Spelling suggestions: "subject:"archaeogenetics"" "subject:"metagenetics""
1 |
Molecular interaction of flagellar export chaperone FliS and its interacting partner HP1076 in Helicobacter pylori. / CUHK electronic theses & dissertations collectionJanuary 2010 (has links)
A HP1076 null mutant has been constructed to provide a better understanding of the biological significance of HP1076 in H. pylori . The DeltaHP1076 mutant displays impaired motility and resistance to the antibiotic drug metronidazole. Using a proteomic study, an overall of 40 differentially expressing proteins involved in metabolism and pH homeostasis for bacterial survival, adhesion for colonization, virulence factor to gastric epithelial cells and antigenic proteins have been identified. The virulence factor, Cag pathogenicity island protein (Cag 26) and urease UreA and UreB are confirmed to have enhanced and reduced expression in null mutants. These findings may provide new insight into the infection of H. pylori. / FliS is an export chaperone that binds to flagellin molecules in cytosol in order to prevent pre-mature polymerization. Disruption of FliS would result in formation of shorter flagella and impaired adhesion ability to epithelial cells. Previous yeast two-hybrid study has identified various FliS associated proteins in H. pylori, but with no known implications. Here, we have demonstrated the interaction of FliS and a hypothetical protein HP1076 by biochemical and biophysical methods. Moreover, HP1076 possesses anti-aggregation ability on insoluble FliS-mutants and chaperone activity. Thus, HP1076 is proposed to be a co-chaperone that promotes the folding and chaperone activity of FliS. FliS is demonstrated to have a broad range of substrate specificity that binds to flagellin and flagellar related proteins which may play a key role in flagellar export system different from other flagellated bacteria. / Helicobacter pylori is a pathogenic bacterium and adheres to the gastric mucosal cells. Chronic infection would lead to gastritis or peptic ulceration and is one of the leading causes of gastric cancer. Formation of functional flagella is essential for infection, that it aids in motility of bacteria and colonization on gastric epithelial cells. The process is complex and involves more than 50 proteins in assembly of structural proteins, regulatory proteins, an export apparatus, a motor and a sensory system. Cytosolic chaperones are required to bind to exported proteins in order to facilitate the export or prevent the aggregation of proteins in cytosol. Divergence is found in flagellar system H. pylori that may account for survival inside gastric environment. / The crystal structures of FliS, HP1076 fragment and FliS/HP1076 complex are determined at 2.7A, 1.8A and 2.7A resolution respectively to provide better understanding of their molecular interactions. FliS consists of four helices and HP1076 consists of helical rich bundle structure with three helices and three beta strands that share similar fold to that of a flagellin homologue, hook-associated protein and FliS, suggesting HP1076 is involved in flagellar system. The FliS/HP1076 complex reveals an extensive electrostatic and hydrophobic binding interface which is distinct from the flagellin binding pocket on FliS. HP1076 stabilizes two alpha helices of FliS and therefore the overall bundle structure. Our findings provide new insights into the flagellar export chaperones and other secretion chaperones in Type III secretion system. / Lam, Wai Ling. / Adviser: An Wing-Ngor. / Source: Dissertation Abstracts International, Volume: 73-02, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 223-243). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.
|
Page generated in 0.0669 seconds