In the present study, a shift in prevalence was observed in these

In the present study, a shift in prevalence was observed in these four prevalent serogroup C1 serovars: a rapidly decrease in the prevalence of S. Choleresuis, mainly due to enhancement of sanitation and control of swine in Taiwan, and an increase in prevalence of S. www.selleckchem.com/products/Paclitaxel(Taxol).html Bareilly and other serovars (Table 1). Compared to the 1.6% increase in the prevalence of S. Braenderup from 1978 to 1987 in southern Taiwan [21], the change in the prevalence of isolates in this study ranged from 1.6% to 3.8%, with a trend of decrease from 2004 to 2007, except an increase of S.

Braenderup infection in 2006 this website (Table 1), suggesting possibly occurrence of outbreaks in this year. Contrary to earlier reports that S. Bareilly and S. Braenderup are closely related genetically [8, 9], resistant to 10 Salmonella bacteriophages [22], and infect immuno-compromised patients, differences between S. Braenderup and S. Bareilly were found in the prevalence trend from 2004 to 2007 (Table 1), patients’ age group (Table 2), and plasmid

profile as well as antimicrobial resistance groups and XbaI-PFGE patterns (Figure 1A). In addition to genetic differences between these two serovars, differences in animal hosts were also observed in both serovars based on the geographic regions from which they were isolated learn more [13, 17, 18, 23]. In this study, we found that S. Bareilley isolates were highly homogeneous genetically and that S. Braenderup isolates were much diverse in our PFGE and plasmid analysis (Figure 1). This may explain why S. Braenderup, but not S. Bareilly, has been frequently reported [19, 20, 24]. To differentiate S. Braenderup, several molecular methods have been developed, including phage typing [25] and plasmid analysis as performed in this study (Table 1, Figure 1 and 2). Unlike MDR S. Choleraesuis isolated from pigs and humans [5, 6], S. Braenderup and S. Bareilly isolated from pigs were highly susceptible to antibiotics in 1971 [10]. In addition, in a study of resistance to 11 antibiotics for Salmonella isolated from turtles, S. Bareilly was still susceptible to all

antibiotics, Urease and, in contrast, few S. Braenderup isolates were resistant to gentamycin (6/15), sulfisoxazole (6/15) and TET (2/15) [11]. In our study, almost all of the cluster A isolates of S. Braenderup were MDR and associated with large MDR plasmids (Table 3, Figure 1). Although RFLP analysis separated type 1 plasmids into 7 subtypes, based on antimicrobial resistance encoded by these plasmids, 3 subtypes were observed, conferring resistance to AMP and Sxt (1b-1e and 1g), AMP, CHL, Sxt, and TET (1f) and AMP, CHL, KAN, Sxt and TET (1a), respectively (Table 3). Apparently, the dfrA12-orfF-aadA2-qacEΔ1-sulI region of class 1 integrons, which is frequently found in MDR Salmonella [26–28], was located on MDR plasmid and conferred resistance to Sxt (Table 3).

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