The antimicrobial spectrum of bacteriocin-producing enterococcal isolates from rabbits faeces, the biochemical characterization of bacteriocins, and their molecular mass and the presence of structural genes for bacteriocin production were investigated. Among enterococci selected from rabbit faeces, six strains of Enterococcus faecium (EF2019, EF1819, EF2119, EF1839, EF529, EF24/10) showed inhibitory activity against the indicators E. avium EA5, Listeria innocua LMG13568 and Listeria monocytogenes CCM4699 and against other enterococci and staphylococci tested. The molecular mass of bacteriocin-like substances ranged from 3 to 10 kDa. The presence of the structural genes for enterocins (ent) A, P and L50B was detected in all enterococci tested. However, no strain possessed the gene for ent B. E. faecium EF2019 showed the broadest inhibitory activity. A proteinaceous substance produced by the EF2019 strain was partially purified. This is a thermostable substance that is stable at pH 4.0, 7.0 and 9.0. Its production starts in the early logarithmic growth phase and culminates in the late logarithmic growth phase of the EF2019 strain. Partially purified bacteriocin (PPB) EF2019 added to the growing strain L. innocua LMG13568 (after 4 h) inhibited its growth as early as 1 h after addition with a decrease of 1.5 log cycles (5 h of cultivation). This effect was extended up to 24 h. The bacteriocinogenic E. faecium EF2019 strain and/or bacteriocin EF2019 could be utilized against contaminant bacteria, e.g. in rabbitries. More detailed studies under in vitro and in vivo conditions are in progress.