An Investigation of Novel Sialylmimetics as Inhibitors of Rotavirus. Rotavirus causes severe gastroenteritis in infants worldwide. Over 125 million cases of diarrhoea and 800,000 deaths annually are attributed to rotavirus. The process that enables this debilitating and sometimes fatal disease to infect cells is poorly understood. This project aims to produce a range of unique chemical entities that will provide information about the way rotavirus infects cells. The chemical compounds produc ....An Investigation of Novel Sialylmimetics as Inhibitors of Rotavirus. Rotavirus causes severe gastroenteritis in infants worldwide. Over 125 million cases of diarrhoea and 800,000 deaths annually are attributed to rotavirus. The process that enables this debilitating and sometimes fatal disease to infect cells is poorly understood. This project aims to produce a range of unique chemical entities that will provide information about the way rotavirus infects cells. The chemical compounds produced in this study will be evaluated for their ability to prevent rotavirus from infecting cells. It is expected that this project will provide compounds that may ultimately be used as drugs for the treatment of rotavirus.Read moreRead less
An Investigation of Novel Sialylmimetics as Inhibitors of Rotavirus. Rotavirus causes severe gastroenteritis in infants worldwide. Over 125 million cases of diarrhoea and 800,000 deaths annually are attributed to rotavirus, primarily in developing countries. The process that enables this debilitating and sometimes fatal disease to infect cells is poorly understood. This project aims to produce a range of unique chemical entities that will provide information about the way rotavirus infects cel ....An Investigation of Novel Sialylmimetics as Inhibitors of Rotavirus. Rotavirus causes severe gastroenteritis in infants worldwide. Over 125 million cases of diarrhoea and 800,000 deaths annually are attributed to rotavirus, primarily in developing countries. The process that enables this debilitating and sometimes fatal disease to infect cells is poorly understood. This project aims to produce a range of unique chemical entities that will provide information about the way rotavirus infects cells. The chemical compounds produced will be assayed for their ability to prevent rotavirus from infecting cells. It is expected that this project will provide compounds that may ultimately be used as drugs for the treatment of rotavirus.Read moreRead less
New polymerisation processes for the synthesis of novel biopolymers. Synthetic peptide-based vaccines, formed via polymerisation of small bioactive motifs, possess several advantages over traditional approaches and promise to be the multi-disease targeting vaccines of the future. Disease targets will include influenza and hepatitis C viruses and a toxin from enteropathogenic Escherichia coli. These three diseases are in desperate need of novel vaccine approaches and the chemistries described in ....New polymerisation processes for the synthesis of novel biopolymers. Synthetic peptide-based vaccines, formed via polymerisation of small bioactive motifs, possess several advantages over traditional approaches and promise to be the multi-disease targeting vaccines of the future. Disease targets will include influenza and hepatitis C viruses and a toxin from enteropathogenic Escherichia coli. These three diseases are in desperate need of novel vaccine approaches and the chemistries described in this proposal represent a conceptual leap over traditional, and so far ineffective approaches investigated thus far. Synthetic antifreeze proteins and bioelastomers will also be constructed using our catalysis driven polymerisation process and applied to unmet medical and industrial needs.Read moreRead less
New methods for the synthesis of stable cyclic peptides. This proposal will design, synthesise and evaluate novel carbocyclic analogues of cyclic peptides which have application in the treatment of pain, diabetes management, malaria, and cancer therapy and diagnosis. The carbocyclic analogues will have improved biostability and will also provide the opportunity for oral administration. Carbacyclic analogues of insulin could lead to improved treatment of Australia's 1.2 million diabetics includi ....New methods for the synthesis of stable cyclic peptides. This proposal will design, synthesise and evaluate novel carbocyclic analogues of cyclic peptides which have application in the treatment of pain, diabetes management, malaria, and cancer therapy and diagnosis. The carbocyclic analogues will have improved biostability and will also provide the opportunity for oral administration. Carbacyclic analogues of insulin could lead to improved treatment of Australia's 1.2 million diabetics including many Aboriginal Australians who are particularly susceptible to Type II diabetes and its debilitating complications.Read moreRead less
Structure-based discovery of anti-rotaviral agents. Rotavirus causes, particularly in children under 5 years of age, significant loss of life worldwide. Over 600,000 children under 5 years of age per annum die as a result of rotavirus infection. Australia records over 10,000 hospitalisations per annum due to rotavirus infection. This project aims, using structure-based drug design techniques, to develop inhibitors of a rotavirus protein that is essential in its lifecycle. These inhibitors may ....Structure-based discovery of anti-rotaviral agents. Rotavirus causes, particularly in children under 5 years of age, significant loss of life worldwide. Over 600,000 children under 5 years of age per annum die as a result of rotavirus infection. Australia records over 10,000 hospitalisations per annum due to rotavirus infection. This project aims, using structure-based drug design techniques, to develop inhibitors of a rotavirus protein that is essential in its lifecycle. These inhibitors may lead to the development of useful drugs to treat rotavirus infection and may reduce significant loss of life caused by this deadly virus.Read moreRead less
Design, Synthesis and Biological Evaluation of Rotavirus Inhibitors. Rotavirus causes, particularly in children under 5 years of age, significant loss of life worldwide. Over 400,000 children under 5 years of age per annum die as a result of rotavirus infection. Australia records over 10,000 hospitalisations per annum due to rotavirus infection. This project aims, using structure-based drug design techniques, to develop inhibitors of a rotavirus protein that is essential in its lifecycle. The ....Design, Synthesis and Biological Evaluation of Rotavirus Inhibitors. Rotavirus causes, particularly in children under 5 years of age, significant loss of life worldwide. Over 400,000 children under 5 years of age per annum die as a result of rotavirus infection. Australia records over 10,000 hospitalisations per annum due to rotavirus infection. This project aims, using structure-based drug design techniques, to develop inhibitors of a rotavirus protein that is essential in its lifecycle. These inhibitors may lead to the development of useful drugs to treat rotavirus infection and may reduce significant loss of life caused by this deadly virus.Read moreRead less
Development of a Diversity-Oriented Synthesis Platform. Genomic, proteomic and other studies of the molecular basis of disease are providing a constant stream of biomolecular targets for drug discovery. Identifying suitable drugs candidates to affect these targets centres around procuring a suitable library of compounds for screening. This application addresses some of the key issues related to the development of appropriate compound libraries for such screening programs.
Chemical Synthesis of Bioactive Metabolites and Analogues from Marine Sources and Myxobacteria. This project could result in the production of a new type of anticancer compound. The proposal will study the synthesis of novel natural product analogues that could possess superior biological activities to the natural compounds. In addition, new chemistry may be developed which could be utilised to synthesise a number of related molecules.
The Synthesis and Pharmacological Evaluation of Novel Bivalent Dopamine D2 and Adenosine A2A Ligands for the Treatment of Parkinson's Disease. This program will significantly contribute to the training of highly qualified personnel in the area of organic and medicinal chemistry where there is currently a national shortage. Other benefits are the capacity to advance this critical research in PD and potentially provide substantial national competitive advantages and growth opportunities in the glo ....The Synthesis and Pharmacological Evaluation of Novel Bivalent Dopamine D2 and Adenosine A2A Ligands for the Treatment of Parkinson's Disease. This program will significantly contribute to the training of highly qualified personnel in the area of organic and medicinal chemistry where there is currently a national shortage. Other benefits are the capacity to advance this critical research in PD and potentially provide substantial national competitive advantages and growth opportunities in the global anti-Parkinsonian therapeutics market.Read moreRead less
Applications of the Polonovski Reaction in the Synthesis of Bioactive Opiates. This program will contribute to the training of highly qualified personnel in the area of organic and medicinal chemistry. It will also address the development of improved processes for the large scale preparation of semi-synthetic pharmaceutical opiates in support of one of Australia's important export industries. Furthermore, a greater understanding of the structure-activity relationships of noscapine will make a ....Applications of the Polonovski Reaction in the Synthesis of Bioactive Opiates. This program will contribute to the training of highly qualified personnel in the area of organic and medicinal chemistry. It will also address the development of improved processes for the large scale preparation of semi-synthetic pharmaceutical opiates in support of one of Australia's important export industries. Furthermore, a greater understanding of the structure-activity relationships of noscapine will make a contribution to the overall search for improved anti-cancer agents.Read moreRead less