Factors determining the degree of anaerobiosis of Bifidobacterium strains

Summary The degree of sensitivity of twelve Bifidobacterium (Lactobacillus bifidus) strains to O₂ was determined by measuring the size of the inhibition zones obtained when the bacteria were grown in deep agar cultures under air, and by measuring growth in aerated cultures. The size of the inhibition zones varied from 1 to 23 mm. Growth in aerated cultures differed markedly for the strains investigated. No strain grew on agar plates under aerobic conditions.The small inhibition zone of three Bifidobacterium strains might be explained by the presence of a weak catalase activity, which removes traces of H₂O₂ possibly formed. It is also possible that the NADH oxidase of these strains does not form H₂O₂ at all. Most probably, the lack of growth on an agar medium results from the fact that these strains only grow below a certain oxidation-reduction potential.One strain, which was rather insensitive to O₂, formed a small amount of H₂O₂ from NADH oxidation. The absence of H₂O₂ in aerated liquid cultures and cell suspensions of this strain, which lacked catalase and NAD peroxidase activity, must be explained by removal of the traces of H₂O₂ formed, by an unknown peroxidase system or by a chemical reaction with pyruvate formed during glucose fermentation.For two strains, which were moderately sensitive to O₂, accumulation of H₂O₂ seems to be the principal reason for anaerobiosis. H₂O₂ turned out to inactivate specifically fructose-6-phosphate phosphoketolase, a key enzyme of the fermentation pathway of bifidobacteria.In the culture medium of two strains, which were extremely sensitive to O₂, no H₂O₂ could be detected after aeration. During anaerobic growth of these strains, the oxidation-reduction potential of the culture decreased so much that neutral red was decolourized. Cell suspensions of these strains only fermented glucose when cysteine was added. It was concluded that these strains required a low oxidation-reduction potential for growth and fermentation.