Salmonella enterica serovar Typhimurium (ST) is one of the most common serovars isolated from humans and animals. It has been suggested that ST infections in Koreans are largely due to the consumption of contaminated pork and beef. To investigate the genotypes, phage types, and antimicrobial resistance patterns for ST isolates of different origins, a total of 70 ST strains, including 19 isolates from humans, 44 isolates from pigs, and 6 isolates from cattle, were analyzed using pulsedfield gel electrophoresis (PFGE), phage typing, and antimicrobial susceptibility tests. Forty-three distinct PFGE patterns were generated from 70 ST isolates, which were grouped into 14 PFGE groups (from A to N) at the level of 75% similarity. The most prevalent group was the A (A1-A17 subtypes) group, encompassing 54.5% (38/70) of ST isolates. ST isolates from pigs and cattle mostly belong to groups A and L, whereas ST isolates from humans mostly belong to groups F and C. Antimicrobial susceptibility tests using 11 antimicrobial agents showed that resistance to tetracycline (TE) (81.4%) was highly prevalent, followed by streptomycin (S) (64.3%) and nalidixic acid (NA) (31.4%) resistance. A total of seventeen antimicrobial resistance patterns were observed. Only 8.6% of isolates, including a reference strain, were susceptible to all antimicrobial agents tested. The most prevalent resistance pattern was TE-S (37.1%), which was seen in 66.6% of bovine, 40.8% of swine and 21.1% of human isolates. Three ST isolates from humans (15.9%) showed resistance to 7-8 antimicrobials. The most predominant phage type (PT) was U302 (64.3%), followed by DT170 (10.0%). PFGE types did not coincide with antimicrobial resistance patterns and phage types; therefore, the combination of those types allowed for further differentiation between tested ST isolates.
Salmonella enterica serovar Gallinarum (SG) is an important pathogen that causes fowl typhoid in chickens. In order to investigate SG outer membrane proteins (OMPs) as potential vaccine candidate proteins, we established a proteomic map and database of antigenic SG-OMPs. A total of 174 spots were detected by 2DE. Twenty-two antigen-reactive spots were identified as nine specific proteins using PMF. OmpA was the most abundant protein among all of the identified OMPs, and it exhibited seven protein species. We conducted Western blot analysis for the SG-OMPs in order to determine which proteins were cross-reactive to the serovars Salmonella Enteritidis, Salmonella Typhimurium, and SG. Our results indicated that OmpA was considered to be an antigenic cross-reactive protein among the three serovars. This study sheds new light on our understanding of cross-protection among Salmonella serovars.
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