Restriction patterns revealed a diverse plasmid pool present in these strains. Plasmids were assigned to FrepB (Aeromonas salmonicida,Aeromonas veronii,Aeromonas sp., E. coli,Enterobacter sp.), FIC (A. salmonicida,Aeromonas sp.), FIA (Shigella sp.), I1 (A. veronii,Aeromonas sp., E. coli), HI1 (E. coli) and U (Aeromonas media) replicons. Nevertheless, 50% of the plasmids could not be assigned to any replicon type. Among integron-positive transconjugants, FrepB, I1 and HI1 replicons
were detected. Results showed that wastewaters enclose a rich plasmid pool associated with integron-carrying bacteria, capable of conjugating to different bacterial hosts. GSK-3 inhibition Moreover, replicons detected in this study in Aeromonas strains expand our current knowledge of plasmid diversity in this genus. Identification and classification of plasmids has been an important issue in recent decades to trace plasmid evolutionary origins and to elucidate their role in environmental processes and microbial adaptation (Johnson & Nolan, 2009a). Classification is usually based on genetic traits check details related to plasmid maintenance and replication control. Plasmids that use the same replication system belong to the same incompatibility group and compete for stable maintenance. Therefore,
plasmids belonging to the same incompatibility group cannot stably coexist in the same cell, although their accessory genes may be different (Couturier et al., 1988). The importance of plasmids in bacterial adaptation has been reported in several environments, such as soil (Lee et al., 2006), rivers (Shintani et al., Palbociclib 2008) and wastewaters (Verma et al., 2002). Despite the energetic burden, plasmids provide a fitness advantage to their hosts which allow them to persist across bacterial generations (Dionísio et al., 2005). The genetic traits harboured on plasmids may include genes involved in mechanisms such as resistance, energy metabolism, virulence, pathogenicity, symbiosis and/or dissemination, favouring the survival of bacterial hosts under selective pressures (Dionísio et al., 2002). Conjugation is considered a major pathway for horizontal gene transfer (HGT) among bacteria (Sørensen
et al., 2005). It involves direct cell-to-cell contact and DNA exchange usually mediated by a conjugative plasmid. Conjugative plasmids can be highly promiscuous and transfer may occur between different genera or even domains (Ochman et al., 2000). Antibiotic resistance plasmids are found in several bacterial genera, both Gram-negative and Gram-positive. Because of their wide distribution and because they may confer multiple resistance phenotypes, resistance plasmids are of both clinical and environmental concern. Several plasmid families carrying multiple antibiotic resistance determinants have been reported in Aeromonas spp. (Sørum et al., 2003; Picão et al., 2008; Fricke et al., 2009) and Enterobacteriaceae isolates (Carattoli, 2009).