The effect of fructose and glucose on the growth, production of exopolysaccharides and the activities of enzymes involved in the synthesis of sugar nucleotides in Lactobacillus delbrueckii subsp, bulgaricus grown in continuous culture was investigated. When grown on fructose, the strain produced 25 mg l(-1) exopolysaccharide composed of glucose and galactose in the ratio 1:2.4. When the carbohydrate source was switched to a mixture of fructose and glucose, the exopolysaccharide production increased to 80 mg l(-1), while the sugar composition of the exopolysaccharide changed to glucose, galactose and rhamnose in a ratio of 1:7.0:0.8. A switch to glucose as the sole carbohydrate source had no further effect. Analysis of the enzymes involved in the synthesis of sugar nucleotides indicates that in cell-free extracts of glucose-grown cells the activity of UDP-glucose pyrophosphorylase was higher than that in cell-free extracts of fructose-grown cells. The activities of dTDP-glucose pyrophosphorylase and the rhamnose synthetic enzyme system were very low in glucose-grown cultures but could not be detected in fructose-grown cultures. Cells grown on a mixture of fructose and glucose showed similar enzyme activities as cells grown on glucose. Analysis of the intracellular level of sugar nucleotides in glucose-grown cultures of L. delbrueckii subsp. bulgaricus showed the presence of UDP-glucose and UDP-galactose in a ratio of 3.3:1, respectively, a similar ratio and slightly lower concentrations were found in fructose-grown cultures. The lower production of exopolysaccharides in cultures grown on fructose may be caused by the more complex pathway involved in the synthesis of sugar nucleotides. The absence of activities of enzymes leading to the synthesis of rhamnose nucleotides in fructose-grown cultures appeared to result in the absence of rhamnose monomer in the exopolysaccharides produced on fructose.