Abstract
A starter strain, Lactobacillus casei C257, was found to carry a lactose plasmid, pLY101. Restriction mapping showed that pLY101 DNA was 68.2 kilobases long. Since a non-lactose-utilizing variant of C257, MSK248, lost phospho-beta-galactosidase (P-beta-gal) activity and pLY101 DNA had a sequence(s) homologous to the streptococcal fragment including a P-beta-gal gene, pLY101 is likely to encode a P-beta-gal gene required for lactose metabolism in C257. MSK248 grew in galactose medium at a rate identical to that of C257 and retained phosphoenolpyruvate-dependent phosphotransferase system activity for lactose similar to that of C257. Therefore, the C257 chromosome appears to encode a complete set of genes for the lactose-phosphotransferase system and the predominant galactose metabolic pathway in C257. pLY101 DNA had a sequence homologous to a lactobacillus insertion sequence, ISL1, which mapped more than 12 kilobases from the sequence homologous to the streptococcal P-beta-gal fragment.
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