Applied Microbiology and Biotechnology, Vol.71, No.2, 222-227, 2006
Effect of expressing polyhydroxybutyrate synthesis genes (phbCAB) in Streptococcus zooepidemicus on production of lactic acid and hyaluronic acid
Hyaluronic acid (HA) has been industrially produced using the gram-positive bacterium Streptococcus zooepidemicus. Large amount of lactic acid fori-nation was one of the important factors that restricted cell growth and HA productivity and lowered the substrate to HA conversion efficiency in a fermentor. In this study, polyhydroxybutyrate (PHB) synthesis genes (phbCAB) of Ralstonia eutropha were cloned from the plasmid pBHR68 and were inserted into the plasmid pEU308, an expression vector for gram-positive bacteria. The plasmid was transformed into S. zooepidemicus by electroporation. beta-Ketothiolase (PhbA), acetoacetyl-CoA reductase (PhbB), and polyhydroxyalkanoate (PHA) synthase (PhbC) activity assays were carried out to demonstrate the expression of these genes. ThE PhbA and PhbB activities were 3.13 and 1.23 U mg(-1), respectively. No PhbC activities were detected. In shake flask studies, there was no obvious difference between the wild-type and recombinant S. zooepidemicus harboring phbCAB genes in terms of lactic acid and HA formation. However, in fermentor studies, the recombinant produced only 40 g L-1 lactic acid and 7.5 g L-1 HA, whereas the wild type produced 65 g L-1 lactic acid and 5.5 g L-1 HA. These results suggested that expression of phbCAB genes in S. zooepidemicus could help regulate HA production metabolism. Because the lactic acid formation in S. zooepidemicus was sensitive to cellular oxidation/reduction potential, it is proposed that the PHB synthesis pathway could act as a regulator to adjust the cellular oxidation/reduction potential. This is the first study demonstrating that PHA synthesis related to energy and carbon metabolism could be employed as a pathway to regulate other cellular metabolism and possibly to regulate the production of other metabolic products.