Pilot-scale production of therapeutically-active cannabinoids . The Isolation of minor therapeutically-active cannabinoids from cannabis at pilot scale would establish a commercially competitive Australian industry and lead to a superior position in the global marketplace. This project aims to select elite clones from genetically diverse cannabis strains for yield of minor, but therapeutically-active, cannabinoids, and develop a pilot-scale extraction and separation procedure that can be scaled- ....Pilot-scale production of therapeutically-active cannabinoids . The Isolation of minor therapeutically-active cannabinoids from cannabis at pilot scale would establish a commercially competitive Australian industry and lead to a superior position in the global marketplace. This project aims to select elite clones from genetically diverse cannabis strains for yield of minor, but therapeutically-active, cannabinoids, and develop a pilot-scale extraction and separation procedure that can be scaled-up for commercial production. This would contribute to the growth of the agri-biotechnology sector and a skilled multidisciplinary workforce in rural Australia, thus providing significant economic benefit. The novel scale-up procedure has potential for industry adoption to add value to Australian manufacturing.
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Physiology and genetics of barley grain germination in the malting and brewing industries. An international research team will provide new scientific information on barley grain germination. This detailed basic knowledge will be immediately applied in breeding programs that are aimed at improving malting and brewing quality in a commercial context. At the same time, the industry's carbon footprint will be significantly reduced.
Untangling the plant Golgi apparatus: Functional proteomics to understand plant cell wall biosynthesis. The plant cell wall determines plant morphology and structure. It is also a major factor in food quality, and it is used as forage and is the raw material for a range of industries. A significant proportion of the cell wall is synthesised in a poorly studied cellular compartment known as the Golgi apparatus. This project intends to exploit unique isolation and analytical techniques in conjunct ....Untangling the plant Golgi apparatus: Functional proteomics to understand plant cell wall biosynthesis. The plant cell wall determines plant morphology and structure. It is also a major factor in food quality, and it is used as forage and is the raw material for a range of industries. A significant proportion of the cell wall is synthesised in a poorly studied cellular compartment known as the Golgi apparatus. This project intends to exploit unique isolation and analytical techniques in conjunction to further profile and characterise this structure in order to uncover new information about the complex interplay of components involved in plant cell wall biosynthesis. This information will be used to support approaches to manipulate cell walls to produce plant biomass optimised for agricultural and industrial applications.Read moreRead less
Abiotic stress tolerance of cellulose synthesis in Arabidopsis. This project aims to delineate how two components, that are part of a protein-complex, synthesise cellulose and protect the complex against environmental stress function. Also, it aims to identify co-factors that assist in cellulose synthesis and microfibril assembly. Sustainable resources for fuel, food and feed are needed and plant biomass, largely consisting of cellulose, offers a great raw material for this purpose. However, our ....Abiotic stress tolerance of cellulose synthesis in Arabidopsis. This project aims to delineate how two components, that are part of a protein-complex, synthesise cellulose and protect the complex against environmental stress function. Also, it aims to identify co-factors that assist in cellulose synthesis and microfibril assembly. Sustainable resources for fuel, food and feed are needed and plant biomass, largely consisting of cellulose, offers a great raw material for this purpose. However, our understanding of how cellulose is synthesised is rudimentary. The results of this project could contribute towards tailoring cellulose production for industrial applications and for sustained biomass production.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100011
Funder
Australian Research Council
Funding Amount
$346,439.00
Summary
Spinning disk confocal microscope with dual stages. Spinning disk confocal microscope with dual stages: This custom-built spinning disk confocal microscope with rotational stages will constitute an internationally unique platform. The system has the capability of rapidly monitoring cells in growing biological specimens under changing environments. It offers an integrated platform for multiple imaging strategies, including confocal and Total Internal Reflection Fluorescence (TIRF) microscopy. The ....Spinning disk confocal microscope with dual stages. Spinning disk confocal microscope with dual stages: This custom-built spinning disk confocal microscope with rotational stages will constitute an internationally unique platform. The system has the capability of rapidly monitoring cells in growing biological specimens under changing environments. It offers an integrated platform for multiple imaging strategies, including confocal and Total Internal Reflection Fluorescence (TIRF) microscopy. The system will reside in core facilities with open access to a broad research community. The system may be used to monitor a wide variety of cells and molecules, and will offer capabilities that are of importance to understand cell trafficking, disease and signalling, plant biomass production, and climate change.Read moreRead less
Re-purposing shelved 'antibiotics' in the search for new herbicides. This project aims to identify target-specific herbicidal compounds that inhibit amino acid biosynthesis pathways to tackle herbicide resistance. This project expects to validate a novel herbicide discovery strategy by exploiting the similarity between bacterial and plant enzymes in these pathways to re-purpose failed 'antibiotics'. Expected outcomes include advances in our knowledge of the structure, function and inhibition of ....Re-purposing shelved 'antibiotics' in the search for new herbicides. This project aims to identify target-specific herbicidal compounds that inhibit amino acid biosynthesis pathways to tackle herbicide resistance. This project expects to validate a novel herbicide discovery strategy by exploiting the similarity between bacterial and plant enzymes in these pathways to re-purpose failed 'antibiotics'. Expected outcomes include advances in our knowledge of the structure, function and inhibition of novel herbicide targets, and the identification of compounds with herbicidal activity. This should lay the foundations for long-term benefits related to improving the quantity and quality of Australia’s crops to ensure our food security.Read moreRead less
Glutathione, a major antioxidant in plants: translocation between tissues and transport within cells. Plants are continually exposed to environmental stress. In agriculture this may include high and low temperature, pathogens, soil toxicity and excess light. The ways in which plants deal with environmental stress influence their productivity. Understanding these mechanisms is an important goal that can contribute to better strategies to manage plant responses to environmental stress in agricultu ....Glutathione, a major antioxidant in plants: translocation between tissues and transport within cells. Plants are continually exposed to environmental stress. In agriculture this may include high and low temperature, pathogens, soil toxicity and excess light. The ways in which plants deal with environmental stress influence their productivity. Understanding these mechanisms is an important goal that can contribute to better strategies to manage plant responses to environmental stress in agricultural species.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100008
Funder
Australian Research Council
Funding Amount
$347,500.00
Summary
Super Resolution Confocal Microscopy Facility. Super resolution confocal microscopy facility:
This project aims to establish a super-resolution confocal microscopy facility with unrivalled resolution, sensitivity and speed. The widespread application of super-resolution microscopy has so far been limited because of the special sample preparation and technical skills required. The project aims to provide us with the ability to image thicker samples, such as animal and plant tissue, without these ....Super Resolution Confocal Microscopy Facility. Super resolution confocal microscopy facility:
This project aims to establish a super-resolution confocal microscopy facility with unrivalled resolution, sensitivity and speed. The widespread application of super-resolution microscopy has so far been limited because of the special sample preparation and technical skills required. The project aims to provide us with the ability to image thicker samples, such as animal and plant tissue, without these limitations. This would enable us to capture three-dimensional data at both the cellular and tissue level, providing researchers with a level of detail never before seen. The facility may create new knowledge in life science, including visual neuroscience, developmental neurobiology, plant growth, stem cell regeneration, the role of trace metals in physiology, and vaccine and drug development.Read moreRead less
Molecular basis of synergy between PIs and defensins against fungi. The plant defensin nicotinamide adenine dinucleotide dehydrogenase subunit 1 (NaD1) has potent antifungal activity against agricultural and human pathogens and has potential in the treatment of serious diseases that affect crop production and human health. NaD1 has been found to permeabilise membranes and allows entry of other molecules into the fungal cytoplasm. While screening for molecules that enhance the activity of defensi ....Molecular basis of synergy between PIs and defensins against fungi. The plant defensin nicotinamide adenine dinucleotide dehydrogenase subunit 1 (NaD1) has potent antifungal activity against agricultural and human pathogens and has potential in the treatment of serious diseases that affect crop production and human health. NaD1 has been found to permeabilise membranes and allows entry of other molecules into the fungal cytoplasm. While screening for molecules that enhance the activity of defensins a number of proteinase inhibitors were identified that act synergistically with NaD1. This project aims to identify the molecular basis of this synergy which is expected to lead to better control of fungal diseases of crops and in humans.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100199
Funder
Australian Research Council
Funding Amount
$475,000.00
Summary
Establishment of the Protein Quantitation Centre of South Australia (PQCSA). Determining the protein quantities in culture cells, plant material, biological fluids and entire organisms will provide critical information regarding biological processes in plants and other organisms. The facility will allow the project to progress the understanding of complex biological systems.