Identification of novel factors involved in modulating motility of Salmonella enterica serotype typhimurium.

Lydia M Bogomolnaya,Yuri Ragoza,Marissa Talamantes,Katharine D Andrews,Lindsay Aldrich,Michael Mcclelland,Helene L Andrews-Polymenis

doi:10.1371/journal.pone.0111513

Lydia M Bogomolnaya, Yuri Ragoza + Show 5 more

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https://doi.org/10.1371/journal.pone.0111513

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Salmonella enterica serotype Typhimurium can move through liquid using swimming motility, and across a surface by swarming motility. We generated a library of targeted deletion mutants in Salmonella Typhimurium strain ATCC14028, primarily in genes specific to Salmonella, that we have previously described. In the work presented here, we screened each individual mutant from this library for the ability to move away from the site of inoculation on swimming and swarming motility agar. Mutants in genes previously described as important for motility, such as flgF, motA, cheY are do not move away from the site of inoculation on plates in our screens, validating our approach. Mutants in 130 genes, not previously known to be involved in motility, had altered movement of at least one type, 9 mutants were severely impaired for both types of motility, while 33 mutants appeared defective on swimming motility plates but not swarming motility plates, and 49 mutants had reduced ability to move on swarming agar but not swimming agar. Finally, 39 mutants were determined to be hypermotile in at least one of the types of motility tested. Both mutants that appeared non-motile and hypermotile on plates were assayed for expression levels of FliC and FljB on the bacterial surface and many of them had altered levels of these proteins. The phenotypes we report are the first phenotypes ever assigned to 74 of these open reading frames, as they are annotated as ‘hypothetical genes’ in the Typhimurium genome.

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Infection with Salmonella enterica serotypes remains a serious human and animal health problem worldwide
Bacterial Strains and Media All Salmonella enterica serotype Typhimurium strains used in this study were derived from ATCC14028, including HA420, a spontaneous Nalidixic acid resistant isolate [16]
Several of the mutants we identified in this category (STM0343, STM0551, STM0699) expressed less of the minor flagellin FljB on the bacterial surface compared to wild type

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Infection with Salmonella enterica serotypes remains a serious human and animal health problem worldwide. Salmonellae cause an array of diseases ranging from gastroenteric disease to systemic disease including Typhoid fever and bacteremia [1]. While gastroenteritis as a result of Salmonella infection is common worldwide, systemic diseases caused by this organism are relatively rare in the developed world. Salmonellae have many well studied virulence factors including Type 3 Secretion Systems (T3SS-1 and -2), lipopolysaccharides (LPS), fimbria and others, and are capable of multiple types of motility including swimming and swarming. Both types of motility require the presence of functional flagella that are composed of many proteins and consist of the following structures: the basal body, the hook and the filament. Motility is linked to virulence in many pathogenic bacteria [4,5]

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