ONLINE ANALYSIS OF ALCALIGENES-EUTROPHUS FERMENTATIONS

Improvements in the poly(beta-hydroxybutyrate) (PHB) productivity of A lcaligenes eutrophus can be achieved by using genetically engineered s trains. Knowledge of their metabolic regulation can be obtained from f ermentation experiments. Certain events may not be noticed owing to th e typically low frequency of sampling. To avoid information gaps, a ne wly developed fermenter-calorimeter was used for batch experiments all owing comprehensive on-line monitoring of fermentations. PHB-producing strain H16 and PHB-lacking mutant PHB(-)4 were selected, since they a re well characterized with respect to the metabolism of PHB. For both strains, the profiles of thermo,srams, oxygen dissolved in the medium, and carbon dioxide formation were in good agreement with the off-line analysis. The on-line measurements showed characteristic differences between strains PHB(-)4 and H16. During fed-batch cultivations of PHB- accumulating strain H16, rapid autolysis of the cells was observed.