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Electron tomography was used to investigate membrane proteins in a variety of contexts. A high-angle tilt holder, suitable for electron tomography was designed, constructed and characterised. 2D crystals of membrane proteins, NhaA and YidC, were examined as a resolution test, and a method established for determining planarity of crystals. A model for specific gold binding to NhaA crystals was also presented. ATP synthase, a membrane protein complex in mitochondria, were imaged in a frozen hydrated state. They were found to form ribbons of dimers at highly curved regions of the membrane. Dimers from bovine heart and rat liver were excised from the tomographic volumes and averaged. Based on the location of the dimers in the mitochondrion, a model was established whereby ATP synthase, a molecular motor driven by the proton motive force, benefits from the high curvature that it induces in the membrane. Whole yeast mitochondria, imaged by electron cryo-tomography, also contained long ribbons of dimeric ATP synthase. Multiple copies of an unknown membrane protein complex were visualised by electron cryo-tomography, excised and averaged. A general method for the identification of unknown proteins was presented to deal with this inevitable issue, as native tissues and organelles are imaged, and the structures of complexes determined in situ.
Life-threatening fungal infections are becoming increasingly common for immunocompromised patients such as those with AIDS, or those undergoing organ transplantation or chemotheraphy, as well as for other health-vulnerable patients. Excellent targets for antifungal drugs are chitin synthases, which are essential for survival of the fungus and lacking in humans. To design new antifungal drugs, knowledge of the three-dimensional structure and mechanism of action of chitin synthases are crucial. Chitin synthases are members of an important family of enzymes that synthesize structural polysaccharides, such as cellulose, β(1,3)-glucan, β(1,4)-mannan and hyaluronan. Therefore, chitin synthases could be used as a model system to understand these more complex enzymes, which are also of major medical and commercial importance. Chitin synthase 2 from Saccharomyces cerevisiae (ScChS2), the protein under study, is an integral membrane protein that synthesizes the primary septum between mother and daughter cells in budding yeast. It is essential for proper cell separation and expected to be highly regulated. An important aspect is that ScChS2 shows 55% sequence identity and is functionally analogous to chitin synthase 1 from the human opportunistic pathogen Candida albicans, this enzyme is also essential for cell survival (Munro, Winter et al. 2001). ...