Involvement of formate as an interspecies electron carrier in a syntrophicacetate-oxidizing anaerobic microorganism in coculture with methanogens

Citation
S. Hattori et al., Involvement of formate as an interspecies electron carrier in a syntrophicacetate-oxidizing anaerobic microorganism in coculture with methanogens, J BIOSCI BI, 91(3), 2001, pp. 294-298
Citations number
22
Categorie Soggetti
Biotecnology & Applied Microbiology",Microbiology
Journal title
JOURNAL OF BIOSCIENCE AND BIOENGINEERING
ISSN journal
13891723 → ACNP
Volume
91
Issue
3
Year of publication
2001
Pages
294 - 298
Database
ISI
SICI code
1389-1723(200103)91:3<294:IOFAAI>2.0.ZU;2-K
Abstract
To determine whether formate is involved in interspecies electron transfer between substrate-oxidizing bacteria and hydrogenotrophic microorganisms un der anaerobic conditions, a syntrophic acetate-oxidizing bacterium Thermace togenium phaeum strain PB was cocultured either with a formate/H-2-utilizin g methanogen strain TM (designated as PB/TM coculture), or an H-2-utilizing methanogen strain DeltaH (designated as PB/DeltaH coculture). Acetate oxid ation and subsequent methanogenesis in PB/TM coculture were found to be sig nificantly faster than in PB/DeltaH coculture. Formate dehydrogenase and hy drogenase were both detected in strains PB and TM. H-2 partial pressures in the PB/TM coculture were kept tower (20 to 40 Pa) than those of the PB/Del taH coculture (40 to 60 Pa) during the exponential growth phase. Formate wa s also detected in both PB/TM and PB/DeltaH cocultures, and the concentrati on of formate was maintained at a lower level in the PB/TM coculture (5 to 9 muM) than in the PB/DeltaH coculture. Thermodynamic calculations revealed that the concentrations of both H-2 and formate severely affect the syntro phic oxidation of acetate. These results strongly indicate that not only H- 2 but also formate may be involved in interspecies electron transfer.