Molecular evolution and toxinology of colubrid snake venom toxins. This project proposes to examine the origin and evolution of venom systems in advanced snakes (Caenophidia) focusing on the colubrid radiation comprising the rear-fanged species. Demonstration by us of the presence of a potent postsynaptic neurotoxin in the Durvenoy's secretions of the Asian ratsnake Elaphe radiata, an archetypal non-venomous colubrid species, forced a fundamental rethink of venom evolution. The toxin is homologo ....Molecular evolution and toxinology of colubrid snake venom toxins. This project proposes to examine the origin and evolution of venom systems in advanced snakes (Caenophidia) focusing on the colubrid radiation comprising the rear-fanged species. Demonstration by us of the presence of a potent postsynaptic neurotoxin in the Durvenoy's secretions of the Asian ratsnake Elaphe radiata, an archetypal non-venomous colubrid species, forced a fundamental rethink of venom evolution. The toxin is homologous with the three finger toxins, previously thought unique to elapids, and supports the role of venom as a key evolutionary innovation in the diversification of advanced snakes. This project extends this work to other species and toxin families.Read moreRead less
Discovery Indigenous Researchers Development - Grant ID: DI0668388
Funder
Australian Research Council
Funding Amount
$87,458.00
Summary
The genetic basis for bioactivity in the traditional medicine plants of Australia. A plant species that produces a bioactive compound usually produce the compound in very small amounts. To allow for marketable levels of production of the bioactive compound, numerous amounts of plants would need to be removed from the environment. This not only removes the limited supply of possibly rare types of plants from the environment but also denies the use of this plant by traditional people. Locating and ....The genetic basis for bioactivity in the traditional medicine plants of Australia. A plant species that produces a bioactive compound usually produce the compound in very small amounts. To allow for marketable levels of production of the bioactive compound, numerous amounts of plants would need to be removed from the environment. This not only removes the limited supply of possibly rare types of plants from the environment but also denies the use of this plant by traditional people. Locating and using the genes responsible for producing these bioactive compounds will allow their sustainable biosynthesis.Read moreRead less
Optimising vascularisation of tissue engineering chambers for construction of robust tissues. We have produced a device that has commercial application in several fields of basic science, biotechnology and bioengineering. When its full potential is achieved, our innovative organ chamber will strengthen Australia's standing in the biotechnology field and enrich specific applications. The knowledge gained from understanding the growth of blood vessels will benefit several fields including chemical ....Optimising vascularisation of tissue engineering chambers for construction of robust tissues. We have produced a device that has commercial application in several fields of basic science, biotechnology and bioengineering. When its full potential is achieved, our innovative organ chamber will strengthen Australia's standing in the biotechnology field and enrich specific applications. The knowledge gained from understanding the growth of blood vessels will benefit several fields including chemical bioengineering, tissue engineering and repair, polymer chemistry, therapeutics in many areas (like cancer, heart disease, diabetes), hormone manufacture for agricultural, veterinary and medical purposes and cosmetics manufacture. The project will train several post-doctoral fellows and PhD students in this cutting edge field of researchRead moreRead less
Targeted development of dual action antitumour and antiangiogenic agents using differential and functional proteomics. There is an enormous need to develop more effective and less toxic therapeutic approaches to reduce the social and economic burden of cancer. The recent identification of small molecules that can act by both destroying cancer cells and the blood vessels that carry nutrients to them has provided a unique opportunity to define the pathways involved in the action of these agents in ....Targeted development of dual action antitumour and antiangiogenic agents using differential and functional proteomics. There is an enormous need to develop more effective and less toxic therapeutic approaches to reduce the social and economic burden of cancer. The recent identification of small molecules that can act by both destroying cancer cells and the blood vessels that carry nutrients to them has provided a unique opportunity to define the pathways involved in the action of these agents in order to develop more potent drug analogues. Development of these molecules will involve a collaborative and multidisciplinary link with our industry partner and the use of frontier technologies that may lead to improved health and economic outcomes for Australia. Read moreRead less
Common hot spots in protein-activated GPCRs enable discovery of new ligands for mapping of G-protein signalling pathways. This project will teach researchers and industry how to more rapidly discover new compounds for development into medicines, and how to design them with reduced side effects. This interdisciplinary research will provide excellent training for scientists in chemistry, pharmacology, biochemistry and biotechnology. It will advance fundamental science at the chemistry-biology inte ....Common hot spots in protein-activated GPCRs enable discovery of new ligands for mapping of G-protein signalling pathways. This project will teach researchers and industry how to more rapidly discover new compounds for development into medicines, and how to design them with reduced side effects. This interdisciplinary research will provide excellent training for scientists in chemistry, pharmacology, biochemistry and biotechnology. It will advance fundamental science at the chemistry-biology interface, attract international interest from researchers, students, and companies, with potential for translational and commercial outcomes. New drug leads and information on how important drug targets communicate with different intracellular signalling pathways has potential to impact on National Research Priorities of good health and building Australian industry.Read moreRead less
Development of natural herbal medicines for managing metabolic syndrome in order to prevent type 2 diabetes. Type 2 diabetes affects almost 7% of Australia~{!/~}s population. Its incidence continues to grow, as indicated by high rates of metabolic syndrome, a pre-stage of type 2 diabetes. Using novel and bio-molecular techniques, we will evaluate the effects and mechanisms of three natural compounds from anti-diabetic Chinese herbs on cellular and rodent models with metabolic syndrome. This stud ....Development of natural herbal medicines for managing metabolic syndrome in order to prevent type 2 diabetes. Type 2 diabetes affects almost 7% of Australia~{!/~}s population. Its incidence continues to grow, as indicated by high rates of metabolic syndrome, a pre-stage of type 2 diabetes. Using novel and bio-molecular techniques, we will evaluate the effects and mechanisms of three natural compounds from anti-diabetic Chinese herbs on cellular and rodent models with metabolic syndrome. This study will provide scientific evidence as to how and why herbal compounds improve insulin resistance and abnormalities in glucose and lipids metabolism. The outcome of this project will support the development of natural products to manage metabolic syndrome and prevent type 2 diabetes.
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Effective communication and improved patient safety: Addressing the complexities of managing high risk medications in metropolitan and regional hospitals. Current costs of hospital-related incidents are around AU$2 billion per year, and the most common cause of these incidents is ineffective communication. Medication incidents relating to use of high risk medications are particularly critical because of the increased severity of patient outcomes. High risk medications are administered in busy en ....Effective communication and improved patient safety: Addressing the complexities of managing high risk medications in metropolitan and regional hospitals. Current costs of hospital-related incidents are around AU$2 billion per year, and the most common cause of these incidents is ineffective communication. Medication incidents relating to use of high risk medications are particularly critical because of the increased severity of patient outcomes. High risk medications are administered in busy environments, and involve patients who are cared for by many different health professionals in technologically complex settings. These factors increase the likelihood of more medication incidents. The unique knowledge obtained will inform policies and identify strategies for better communication. Health professionals and patients can adopt these strategies to improve medication safety.Read moreRead less
Synthesis of Novel Biomaterials for Drug delivery. A new UV radiation polymerisation technique utilising charge-transfer complexes is adopted for synthesising novel hydrogels, a group of biomaterials for drug delivery. This work is significant as charge-transfer complexes, pertinent to the formation of hydrogels, form copolymers within the hydrogel matrices. This eliminates using costly, yet undesirable photo-initiators (PI), thus rendering the hydrogels as cleaner (PI-free) and more economical ....Synthesis of Novel Biomaterials for Drug delivery. A new UV radiation polymerisation technique utilising charge-transfer complexes is adopted for synthesising novel hydrogels, a group of biomaterials for drug delivery. This work is significant as charge-transfer complexes, pertinent to the formation of hydrogels, form copolymers within the hydrogel matrices. This eliminates using costly, yet undesirable photo-initiators (PI), thus rendering the hydrogels as cleaner (PI-free) and more economical in production; the products present themselves as ideal treatment methods in the controlled-release of drugs, specifically targeting localised pathological sites of interest. The research findings will be invaluable to medical practices, leading to the creation of new industries in Australia.
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The central nucleus of the amygdala and alcohol-seeking behaviour. Alcohol abuse and alcoholism is a significant problem in Australia (and throughout the world). However, pharmacological interventions remain limited due to our poor understanding of the neural networks underlying addictive processes. These experiments will explain how the positive rewarding and negative reinforcing aspects of alcohol are transduced within the brain. We believe that our research will facilitate the ability to trea ....The central nucleus of the amygdala and alcohol-seeking behaviour. Alcohol abuse and alcoholism is a significant problem in Australia (and throughout the world). However, pharmacological interventions remain limited due to our poor understanding of the neural networks underlying addictive processes. These experiments will explain how the positive rewarding and negative reinforcing aspects of alcohol are transduced within the brain. We believe that our research will facilitate the ability to treat alcoholism at a pharmacological level, enabling the continuation of abstinence or the prevention of relapse, while allowing other factors such as social support structure and coping skills to be developed for each individual, with flow-on social and economic benefits for society as a whole. Read moreRead less
Novel insecticidal neurotoxins from Australian spider venoms. Insecticidal toxins have considerable potential as novel biopesticides to combat the evolution of widespread insect resistance to classical chemical pesticides. This problem is increasing both in Australia and internationally. This study aims to isolate and pharmacologically characterise potent and selective insecticidal neurotoxins from Australian arachnids. Our laboratories will isolate neurotoxins from spider venoms, determine thei ....Novel insecticidal neurotoxins from Australian spider venoms. Insecticidal toxins have considerable potential as novel biopesticides to combat the evolution of widespread insect resistance to classical chemical pesticides. This problem is increasing both in Australia and internationally. This study aims to isolate and pharmacologically characterise potent and selective insecticidal neurotoxins from Australian arachnids. Our laboratories will isolate neurotoxins from spider venoms, determine their selectivity in insect and mammal bioassays, determine their primary and tertiary structures, and investigate their structure-function relationships by electrophysiological techniques. These functional and structural data will allow the future engineering, by molecular or synthetic procedures, of viral biopesticide analogues with increased potency, stability and selectivity.Read moreRead less