Abstract
From sludge obtained from the sewage digester plant in Stuttgart-Möhringen a strictly anaerobic bacterium was enriched and isolated with methyl chloride as the energy source. The isolate, which was tentatively called strain MC, was nonmotile, gram-positive, and occurred as elongated cocci arranged in chains. Cells of strain MC formed about 3 mol of acetate per 4 mol of CH3Cl consumed, indicating that the organism was a homoacetogenic bacterium fermenting methyl chloride plus CO2 according to: \(\begin{gathered} 4 CH_3 Cl + 2 CO_2 + 2 H_2 O \to 3 CH_3 COO^ - \hfill \\ + 7 H^ + + 4 Cl^ - . \hfill \\ \end{gathered} \)
The organism grew with 2–3% methyl chloride in the gas phase at a doubling time of near 30 h. Dichloromethane was not utilized. The bacterium also grew on carbon monoxide, H2 plus CO2, and methoxylated aromatic compounds. Optimal growth with methyl chloride was observed at 25°C and pH 7.3–7.7. The G+C-content of the DNA was 47.5±1.5%. The methyl chloride conversion appeared to be inducible, since H2 plus CO2-grown cells lacked this ability. From the morphological and physiological characteristics, the isolate could not be affiliated to a known species.
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References
Bache R, Pfennig N (1981) Selective isolation of Acetobacterium woodii on methoxylated aromatic acids and determination of growth yields. Arch Microbiol 130:255–261
Balch WE, Schoberth S, Tanner RS, Wolfe RS (1977) Acetobacterium, a new genus of hydrogen-oxidizing, carbon dioxidereducing, anaerobic bacteria. Int J Syst Bacteriol 27: 355–361
Diekert G (1991) The acetogenic bacteria. In: Balows A, Trüper HG, Dworkin M, Harder W, Schleifer KH (eds) The prokaryotes, 2nd edn. Springer, New York (in press)
Dolfing J, Tiedje JM (1987) Growth yield increase linked to reductive dechlorination in a defined 3-chlorobenzoate degrading methanogenic coculture. Arch Microbiol 149:102–105
Dolfing J (1990) Reductive dechlorination of 3-chlorobenzoate is coupled to ATP production and growth in an anaerobic bacterium, strain Dcb-1. Arch Microbiol 153:264–266
Dorn M, Andreesen JR, Gottschalk G (1978) Fermentation of fumarate and l-malate by Clostridium formicoaceticum. J Bacteriol 133: 26–32
Edwards PR, Campbell I, Milne GS (1982) The impact of chloromethanes on the environment Part 2. Methyl chloride and methylene chloride. Chem Ind (London) 4:619–622
Egli C, Tschan T, Scholtz R, Cook AM, Leisinger T (1988) Transformation of tetrachloromethane to dichloromethane and carbon dioxide by Acetobacterium woodii. Appl Environ Microbiol 54:2819–2824
Egli C, Stromeyer S, Cook AM, Leisinger T (1990) Transformation of tetra-and trichloromethane to CO2 by anaerobic bacteria is a non-enzymic process. FEMS Microbiol Lett 68:207–212
Geerligs G, Aldrich HC, Harder W, Diekert G (1987) Isolation and characterization of a carbon monoxide utilizing strain of the acetogen Peptostreptococcus productus. Arch Microbiol 148: 305–313
Genthner BRS, Bryant MP, (1987) Addtional characteristics of one-carbon-compound utilization by Eubacterium limosum and Acetobacterium woodii. Appl Environ Microbiol 53:471–476
Genthner BRS, Davis CL, Bryant MP, (1981) Features of rumen and sewage sludge strains of Eubacterium limosum, a methanol-and H2−CO2-utilizing species. Appl Environ Microbiol 42:12–19
Hartmans S, Schmuckle A, Cook AM, Leisinger T (1986) Methyl chloride: naturally occurring toxicant and C-1 growth substrate. J Gen Microbiol 132:1139–1142
Krone U, Laufer K, Thauer RK, Hogenkamp HPC (1989a) Coenzyme F430 as a possible catalyst for the reductive dehalogenation of chlorinated C1 hydrocarbons in methanogenic bacteria. Biochemistry 28:10061–10065
Krone U, Thauer RK, Hogenkamp HPC (1989b) Reductive dehalogenation of chlorinated C1-hydrocarbons mediated by corrinoids. Biochemistry 28:4908–4914
Marmur J (1961) A procedure for the isolation of deoxyribonucleic acid from microorganisms. J Mol Biol 3:208–218
Tanner RS, Stackebrandt E, Fox GE, Woese CR (1981) A phylogenetic analysis of Acetobacterium woodii, Clostridium barkeri, Clostridium butyricum, Clostridium lituseburense, Eubacterium limosum, and Eubacterium tenue. Curr Microbiol 5:35–38
Wolin EA, Wolin MJ, Wolfe RS (1963) Formation of methane by bacterial extracts. J Biol Chem 238:2882–2886
Zeikus JG, Lynd L, Thompson T, Krzycki J, Weimer P, Hegge P (1980) Isolation and characterization of a new, methylotrophic, acidogenic anaerobe, the Marburg strain. Curr Microbiol 3:381–386
Zillig W, Stetter KO, Wunderl S, Schulz W, Priess H, Scholz J (1980) The Sulfolobus-“Caldariella” group: taxonomy on the basis of the structure of DNA-dependent RNA polymerase. Arch Microbiol 125:259–269
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Traunecker, J., Preuß, A. & Diekert, G. Isolation and characterization of a methyl chloride utilizing, strictly anaerobic bacterium. Arch. Microbiol. 156, 416–421 (1991). https://doi.org/10.1007/BF00248720
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DOI: https://doi.org/10.1007/BF00248720