Loss of plasmid-mediated oligopeptide transport system in lactococci: another reason for slow milk coagulation.

摘要

Fast milk-coagulating (Fmc+) strains of lactococci are known to segregate slow milk-coagulating (Fmc-) variants, which has been attributed to loss of proteinase (Prt) activity encoded by plasmid DNA. It was found that the Fmc- phenotype could also be due to loss of a plasmid encoding an oligopeptide permease (Opp) system. In Lactococcus lactis subsp. lactis (L. lactis) C2O, lactose metabolism (Lac) and Prt were linked to pJK550 and the Opp system to pJK430. In Lactococcus lactis subsp. cremoris SK11, known to possess Prt on a 78-kb plasmid, DNA sequence analysis of a 7.4-kb region from the Lac plasmid, pSK11L, revealed that it possessed the Opp system. The Lac plasmid in L. lactis C2 encoded both the Prt and Opp systems. Fmc- derivatives of L. lactis C2 were missing the prt genes and had Opp integrated into the chromosome, possibly due to transposition events. Growth studies showed the Opp systems were functional and, in combination with Prt, produced the Fmc+ phenotype.