Functional analysis of Salmonella Typhi adaptation to survival in water.
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Authors
Kingsley, Robert ALangridge, Gemma
Smith, Sarah E
Makendi, Carine
Fookes, Maria
Wileman, Tom M
El Ghany, Moataz Abd
Keith Turner, A
Dyson, Zoe A
Sridhar, Sushmita
Pickard, Derek
Kay, Sally
Feasey, Nicholas
Wong, Vanessa
Barquist, Lars
Dougan, Gordon
Issue Date
2018-11-18
Metadata
Show full item recordAbstract
Contaminated water is a major risk factor associated with the transmission of Salmonella enterica serovar Typhi (S. Typhi), the aetiological agent of human typhoid. However, little is known about how this pathogen adapts to living in the aqueous environment. We used transcriptome analysis (RNA-seq) and transposon mutagenesis (TraDIS) to characterize these adaptive changes and identify multiple genes that contribute to survival. Over half of the genes in the S. Typhi genome altered expression level within the first 24 h following transfer from broth culture to water, although relatively few did so in the first 30 min. Genes linked to central metabolism, stress associated with arrested proton motive force and respiratory chain factors changed expression levels. Additionally, motility and chemotaxis genes increased expression, consistent with a scavenging lifestyle. The viaB-associated gene tviC encoding a glcNAc epimerase that is required for Vi polysaccharide biosynthesis was, along with several other genes, shown to contribute to survival in water. Thus, we define regulatory adaptation operating in S. Typhi that facilitates survival in water.Affiliation
HIRI, Helmholtz-Institut für RNA-basierte Infektionsforschung, Josef-Shneider Strasse 2, 97080 Würzburg, Germany.Publisher
Wiley-BlackwellPubMed ID
30450829Type
ArticleISSN
1462-2920ae974a485f413a2113503eed53cd6c53
10.1111/1462-2920.14458
Scopus Count
The following license files are associated with this item:
- Creative Commons
Except where otherwise noted, this item's license is described as Attribution-NonCommercial-ShareAlike 4.0 International
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