Please use this identifier to cite or link to this item: http://theses.ncl.ac.uk/jspui/handle/10443/3964
Title: Regulation of flagellar mediated motility in the species Samonella enterica
Authors: Albanna, Ayman Mohamed Jaber
Issue Date: 2017
Publisher: Newcastle University
Abstract: Salmonella enterica is considered zoonotic pathogen with capability to colonies on range of plants and animals allowing transmission between them. Whole genome sequence analysis of S. enterica generates a phylogenetic tree comprising of three clades: A1, A2 and B. These 3 clades encompass the known 2,600 serovars used to type S. enterica during clinical outbreaks of salmonellosis. S. enterica exploits the bacterial flagellum to be motile in liquid environments and over surfaces. The genetic regulation of flagellar assembly is an elegant and harmonious system driving assembly of the flagellum from the base upwards. We surveyed the response and changes to flagellar regulation in a cohort of S. enterica serovars. Our analysis encompassed examining phenotypic motility, flagellar gene expression and flagellar abundance depending on nutrient composition. We demonstrated that the timing of flagellar gene expression is consistent across the species but the magnitude of flagellar gene expression varies significantly. The S. enterica flagellar system is bistable, producing a heterogeneous population of motile cells. Our data suggested that population heterogeneity plays a role in the adaptation of S. enterica serovars with respect to motility. The great similarity of the flagellum systems between S.enterica and E.coli gave us a reason to study why flagellar regulation in S.enterica differed from E. coli. Indeed, we replaced the master flagellar regulators, flhDC from E.coli into the S. enterica. We found a significant variation in FlhD4C2 activity through mixing flhD and flhC between both organisms. In conclusion, the diversity and changes we observe in just a small subset of S. enterica serovars and by introducing flhDC homologues has made us reconsider a number of assumptions we make about the regulation of the flagellar system based on model-domesticated strains of S. enterica.
Description: PhD Thesis
URI: http://hdl.handle.net/10443/3964
Appears in Collections:Institute for Cell and Molecular Biosciences

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