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Be(e) friendly venomous spiders! Novel biopesticides from arachnid venoms. The overall aim of this project is to improve global honeybee health by developing novel bee-friendly bioinsecticides as well as treatments against honeybee parasites such as varroa mites and small hive beetles. This project seeks to significantly improve existing insecticidal lead peptides from spider venoms to increase their oral toxicity and make them more pest-specific. Expected outcomes of this project include a pane ....Be(e) friendly venomous spiders! Novel biopesticides from arachnid venoms. The overall aim of this project is to improve global honeybee health by developing novel bee-friendly bioinsecticides as well as treatments against honeybee parasites such as varroa mites and small hive beetles. This project seeks to significantly improve existing insecticidal lead peptides from spider venoms to increase their oral toxicity and make them more pest-specific. Expected outcomes of this project include a panel of biologically degradable venom peptides that are active against selected pest and parasite species and that can be economically produced in large scale. This would not only provide significant environmental, social and economical benefits on a global scale, but also boost the Australian agrochemical research sector.Read moreRead less
Computer-Aided Design of High-Performance Photocatalysts for Solar Hydrogen Production Based on Red Titanium Dioxide. Large-scale generation of energy by solar conversion is critical for future sustainability. This project aims to develop high performance materials to efficiently convert solar energy to hydrogen - a clean fuel. Starting from the newly developed material red titanium dioxide, novel strategies for improved photocatalytic materials will be proposed and evaluated by advanced computa ....Computer-Aided Design of High-Performance Photocatalysts for Solar Hydrogen Production Based on Red Titanium Dioxide. Large-scale generation of energy by solar conversion is critical for future sustainability. This project aims to develop high performance materials to efficiently convert solar energy to hydrogen - a clean fuel. Starting from the newly developed material red titanium dioxide, novel strategies for improved photocatalytic materials will be proposed and evaluated by advanced computational approaches. Key issues for solar-to-hydrogen conversion will be clarified. The materials, knowledge and strategies achieved by this project will dramatically enhance current solar technology and in particular will advance the development of low-cost hydrogen production from water. Read moreRead less
Improving crops from the ground up: genetic solutions to optimise roots. This project aims to develop future crops with optimised root systems by overcoming genetic constraints that currently restrict their potential. Exploiting advances in genomics, transcriptomics, epigenomics and genome editing, this project expects to advance understanding of the biology and genetic controls of root development and responses to concurrent stressors, including drought, nutrient deficiency and soil-borne disea ....Improving crops from the ground up: genetic solutions to optimise roots. This project aims to develop future crops with optimised root systems by overcoming genetic constraints that currently restrict their potential. Exploiting advances in genomics, transcriptomics, epigenomics and genome editing, this project expects to advance understanding of the biology and genetic controls of root development and responses to concurrent stressors, including drought, nutrient deficiency and soil-borne disease. It is anticipated that project outcomes will support the development of crops equipped with novel root traits, enhancing resource-use efficiency and yield stability amid climate variability. This globally relevant research is designed to benefit the sustainability and profitability of the Australian grains industry.Read moreRead less
Optimising how the brain processes language in healthy and neurological populations. This research will examine how the ability of the brain to process language can be modified by behavioural experiences, certain drugs and direct brain stimulation. The findings have the potential to reveal new ways to treat language disorders after brain injury or disease.
Design of novel nanoporous semiconductor materials for clean environment and energy. This project will develop a low cost nanoporous semiconductor device for the capture and conversion of CO2 into fuels by using water and sunlight. This novel approach will deliver a low cost technology that offers clean energy and will help to mitigate global warming.
Harnessing non-invasive brain stimulation to improve language function in healthy and pathological ageing. This project will examine how the ability of the ageing brain to process language can be improved by non-invasive brain stimulation. The findings have the potential to reveal new ways to treat language impairments in ageing-associated brain injury and disease.
HoliCOW - A holobiont strategy to uncover the core microbiome in cows. Human population growth is driving a rise in cattle production for food, which necessitates sustainable practices that simultaneously optimise animal nutrition while reducing methane emissions, a critical greenhouse gas. This project aims to unravel and exploit biological connections across the cow holobiont, which pertains to the feed cows eat, their bodily function and the microbes in their rumen. This project will leverage ....HoliCOW - A holobiont strategy to uncover the core microbiome in cows. Human population growth is driving a rise in cattle production for food, which necessitates sustainable practices that simultaneously optimise animal nutrition while reducing methane emissions, a critical greenhouse gas. This project aims to unravel and exploit biological connections across the cow holobiont, which pertains to the feed cows eat, their bodily function and the microbes in their rumen. This project will leverage multi-layered molecular data derived from the cow holobiont to identify, characterise and ultimately control the core rumen microbiome that causes methane production in animals. The outcome will be new knowledge to facilitate microbiome-based interventions that benefit animal production and reduce its carbon footprint.Read moreRead less
Single-molecule optofluidics: streamlining high-throughput engineering and analysis of proteins and protein assemblies. This project aims at creating novel technologies for high-throughput engineering and analysis of proteins with single-molecule sensitivity. The platform will considerably accelerate the generation of protein-based diagnostics, new vaccines and therapeutics; it will foster collaborations with industry putting Australia at the forefront of protein research.
Understanding why aluminium and other trace metals are toxic to plants - the key to improving crop yield in degraded soils. Aluminium toxicity drastically reduces plant growth in acid soils, costing Australia approximately $1.5 billion per annum in lost productivity. This project will aim to identify the reasons behind the toxicities of aluminium and other metals and has the potential to increase yields in 50 per cent of Australia’s agricultural land which is acidic.