Gene identification and functional characterization for metabolism-based herbicide resistance in Lolium rigidum. Evolution of multiple herbicide resistance is widespread in Lolium rigidum in Australia. This resistance is very often endowed by enhanced rates of herbicide metabolism (metabolic resistance) involving cytochrome P450. This project aims to identify, clone and characterise important herbicide-metabolising P450 and other genes from multiple herbicide-resistant L. rigidum biotypes, and d ....Gene identification and functional characterization for metabolism-based herbicide resistance in Lolium rigidum. Evolution of multiple herbicide resistance is widespread in Lolium rigidum in Australia. This resistance is very often endowed by enhanced rates of herbicide metabolism (metabolic resistance) involving cytochrome P450. This project aims to identify, clone and characterise important herbicide-metabolising P450 and other genes from multiple herbicide-resistant L. rigidum biotypes, and develop transcriptional and biochemical markers for metabolic resistance diagnosis. Herbicide-metabolising gene discovery, characterisation and marker development will greatly extend the currently limited knowledge and understanding of metabolic resistance and help achieve sustainable weed management.Read moreRead less
The development of tools to study carbohydrate-processing enzymes implicated in human disease. Diseases caused by improper function of carbohydrate-processing enzymes are a major health burden. This research aims to find ways to restore the function of these enzymes bringing a better quality of life to people suffering from these diseases.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100096
Funder
Australian Research Council
Funding Amount
$180,000.00
Summary
Biomolecular Interaction Facility. Biomolecular interaction facility: A biomolecular interaction facility located in Perth is essential to support the research performed by a growing community of key protein researchers. The infrastructure provided by this integrated facility will act as a hub for analysis of samples produced by high-throughput protein production methods and will provide high-level training with cutting-edge equipment for researchers at all levels. It will underpin faster and be ....Biomolecular Interaction Facility. Biomolecular interaction facility: A biomolecular interaction facility located in Perth is essential to support the research performed by a growing community of key protein researchers. The infrastructure provided by this integrated facility will act as a hub for analysis of samples produced by high-throughput protein production methods and will provide high-level training with cutting-edge equipment for researchers at all levels. It will underpin faster and better fundamental and translational research in the areas of structural biology, biotechnology, biomedical science, plant science and nanotechnology, supporting the activities of researchers and their collaborators in Australia and worldwide.Read moreRead less
Probing JNK MAPK function with peptide inhibitors. It has generally been accepted that the JNK MAPK family of protein kinases is rapidly and potently activated following the exposure of mammalian cells to stresses and cytokines. However, their biological role has remained controversial. We believe that this problem reflects the lack of a generally applicable and specific JNK MAPK inhibitor. In this project we continue our characterisation of a small peptide inhibitor developed in our laboratori ....Probing JNK MAPK function with peptide inhibitors. It has generally been accepted that the JNK MAPK family of protein kinases is rapidly and potently activated following the exposure of mammalian cells to stresses and cytokines. However, their biological role has remained controversial. We believe that this problem reflects the lack of a generally applicable and specific JNK MAPK inhibitor. In this project we continue our characterisation of a small peptide inhibitor developed in our laboratories. We aim to determine its mechanism of inhibition, the specificity of interaction, and to evolve more effective inhibitors. With these new inhibitors, we can effectively address the biological roles of these kinases.Read moreRead less