ABSTRACT
Streptococcus lactis subsp. diacetylactis strain WM4 transferred lactose-fermenting and bacteriocin-producing (Bac+) abilities to S. lactis LM2301, a lactose-negative, streptomycin-resistant (Lac- Strr), plasmid-cured derivative of S. lactis C2. Three types of transconjugants were obtained: Lac+ Bac+, Lac+ Bac-, and Lac-Bac+.S. diacetylactis WM4 possessed plasmids of 88, 33, 30, 5.5, 4.8, and 3.8 megadaltons (Mdal). In Lac+ Bac+ transconjugants, lactose-fermenting ability was linked to the 33-Mdal plasmid and bacteriocin-producing ability to the 88-Mdal plasmid. Curing the 33-Mdal plasmid from Lac+ Bac+ transconjugants resulted in loss of lactose-fermenting ability but not bacteriocin-producing ability (Lac- Bac+). These strains retained the 88-Mdal plasmid. Curing of both plasmids resulted in a Lac- Bac- phenotype. The Lac+ Bac- transconjugant phenotype was associated with a recombinant plasmid of 55 or 65 Mdal. When these transconjugants were used as donors in subsequent matings, the frequency of Lac transfer was about 2.0 X 10(-2) per recipient plated, whereas when Lac+ Bac+ transconjugants served as donors, the frequency of Lac transfer was about 2.0 X 10(-5) per recipient plated. Also, Lac- Bac+ transconjugants were found to contain the 88-Mdal plasmid. The data indicate that the ability of WM4 to produce bacteriocin is linked to an 88-Mdal conjugative plasmid and that lactose-fermenting ability resides on a 33-Mdal plasmid.
