Understanding the mechanisms of peptide cyclisation. This project aims to identify, study, engineer and apply a new class of biocatalysts (called asparaginyl endopeptidase enzymes) as versatile tools for manufacturing of advanced therapeutics and bio-insecticides. The expected outcomes include fundamental new knowledge on the mechanism of action of these catalysts, an expanded toolbox for precision engineering of biomolecules and new strategies for production of high-value pharmaceuticals and cr ....Understanding the mechanisms of peptide cyclisation. This project aims to identify, study, engineer and apply a new class of biocatalysts (called asparaginyl endopeptidase enzymes) as versatile tools for manufacturing of advanced therapeutics and bio-insecticides. The expected outcomes include fundamental new knowledge on the mechanism of action of these catalysts, an expanded toolbox for precision engineering of biomolecules and new strategies for production of high-value pharmaceuticals and crop protecting agents. The project is significant because it will contribute to high value biotechnology and agricultural industries in Australia, with the potential for economic, environmental, training and societal benefits.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100800
Funder
Australian Research Council
Funding Amount
$415,693.00
Summary
Legume meristem signalling peptides: an untapped niche. This project aims to characterise novel signalling peptides regulating legume stem cell niches to enhance molecular-genetic networks and uncover potential key targets for crop improvement. Legumes represent agricultural sustainability through their decreased fertiliser requirements resulting in reduced carbon and nitrogen footprints. However, their unique gene signalling networks are poorly understood in comparison to traditional cereal cro ....Legume meristem signalling peptides: an untapped niche. This project aims to characterise novel signalling peptides regulating legume stem cell niches to enhance molecular-genetic networks and uncover potential key targets for crop improvement. Legumes represent agricultural sustainability through their decreased fertiliser requirements resulting in reduced carbon and nitrogen footprints. However, their unique gene signalling networks are poorly understood in comparison to traditional cereal crops. The proposed research intends to generate new knowledge in peptide signalling, plant development and legume symbiosis using multidisciplinary techniques. Expected project outcomes will increase understanding of peptide signalling in legume growth and adaption with useful findings for crop enhancement.Read moreRead less
The chemistry and biology of circular proteins. This project aims to develop plant-derived ultra-stable cyclic peptides for pharmaceutical and agricultural applications. The project will use innovative new methodologies for discovery, chemical synthesis and engineering of these molecules. It is expected that the project will contribute to high value biotechnology and agricultural industries in Australia. The proposed outcomes will include fundamental new knowledge on the biosynthesis of circular ....The chemistry and biology of circular proteins. This project aims to develop plant-derived ultra-stable cyclic peptides for pharmaceutical and agricultural applications. The project will use innovative new methodologies for discovery, chemical synthesis and engineering of these molecules. It is expected that the project will contribute to high value biotechnology and agricultural industries in Australia. The proposed outcomes will include fundamental new knowledge on the biosynthesis of circular proteins in plants, new approaches for their discovery and technologies for applying them as drug leads and agricultural products.Read moreRead less