This Article Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Reprints and Permissions Copyright Information Books from ASM Press MicrobeWorld Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Hamilton, I. R. Articles by Ellwood, D. C. Search for Related Content PubMed PubMed Citation Articles by Hamilton, I. R. Articles by Ellwood, D. C.

 Previous Article  |  Next Article 

Infect Immun. 1979 December; 26(3): 861-869

Effect of Growth Rate and Glucose Concentration on the Biochemical Properties of Streptococcus mutans Ingbritt in Continuous Culture

I. R. Hamilton, P. J. Phipps and D. C. Ellwood

Microbiological Research Establishment, Porton Down, Salisbury, England

ABSTRACT

A comparison was made of the properties of Streptococcus mutans Ingbritt grown in continuous culture under conditions of excess glucose (nitrogen limitation) and limiting glucose at mean generation times of 1.7 to 14 h. Only low levels of glucoamylase-specific glycogen were formed in cells from either culture, and the total carbohydrate content of the cells under excess glucose was only at most 1.6-fold higher than in the glucose-limited culture. A negligible amount of cell-free polysaccharide was formed in either culture, although a significant level of glucosyltransferase activity was observed in both, with the highest activity at D = 0.2 and 0.4 h^-1 with a glucose limitation. Other differences were observed. (i) Lactate was the main end product of the glucose-excess culture, whereas acetate, formate, and ethanol were the main products of the glucose-limited culture except at a mean generation time of 1.5, when lactate represented 30% of the products. (ii) The yield (in grams per mole of glucose) of the latter culture was 2.6- to 4.0- fold higher than the yield of the glucose-excess culture. (iii) Washed cells from the glucose-limited culture were much more acidogenic (1.7- to 6.2-fold) than the glucose-excess cells when incubated with glucose, sucrose, and fructose. Endogenous glycolytic activity by the latter cells was significant, being 31 to 92% of the exogenous glucose rate at the four dilution rates. (iv) Cells from the glucose-excess culture were more insensitive to fluoride than cells from the glucose-limited culture. The NaF 50% inhibition dose values for the effect of fluoride on the metabolism of glucose, sucrose, and fructose were calculated for the four dilution rates at four pH values. This analysis indicated that rapidly metabolizing cells were more sensitive to fluoride than cells that metabolized the sugars more slowly.

---

FOOTNOTES

Permanent address: Department of Oral Biology, Faculty of Dentistry, University of Manitoba, Winnipeg, Canada.

---

Infect Immun. 1979 December; 26(3): 861-869

This article has been cited by other articles:

• Klein, M. I., Duarte, S., Xiao, J., Mitra, S., Foster, T. H., Koo, H. (2009). Structural and Molecular Basis of the Role of Starch and Sucrose in Streptococcus mutans Biofilm Development. Appl. Environ. Microbiol. 75: 837-841 [Abstract] [Full Text]  
• Zilm, P. S., Bagley, C. J., Rogers, A. H., Milne, I. R., Gully, N. J. (2007). The proteomic profile of Fusobacterium nucleatum is regulated by growth pH. Microbiology 153: 148-159 [Abstract] [Full Text]  
• Nascimento, M. M., Lemos, J. A. C., Abranches, J., Goncalves, R. B., Burne, R. A. (2004). Adaptive Acid Tolerance Response of Streptococcus sobrinus. J. Bacteriol. 186: 6383-6390 [Abstract] [Full Text]  
• Marsh, P. D. (2003). Are dental diseases examples of ecological catastrophes?. Microbiology 149: 279-294 [Abstract] [Full Text]  
• Guha-Chowdhury, N., Iwami, Y., Yamada, T., Pearce, E.I.F. (1995). The Effect of Fluorhydroxyapatite-derived Fluoride on Acid Production by Streptococci. JDR 74: 1618-1624 [Abstract]  
• Li, Y.H., Bowden, G.H. (1994). The Effect of Environmental pH and Fluoride from the Substratum on the Development of Biofilms of Selected Oral Bacteria. JDR 73: 1615-1626 [Abstract]  
• Hata, S., Iwami, Y., Kamiyama, K., Yamada, T. (1990). Biochemical Mechanisms of Enhanced Inhibition of Fluoride on the Anaerobic Sugar Metabolism by Streptococcus sanguis. JDR 69: 1244-1247 [Abstract]  
• Dawes, C., Dibdin, G.H. (1986). A Theoretical Analysis of the Effects of Plaque Thickness and Initial Salivary Sucrose Concentration on Diffusion of Sucrose into Dental Plaque and its Conversion to Acid During Salivary Clearance. JDR 65: 89-94 [Abstract]  
• Marsh, P.D., McDermid, A.S., Keevil, C.W., Ellwood, D.C. (1985). Effect of Environmental Conditions on the Fluoride Sensitivity of Acid Production by S. sanguis NCTC 7865. JDR 64: 85-89 [Abstract]