CHARACTERISATION OF NOVEL BIOACTIVES FROM AUSTRALIAN HONEY WITH THERAPEUTIC POTENTIAL. Honey from specific Australian flowering plants has been identified that contain significant therapeutic properties in wound healing and other treatments. The research project proposed will identify and fully characterise the bioactive components of selected Australian honey (Medihoney) with antibiotic and growth promoting activites. These aims will be supported by high resolution mass spectrometry interfaced ....CHARACTERISATION OF NOVEL BIOACTIVES FROM AUSTRALIAN HONEY WITH THERAPEUTIC POTENTIAL. Honey from specific Australian flowering plants has been identified that contain significant therapeutic properties in wound healing and other treatments. The research project proposed will identify and fully characterise the bioactive components of selected Australian honey (Medihoney) with antibiotic and growth promoting activites. These aims will be supported by high resolution mass spectrometry interfaced with HPLC and or affinity chip surfaces, 750 MHz NMR analysis and a range of relevant bioassays on specific organisms and cell lines. These outcomes will not only enhance the value of current honey-based products but have the potential to identify new therapeutic lead molecules.Read moreRead less
Covalent Hydrogen Bond Mimetics of Helical Peptide Hormones. Peptide hormones have been identified that adopt a helical shape when bound to their receptor. The project will produce new versions of these hormones by the use of directly bonded chemical linkers in place of the relatively weak helix hydrogen bonds. The resulting hormone mimics will be more stable, have lower molecular weight and be more selective than the natural hormones making them more suitable as drugs. Our new chemical techn ....Covalent Hydrogen Bond Mimetics of Helical Peptide Hormones. Peptide hormones have been identified that adopt a helical shape when bound to their receptor. The project will produce new versions of these hormones by the use of directly bonded chemical linkers in place of the relatively weak helix hydrogen bonds. The resulting hormone mimics will be more stable, have lower molecular weight and be more selective than the natural hormones making them more suitable as drugs. Our new chemical techniques allow us for the first time to fully investigate this approach which if successful will be applicable to many other helical peptides and therefore could be an important drug development technique.Read moreRead less