Abstract
Trimethylamine N-oxide (TMAO) can function as an electron acceptor in the anaerobic metabolism of both Rhodopseudomonas capsulata and Escherichia coli. In both bacteria, anaerobic growth in the presence of TMAO induces a system that can reduce TMAO to trimethylamine (TMA). Comparative studies, however, show that TMAO reduction serves different purposes in the organisms noted. In E. coli, anaerobic growth on sugars does not require the presence of TMAO, but in cells induced for TMAO reductase, TMAO can act as the terminal electron acceptor for membrane-associated oxidative phosphorylation. Anaerobic dark growth of R. capsulata is dependent on the presence of TMAO (or an analog) and in this organism a soluble system catalyzes anaerobic oxidation of NADH with TMAO. The mechanism, in R. capsulata, appears to involve a flavoprotein of the flavodoxin type and presumably represents a system for maintenance of redox balance during anaerobic dark fermentation of hexoses and related compounds.
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