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References (45)
-
R. Thauer, K. Jungermann, K. Decker (1977)
Energy conservation in chemotrophic anaerobic bacteriaBacteriological Reviews, 41
-
G. Curzon, R. Pratt (1964)
Origin of Urinary Resorcinol SulphateNature, 204
-
D. Tarvin, A. Buswell (1934)
The Methane Fermentation of Organic Acids and Carbohydrates1,2Journal of the American Chemical Society, 56
-
O. Haenle
Einführung in die Organische Chemie -
P. Dutton, W. Evans (1969)
The metabolism of aromatic compounds by Rhodopseudomonas palustris. A new, reductive, method of aromatic ring metabolism.The Biochemical journal, 113 3
-
J. Cline (1969)
SPECTROPHOTOMETRIC DETERMINATION OF HYDROGEN SULFIDE IN NATURAL WATERS1Limnology and Oceanography, 14
-
(1985)
Methanogenic degradation -
J. Healy, L. Young, M. Reinhard (1980)
Methanogenic Decomposition of Ferulic Acid, a Model Lignin DerivativeApplied and Environmental Microbiology, 39
-
S. Dagley (1975)
A biochemical approach to some problems of environmental pollution.Essays in biochemistry, 11
-
J. Kaiser, K. Hanselmann (1982)
Fermentative metabolism of substituted monoaromatic compounds by a bacterial community from anaerobic sedimentsArchives of Microbiology, 133
-
N. Pfennig (1978)
Rhodocyclus purpureus gen. nov. and sp. nov., a Ring-Shaped, Vitamin B12-Requiring Member of the Family RhodospirillaceaeInternational Journal of Systematic and Evolutionary Microbiology, 28
-
(1979)
Anaerobic biodegradation of eleven -
(1984)
Anaerobic degradation of aromatic compounds. In: Gibson DT (ed) Microbial degradation of organic compounds -
(1979)
The search for correlation between theoretical and experimental growth yields -
F. Widdel, G. Kohring, F. Mayer (1983)
Studies on dissimilatory sulfate-reducing bacteria that decompose fatty acidsArchives of Microbiology, 134
-
J. Pridham (1965)
Low Molecular Weight Phenols in Higher PlantsAnnual Review of Plant Biology, 16
-
Koichi Nakazama (1971)
Beilsteins Handbuch der organischen Chemie -
(1979)
The search for correlation between theoretical and experimental growth yields International review of biochemistry, microbial biochemistry -
W. Evans (1977)
Biochemistry of the bacterial catabolism of aromatic compounds in anaerobic environmentsNature, 270
-
H. Laanbroek, W. Kingma, H. Veldkamp (1977)
Isolation of an aspartate-fermenting, free-living campylobacter speciesFems Microbiology Letters, 1
-
(1977)
Isolation of an aspartatefermenting , free - living Campylobaeter species -
J. Ferry, R. Wolfe (1976)
Anaerobic degradation of benzoate to methane by a microbial consortiumArchives of Microbiology, 107
-
U. Szewzyk, R. Szewzyk, B. Schink (1985)
Methanogenic degradation of hydroquinone and catechol via reductive dehydroxylation to phenolFems Microbiology Letters, 31
-
(1985)
Received February -
B. Schink, N. Pfennig (1982)
Fermentation of trihydroxybenzenes by Pelobacter acidigallici gen. nov. sp. nov., a new strictly anaerobic, non-sporeforming bacteriumArchives of Microbiology, 133
-
(1982)
Fermentative metabolism -
W. Chou, R. Speece, R. Siddiqi (1978)
Acclimation and degradation of petrochemical wastewater components by methane fermentation, 8
-
(1982)
Fermentation of trihydroxybenzenes -
D. Gibson (1984)
Microbial degradation of organic compounds. -
D. Mountfort, M. Bryant (1982)
Isolation and characterization of an anaerobic syntrophic benzoate-degrading bacterium from sewage sludgeArchives of Microbiology, 133
-
O. Richards, M. Windholz (1978)
The merck IndexTransactions of the American Microscopical Society, 97
-
(1977)
nity from anaerobic sediments -
J. Healy, Lily Young (1979)
Anaerobic Biodegradation of Eleven Aromatic Compounds to MethaneApplied and Environmental Microbiology, 38
-
(1965)
Biochemical degradation of some phenolsduring methane fermentation. Zeszyty Naukowe Politechniki Sl~ -
R Williams, W Evans (1975)
The metabolism of benzoate by Moraxella species through anaerobic nitrate respiration. Evidence for a reductive pathway.The Biochemical journal, 148 1
-
J. Healy, L. Young (1978)
Catechol and phenol degradation by a methanogenic population of bacteriaApplied and Environmental Microbiology, 35
-
A. Tschech, N. Pfennig (1984)
Growth yield increase linked to caffeate reduction in Acetobacterium woodiiArchives of Microbiology, 137
-
A. Martin (1982)
The origin of urinary aromatic compounds excreted by ruminantsBritish Journal of Nutrition, 49
-
(1965)
Biochemical degradation of some phenolsduring methane fermentation -
R. Bache, N. Pfennig (1981)
Selective isolation of Acetobacterium woodii on methoxylated aromatic acids and determination of growth yieldsArchives of Microbiology, 130
-
Edye GROSECLOSEt, W. Douglas, RIBBONStf (1981)
Metabolism of resorcinylic compounds by bacteria: new pathway for resorcinol catabolism in Azotobacter vinelandiiJournal of Bacteriology, 146
-
(1968)
Einffihrung in die organische Chemic -
R. Wolfe, N. Pfennig (1977)
Reduction of sulfur by spirillum 5175 and syntrophism with ChlorobiumApplied and Environmental Microbiology, 33
-
R. Scheline (1966)
Decarboxylation and demethylation of some phenolic benzoic acid derivatives by rat caecal contentsJournal of Pharmacy and Pharmacology, 18
-
(1977)
acids and carbohydrates
- Publisher
- Springer Journals
- Copyright
- Copyright © 1985 by Springer-Verlag
- Subject
- Life Sciences; Biotechnology; Biochemistry, general; Cell Biology; Ecology; Microbial Ecology; Microbiology
- ISSN
- 0302-8933
- eISSN
- 1432-072X
- DOI
- 10.1007/BF00414768
- Publisher site
- See Article on Publisher Site
Abstract
203 143 143 1 1 Andreas Tschech Bernhard Schink Fakultät für Biologie Universität Konstanz Postfach 5560 D-7750 Konstanz Federal Republic of Germany Abstract Anaerobic fermentative degradation of resorcinol and resorcylates was studied in enrichment cultures inoculated with marine or freshwater sediments or digested sludge. α-Resorcylate (3,5-dihydroxybenzoate) was degraded very rapidly to acetate and methane by enrichment cultures inoculated with freshwater sediment or sewage sludge, but degradation was slow in enrichments from marine habitats. The freshwater cultures did not degrade any other related phenolic substrates. Inhibition of methanogenic bacteria by bromoethanesulfonate and acetylene led to enhanced acetate formation indicating homoacetogenic hydrogen oxidation. With resorcinol (1,3-dihydroxybenzene) and β- and γ-resorcylate (2,4- and 2,6-dihydroxybenzoate), two different types of Gram-positive spore-forming strict anaerobes were isolated, which both did not grow with α-resorcylate. Both were assigned to the genus Clostridium . From freshwater enrichments, six strains were isolated in defined coculture with Campylobacter sp. They fermented resorcinol and β- and γ-resorcylate stoichiometrically to acetate and butyrate. No interspecies hydrogen transfer to methanogenic or other anaerobic bacteria was found. None out of numerous organic nutrients tested substituted for Campylobacter sp. as partner in defined cultures; the nutritive dependence of this bacterium could not be elucidated. Isolates from marine sediments formed acetate and hydrogen from resorcyclic compounds, and depended on syntrophic association with hydrogenscavenging anaerobes such as methanogens.
Journal
Archives of Microbiology – Springer Journals
Published: Oct 1, 1985