Abstract
The accumulation of zero-valent sulfur during the utilization of reduced sulfur compounds by purple and green sulfur bacteria is discussed in relation to the physical factors temperature, pH and light intensity, the availability of the electron donors monosulfide, thiosulfate and trisulfide and the availability of the nutrient phosphate. Emphasis is placed on electron-donor, light and phosphate-limited continuous cultures of Chromatium vinosum DSM 185, Thiocapsa roseopersicina M1 and Chlorobium limicola f. thiosulfatophilum DSM 249. Sulfur and glycogen accumulation are particularly promoted by excessive electron-donor availability and saturating light conditions, but otherwise occur under all circumstances. Glycogen accumulation but not sulfur deposition was stimulated by phosphate limitation. Ecological implications are discussed.
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References
Beeftink, H. H. and Van Gemerden, H. (1979) ‘Actual and potential rates of substrate oxidation in continuous cultures of Chromatiumvinosum’, Arch. Microhiol. 121, 161–167.
Bogorov, L. V. (1974) ‘About the properties of Thiocapsa roseopersicina strain BBS, isolated from the estuary of the White Sea’, Microbiology 43, 275–280.
De Wit, R. and Van Gemerden, H. (1990) ‘Growth and metabolism of the purple sulfur bacterium Thiocapsa roseopersicina under combined light/dark and oxic/anoxic regimens’, Arch. Microbiol. (in press).
Fischer, U. (1989) ‘Enzymatic steps and dissimilatory sulfur metabolism by whole cells of Anoxyphotobacteria’, in E. S. Saltzman and W. J. Cooper (eds.), Biogenic Sulfur in the Environment, ACS Symposium Series 393, Am. Chem. Soc., Washington D.C., pp. 262–279.
Gorlenko, V. M. (1974) ‘The oxidation of thiosulfate of Amoehobacterroseus in the dark under microaerophilic conditions’, Microbiology 43, 624–625.
Guerrero, R., Montesinos, E., Pedrós-Alió, C., Esteve, I., Mas, J., Van Gemerden, H., Hofman, P. A. G. and Bakker, J. F. (1985) ‘Phototrophic sulfur bacteria in two Spanish lakes: vertical distribution and limiting factors’, Limnol. Oceanogr. 30, 919–931.
Ivanovsky, R. N. (1985) ‘Carbon metabolism in phototrophic bacteria under different conditions of growth’, in I. S. Kulaev, E. A. Dawes and D. W. Tempest (eds.), Environmental Regulation of Microbial Metabolism, Academic Press, London, pp. 263–273.
Kämpf, C. and Pfennig, N. (1980) ‘Capacity of Chromatiaceae for chemotrophic growth. Specific respiration rates of Thiocystis violaceae and Chromatium vinosum’, Arch. Microhiol. 127, 125–135.
Kämpf, C. and Pfennig, N. (1986) ‘Chemoautotrophic growth of Thiocystis violaceae, Chromatium gracile and C. vinosum in the dark at various 02-concentrations’, J. Basic Microbiol. 26, 517–531.
Kondratieva, E. N., Zhukov, V. G., Ivanovsky, R. N., Petushkova, Yu. P. and Monosov, E. Z. (1976) ‘The capacity of phototrophic sulfur bacteria Thiocapsa roseopersicina for chemosynthesis’, Arch. Microhiol. 108, 287–292.
Kondratieva, E. N., Zhukov, V. G., Ivanovsky, R. N., Petushkova, Yu. P. and Monosov, E. Z. (1976) ‘The capacity of phototrophic sulfur bacteria Thiocapsa roseopersicina for chemosynthesis’, Arch. Microhiol. 108, 287–292.
Parkin, T. B. and Brock, T. D. (1980) ‘The effects of light quality on the growth of phototrophic bacteria in lakes’, Arch. Microbiol. 125, 19–27.
Parkin, T. B. and Brock, T. D. (1981) ‘The role of phototrophic bacteria in the sulfur cycle of a meromictic lake’, Limnol. Oceanogr. 26, 880–890.
Steinmetz, M. A. and Fischer, U. (1982) ‘Cytochromes, rubredoxine, and sulfur metabolism of the non-thiosulfate-utilizing green sulfur bacterium Pelodyction luteolum, Arch. Microbiol. 132, 204–210.
Steudel, R. (1989) ‘On the nature of the “elemental sulfur” (S°) produced by sulfur-oxidizing bacteria–a model for S° globules’, in H. G. Schlegel and B. Bowien (eds.), Autotrophic Bacteria, Science Tech. Publ., Madison and Springer, Berlin, pp. 289–303.
Steudel, R., Holdt, G., Visscher, P. T. and Van Gemerden, H. (1990) ‘Search for polythionates in cultures of Chromatium vinosum after sulfide incubation’, Arch. Microbiol. 153, 432–437.
Then, J. (1984) ‘Beiträge zur Sulfidoxidation durch Ectothiorhodospira abdelmalekii and Ectothiorhodospirahalochloris’, Ph. D. Thesis, Univ. Bonn.
Then, J. and Trüper, H. G. (1983) ‘Sulfide oxidation in Ectothiorhodospira abdelmalekii. Evidence for the catalytic role of cytochrome c-551’, Arch. Microbiol. 139, 295–298.
Tilman, D., Kilham, S. S. and Kilman, P. (1982) ‘Phytoplankton community ecology: the role of limiting nutrients’, Ann. Rev. Ecol. System. 13, 349–372.
Trüper, H. G. (1989) ‘Physiology and biochemistry of phototrophic bacteria’, in H. G. Schlegel and B. Bowien (eds.), Autotrophie Bacteria, Science Tech. Publ., Madison and Springer, Berlin, pp. 267–281.
Van Gemerden, H. (1968) ‘On the ATP generation by Chromatium in darkness’, Arch. Mikrobiol. 64, 118–124.
Van Gemerden, H. (1980) ‘Survival of Chromatium vinosum at low light intensities’, Arch. Microbiol. 125, 115–121.
Van Gemerden, H. (1986) ‘Production of elemental sulfur by green and purple sulfur bacteria’, Arch. Microbiol. 146, 52–56.
Van Gemerden, H. (1987) ‘Competition between purple sulfur bacteria and green sulfur bacteria: role of sulfide, sulfur and polÿsulfides’, Acta. Ac. Aboensis 47, 13–27.
Van Gemerden, H. and Beeftink, H. H. (1981) ‘Coexistence of Chlorobium and Chromatium in a sulfide-limited continuous culture’, Arch. Microbiol. 129, 32–34.
Van Gemerden, H. and De Wit, R. (1986) ‘Strategies of phototrophic bacteria in sulphide-containing environments’, in R. A. Herbert and G. A. Codd (eds.), Microbes in Extreme Environments, SGM special publications 17, Academic Press, London, pp. 111–127.
Veldhuis, M. W. J. and Van Gemerden, H. (1986) Competition between purple and brown phototrophic bacteria in stratified lakes: sulfide, acetate, and light as limiting factors’, FEMS Microbiol. Ecol. 38, 31–38.
Visscher, P. T. and Van Gemerden, H. (1988) ‘Growth of Chlorobium limicola f. thiosulfatophilum on polysulfide’, in J. M. Olson, J. G. Ormerod, J. Amesz, E. Stackebrandt and H. G. Trüper (eds.), Green Photosynthetic Bacteria, Plenum Press, New York, pp. 287–294.
Visscher, P. T., Nijburg, J. W. and Van Gemerden, H. (submitted) ‘Polysulfide utilization by Thiocapsa roseopersicina’, Arch. Microbiol.
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Van Gemerden, H., Visscher, P.T., Mas, J. (1990). Environmental Control of Sulfur Deposition in Anoxygenic Purple and Green Sulfur Bacteria. In: Dawes, E.A. (eds) Novel Biodegradable Microbial Polymers. NATO ASI Series, vol 186. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-2129-0_21
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DOI: https://doi.org/10.1007/978-94-009-2129-0_21
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