the sole electron acceptor was demonstrated in a chemostat culture with formate as electron donor and succinate as carbon source. Washed cells from all chemostat cultures comsumed O2 with formate as electron donor at a high rate (2.1–3.7 μmol/min per mg protein) and possessed b- and c-type cytochromes and CO-binding pigments. These results clearly indicated the microaerophilic nature of W. recta.

Wolinella recta, Formate oxidation, Microaerophily, Anaerobic respiration

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Author notes

*

Department of Microbiology, Okayama University Dental School, Shikata-cho 2-chome, Okayama 700, Japan.

© 1988 Federation of European Microbiological Societies
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