caiC encodes a probable crotonobetaine/carnitine–CoA ligase, and

caiC encodes a probable crotonobetaine/carnitine–CoA ligase, and SEN0629 is a pseudogene. Our system allowed for discrimination of 16 sequence types (STs) among the 102 isolates analysed and intraphage type differentiation. Our findings also suggested that the stability of phage typing may be adversely affected by the occurrence of phage type conversion events. During a confirmatory phage typing analysis performed by a reference laboratory, 13 of 31 S. Enteritidis strains representing nine phage types were assigned phage types that differed from the ones originally determined by the same reference

laboratory. It is possible that this phenomenon passes largely unrecognized in reference laboratories performing routine phage typing analyses. Our results demonstrate that phage typing Ribociclib cost is an unstable system displaying limited reproducibility and that the two-loci sequence typing Epigenetics inhibitor scheme is highly discriminatory, stable, truly portable and has the potential to become the new gold standard for epidemiological typing of S. Enteritidis strains. Salmonella Enteritidis is a major cause of human salmonellosis worldwide (Rodrigue et al., 1990). Epidemiological surveillance of this bacterium is principally based on the use

of phage typing and genotyping methods. Phage types are generally considered to be stable and definitive epidemiological markers, but this is in contrast with several studies reporting various mechanisms of phage type conversions. For example, Frost et al. (1989) reported the conversion of S. Enteritidis PT4 to PT24 based on the acquisition of a plasmid belonging to the incompatibility

group N (IncN). Likewise, Threlfall et al. (1993) have shown interrelationships between PT 4, 7, 7a, 8, 13, 13a, 23, 24 and 30 caused by the loss or acquisition of an IncN plasmid. Subsequently, Rankin & Platt (1995) reported that the use of temperate phages 1, 2, 3 and 6 from the phage typing scheme of Ward et al. (1987) enabled conversion of PT4, 6a, 6a, 13 and 15 of to PT8, 4, 7, 13a and 11, respectively. They were also able to convert PT1 to PT20, and PT15 to PT11. Chart et al. (1989) reported that conversion of S. Enteritidis PT4 to PT7 involved the loss of the lipopolysaccharide layer with a concomitant loss of virulence. Brown et al. (1999) demonstrated that transfer of a plasmid belonging to the incompatibility group X (IncX) into 10 isolates of S. Enteritidis belonging to 10 different phage types (PT1, 2, 3, 4, 8, 9, 9b, 10, 11 and 13) resulted in phage type conversion in 8 of the 10 strains (PT1, 2, 4, 8, 9, 9b, 10 and 11). Phage typing requires specialized phage collections and bacterial strains for their propagation and for this reason is only performed in a few reference laboratories. Furthermore, the fact that most isolates of S.

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