The effect of sodium fluoride on lactose metabolism and o-nitrophenyl-,B-Dgalactopyranoside (ONPG) hydrolysis by Streptococcus lactis strains 7962 and C2F suggested that different mechanisms of lactose utilization existed in the two strains. Sodium fluoride prevented lactose utilization and ONPG hydrolysis by whole cells of S. lactis C2F but had no effect on S. lactis 7962. Although hydrolysis of ONPG by toluene-treated cells of S. lactis 7962 occurred without addition of phosphoenolpyruvate (PEP), toluene-treated cells of S. lactis C2F required the presence of this cofactor. Concentrated cell extracts of S. lactis C2F hydrolyzed ONPG; this hydrolysis was inhibited by NaF, but the addition of PEP, in the presence of NaF, restored maximal activity. Addition of acetyl-phosphate, carbamyl-phosphate, adenosine-5'-triphosphate, guanosine-5'-triphosphate, or uridine-5'-triphosphate did not stimulate activity. The presence of cofactors did not stimulate and NaF did not inhibit the hydrolysis in extracts of S. lactis 7962. To confirm the operation of two mechanisms, S. lactis 7962 was shown to hydrolyze lactose to glucose and galactose, whereas S. lactis C2F was unable to split the disaccharide. In addition, whole cells of S. lactis C2F rapidly accumulated a phosphorylated derivative of thiomethyl-3-D-galactoside (TMG) which behaved chromatographically and electrophoretically like TMG-PO4. Unexpectedly, S. lactis 7962 also accumulated a TMG derivative, although the rate was extremely low. These data indicate that different mechanisms of lactose utilization exist in the two strains, with a phosphorylation step dependent on PEP involved in S. lactis C2F.
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