Antioxidative properties ofLactobacillus sakeupon exposure to elevated oxygen concentrations

Abstract

The ability of bacteria to overcome oxidative stress is related to the levels and types of antioxidative mechanisms which they possess. In this study, the antioxidative properties in Lactobacillus sake strains from different food origins were determined at low temperature (8°C) and upon exposure to oxygen levels between 20 and 90% O₂. The L. sake strains tested grew well at 8°C and in the presence of 20% O₂, however, most of the strains could not grow at O₂ levels as high as 50 and/or 90%. Cell-free extracts of all strains possessed certain levels of hydroxyl radical scavenging, metal chelating and reducing capacities essential for growth of cells at ambient O₂. At elevated O₂ concentrations, a high H₂O₂ splitting capacity and low specific rates of H₂O₂ production were demonstrated in the O₂-insensitive strain L. sake NCFB 2813, which could grow at elevated O₂ conditions. Although H₂O₂ was generated in the O₂-sensitive L. sake DSM 6333 at levels which were not directly toxic to the cells (2 conditions.