AIMS: The purpose of this work was to study the effect of L-aspartic acid concentration on bacterial growth, D-glucose fermentation and L-malic acid consumption of Oenococcus oeni NCFB 1707. METHODS AND RESULTS: Bacterial cultures were performed in synthetic media. Bacterial growth, D-glucose fermentation and L-malic acid consumption were reduced when L-aspartic acid concentration became excessive. This inhibitory effect of high concentrations of L-aspartic acid on bacterial growth was also observed with several Oenococcus oeni strains, except O. oeni BL01. The L-aspartic acid inhibitory effect on bacterial growth could be reduced by increasing the concentration of L-glutamic acid. L-glutamic acid transport was found to be competitively inhibited by L-aspartic acid. In addition, an excessive amount of L-aspartic acid modified D-glucose metabolism, with an overproduction of acetic acid and reduced ethanol production. CONCLUSION: Since L-glutamic acid is an essential amino acid for the bacterial strain used, the L-aspartic acid inhibitory effect on bacterial growth could be linked to its involvement in an antagonistic interaction with L-glutamic acid. SIGNIFICANCE AND IMPACT OF THE STUDY: Such antagonistic interactions between amino acids in O. oeni strains could be another explanation for the difficulties of inducing malolactic fermentation in wines.
AIMS: The purpose of this work was to study the effect of L-aspartic acid concentration on bacterial growth, D-glucose fermentation and L-malic acid consumption of Oenococcus oeni NCFB 1707. METHODS AND RESULTS: Bacterial cultures were performed in synthetic media. Bacterial growth, D-glucose fermentation and L-malic acid consumption were reduced when L-aspartic acid concentration became excessive. This inhibitory effect of high concentrations of L-aspartic acid on bacterial growth was also observed with several Oenococcus oeni strains, except O. oeni BL01. The L-aspartic acid inhibitory effect on bacterial growth could be reduced by increasing the concentration of L-glutamic acid. L-glutamic acid transport was found to be competitively inhibited by L-aspartic acid. In addition, an excessive amount of L-aspartic acid modified D-glucose metabolism, with an overproduction of acetic acid and reduced ethanol production. CONCLUSION: Since L-glutamic acid is an essential amino acid for the bacterial strain used, the L-aspartic acid inhibitory effect on bacterial growth could be linked to its involvement in an antagonistic interaction with L-glutamic acid. SIGNIFICANCE AND IMPACT OF THE STUDY: Such antagonistic interactions between amino acids in O. oeni strains could be another explanation for the difficulties of inducing malolactic fermentation in wines.
Authors: Donna M Easton; Elke Maier; Roland Benz; A Ruth Foxwell; Allan W Cripps; Jennelle M Kyd Journal: J Bacteriol Date: 2008-10-17 Impact factor: 3.490