In Mycobacterium tuberculosis there are 2 distinct groEL homologues which encode the chaperonins Cpn60.1 and Cpn60.2, with the latter predicted to be the main house-keeping chaperonin. Phylogenetic analysis has revealed that the genes for the duplicated chaperonins diverged a long time ago. This implies that the duplicated chaperonins have evolved for different cellular functions. Interestingly, while most chaperonins occur as stable large complexes with a characteristic double ring structure of 14 subunits, the Mycobacterial chaperonins are very unstable and appear to form much smaller complexes. Given that the large structures formed by most chaperonins are vital to their mechanism of action, it is unclear why the oligomers are so much less stable in Mycobacteria. In this study I present detailed functional and oligomeric analysis of the M. tuberculosis chaperonins. Using various biological techniques, including complementation assays, site directed mutagenesis, and domain swap experiments; I have been able to demonstrate that both chaperonins have evolved to fulfil alternate functions within the cell. I have shown that while Cpn60.2 is fully functional in E. coli, Cpn60.1 is not. However, M. tuberculosis Cpn60.1 was able to function in M. smegmatis and complement for the loss of its endogenous chaperonin. Domain swap experiments between Cpn60.2 and E. coli GroEL have provided further evidence to support the hypothesis that they function in a similar manner. Using analytical ultracentrifugation on purified proteins, I have been able to show that Cpn60.2 and its chimeric protein do form larger oligomeric complexes in vitro under certain conditions and in the presence of ATP.
| Identifer | oai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:523299 |
| Date | January 2010 |
| Creators | Ahmed, Mohammad Tabish |
| Publisher | University of Birmingham |
| Source Sets | Ethos UK |
| Detected Language | English |
| Type | Electronic Thesis or Dissertation |
| Source | http://etheses.bham.ac.uk//id/eprint/1279/ |
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