Symbiosis of methanogenic bacteria and sapropelic protozoa

Bruggen, J.J.A. van; Stumm, Claudius K.; Vogels, Godfried D.

doi:10.1007/bf00404779

Cited by 145 publications

(56 citation statements)

References 31 publications

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“…Enrichments were tested for methane generation biweekly by use of gas chromatography with a flame ionization detector. Periodically, methanogenic enrichments were also tested for the presence of coenzyme F420 by use of epifluorescence microscopy (58). A highly purified enrichment showing plentiful methane production and coenzyme F420 fluorescence was selected for scanning electron microscopy (SEM) imaging.…”

Section: Methodsmentioning

confidence: 99%

Methane-Producing Microbial Community in a Coal Bed of the Illinois Basin

Stra̧poć

Picardal

Turich

et al. 2008

Appl Environ Microbiol

248

109

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A series of molecular and geochemical studies were performed to study microbial, coal bed methane formation in the eastern Illinois Basin. Results suggest that organic matter is biodegraded to simple molecules, such as H 2 and CO 2 , which fuel methanogenesis and the generation of large coal bed methane reserves. Small-subunit rRNA analysis of both the in situ microbial community and highly purified, methanogenic enrichments indicated that Methanocorpusculum is the dominant genus. Additionally, we characterized this methanogenic microorganism using scanning electron microscopy and distribution of intact polar cell membrane lipids. Phylogenetic studies of coal water samples helped us develop a model of methanogenic biodegradation of macromolecular coal and coal-derived oil by a complex microbial community. Based on enrichments, phylogenetic analyses, and calculated free energies at in situ subsurface conditions for relevant metabolisms (H 2 -utilizing methanogenesis, acetoclastic methanogenesis, and homoacetogenesis), H 2 -utilizing methanogenesis appears to be the dominant terminal process of biodegradation of coal organic matter at this location.

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Section: Methodsmentioning

confidence: 99%

Methane-Producing Microbial Community in a Coal Bed of the Illinois Basin

Stra̧poć

Picardal

Turich

et al. 2008

Appl Environ Microbiol

248

109

View full text Add to dashboard Cite

show abstract

“…This organelle is defined by its unusual function : under anaerobic conditions it produces molecular hydrogen by oxidizing pyruvate or malate. More recently organelles with similar biochemical properties have been found in a number of additional protist groups, all from oxygen-poor or anoxic environments : certain free-living ciliates (van Bruggen et al, 1983 ;Finlay & Fenchel, 1989;Fenchel & Finlay, 1991 a) and rumen ciliates (Ciliata) (Yarlett et al, 1981(Yarlett et al, , 1983Snyers et al, 1982;Paul et al, 1990) and chytrid fungi (Chytridiomycota) (Yarlett et al, 1986a;MarvinSikkema et al, 1992). Their presence in additional protist groups is likely.…”

Section: Introductionmentioning

confidence: 95%

Review Article: The hydrogenosome

Müller

1993

Journal of General Microbiology

410

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“…HMD is synthesized when the dissolved H 2 level is very high, which must occur in the environments that surround thermal vents that are inhabited by both M. thermoautotrophicum and M. jannaschii (48,131). Locally high H 2 concentrations may also occur within syntrophic and symbiotic associations of M. thermoautotrophicum with H 2 -generating bacteria and protozoa (15,31,108). MTD, on the other hand, is synthesized when the H 2 supply is growth rate limiting, which appears to be the situation in most other anaerobic environments inhabited by M. thermoautotrophicum (55,80,133).…”

Section: More Than One Enzyme For the Same Reactionmentioning

confidence: 99%