Abstract
Azotobacter vinelandii was grown in continuous culture at constant dilution rate and at different molar ratios of sucrose to ammonium (C/N) in the inflowing medium. The organisms used up essentially all of the carbon and fixed nitrogen sources. Therefore, the (C/N)-ratio in the influent was the same as the (C/N)-ratio of consumption. Starting close to unity, slight increases of the (C/N)-ratio resulted in increases of cellular respiration. Concomitantly, growth yield coefficients on sucrose decreased while the total biomass stayed constant. At there low (C/N)-ratios growth was limited by ammonium with a yield coefficient on ammonium of about 0.07 g protein per mmol of ammonium. Eventually, however, upon furhter increasing the (C/N)-ratio, respiration as well as the yield coefficient on sucrose approached constant values while the biomass levels increased linearly. This result indicated that a transition to sucrose-limited growth had occurred. The (C/N)-ratio, above which respiration and yield coefficients on sucrose approached constancy, increased when the cultures were grown at higher oxygen tension. When the oxygen tension was higher, and at the same (C/N)-ratios, respiratory values increased, and biomass levels as well as yield coefficients decreased. The data suggest control of respiration and thus of growth yield by the ratio of sucrose to ammonium consumed. These observations infer that commencement of dinitrogen fixation kept the internal (C/N)-ratio constant and consequently respiration as well as yield coefficients on sucrose were maintained.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Boogerd FC, Verseveld HW van, Torenvliet D, Braster M, Stouthamer AH (1984) Reconsideration of the efficiency of energy transduction in Paracoccus denitrificans during growth under a variety of culture conditions. Arch Microbiol 139:344–350
Bühler T, Sann R, Monter U, Dingler C, Kuhla J, Oelze J (1987) Control of dinitrogen fixation in ammonium-assimilating cultures of Azotobacter vinelandii. Arch Microbiol 148:247–251
Cejudo FJ, de la Torre A, Panque A (1984) Short-term ammonium inhibition of nitrogen fixation in Azotobacter. Biochem Biophys Res Comm 123:431–437
Dawes EA, Senior PJ (1973) The role and regulation of energy reserve polymers in microorganisms. Adv Microbiol Phys 10:135–266
Gordon JK, Shah VK, Brill WJ (1981) Feedback inhibition of nitrogenase. J Bacteriol 148:884–888
Haaker H, Veeger C (1984) Enzymology of nitrogen fixation. TIBS 9:188–192
Harder W, Kuenen JG, Matin A (1977) Microbial selection in continuous culture. J Appl Bacteriol 43:1–24
Kleiner D (1974) Quantitative relations for the repression of nitrogenase synthesis in Azotobacter vinelandii by ammonia. Arch Microbiol 101:153–159
Klugkist J, Haaker H, Wassink H, Veeger C (1985) The catalytic activity of nitrogenase in intact Azotobacter vinelandii. Eur J Biochem 146:509–515
Laane C, Krone W, Konings W, Haaker H, Veeger C (1980) Short-term effects of ammonium chloride on nitrogen fixation by Azotobacter vinelandii and by bacteriods of Rhizobium leguminosarum. Eur J Biochem 103:39–46
Lowry OH, Rosebrough NJ, Farr AL, Randall RJ (1951) Protein measurement with the Folin phenol reagent. J Biol Chem. 193:265–275
Post E, Golecki JR, Oelze J (1982) Morphological and ultrastructural variations in Azotobacter vinelandii growing in oxygen controlled continuous culture. Arch Microbiol 133:75–83
Post E, Kleiner D, Oelze J (1983) Whole cell respiration and nitrogenase activities in Azotobacter vinelandii growing in oxygen-controlled continuous culture. Arch Microbiol 134:68–72
Postgate JR (1982) The fundamentals of nitrogen fixation. Cambridge University Press
Robson RL, Postgate JR (1980) Oxygen and hydrogen in biological nitrogen fixation. Annu Rev Microbiol 34:183–207
Robson RL, Kennedy C, Postgate JR (1983) Progress in comparative genetics of nitrogen fixation. Can J Microbiol 29:954–967
Verseveld HW van (1979) Influence of environmental factors on the efficiency of energy conservation in Paracoccus denitrificans. Ph.D.-thesis, Vrije Universiteit, Amsterdam
Yates MG, Eady RR (1980) The physiology and regulation of nitrogen fixation. In: Subba Rao NS (ed) Recent advances in biological nitrogen fixation. Edward Arnold Ltd, London, pp 88–120
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Bühler, T., Monter, U., Sann, R. et al. Control of respiration and growth yield in ammonium-assimilating cultures of Azotobacter vinelandii . Arch. Microbiol. 148, 242–246 (1987). https://doi.org/10.1007/BF00414819
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00414819