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Slowly digestible, high antioxidant sorghum: a new wholegrain food paradigm to help combat type 2 diabetes. This project has the potential to lead to benefits to several sectors of the community. Government and consumers will benefit by new sorghum foods helping to reduce diabetes, heart disease and obesity and the economic and quality of life burden of these diseases; health professionals will benefit through availability of new food products to recommend for disease risk-reduction and control; ....Slowly digestible, high antioxidant sorghum: a new wholegrain food paradigm to help combat type 2 diabetes. This project has the potential to lead to benefits to several sectors of the community. Government and consumers will benefit by new sorghum foods helping to reduce diabetes, heart disease and obesity and the economic and quality of life burden of these diseases; health professionals will benefit through availability of new food products to recommend for disease risk-reduction and control; food processors will benefit through new value-added healthy food products for both the domestic and export markets and sorghum growers will benefit through a new opportunity to produce sorghum grain for higher value markets.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC140100027
Funder
Australian Research Council
Funding Amount
$2,150,000.00
Summary
ARC Training Centre for Functional Grains. ARC Training Centre for Functional Grains. The Training Centre aims to improve the profitability of the Australian grains industry. It plans to achieve this by adding value to rice, canola and pulses through: the development of a better understanding of market opportunities; improving storage technologies; the development of products which improve returns to the industry and result in better health outcomes for consumers; and improving processing method ....ARC Training Centre for Functional Grains. ARC Training Centre for Functional Grains. The Training Centre aims to improve the profitability of the Australian grains industry. It plans to achieve this by adding value to rice, canola and pulses through: the development of a better understanding of market opportunities; improving storage technologies; the development of products which improve returns to the industry and result in better health outcomes for consumers; and improving processing methods to generate these products.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC130100021
Funder
Australian Research Council
Funding Amount
$2,100,000.00
Summary
ARC Training Centre for Advanced Technologies in Food Manufacture. Training Centre for Advanced Technologies in Food Manufacture. This Training Centre for Advanced Technologies in Food Manufacture will enable Australian food processing and manufacturing companies to meet the increasing threats of international competition. It will do this through collaboration between industry and the Training Centre’s food science, nutrition and engineering researchers and the development of innovative technolo ....ARC Training Centre for Advanced Technologies in Food Manufacture. Training Centre for Advanced Technologies in Food Manufacture. This Training Centre for Advanced Technologies in Food Manufacture will enable Australian food processing and manufacturing companies to meet the increasing threats of international competition. It will do this through collaboration between industry and the Training Centre’s food science, nutrition and engineering researchers and the development of innovative technologies.
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Food allergies have emerged as a major public health concern affecting 1 in 10 Australian infants. Hospitals waiting times are in excess of 12-months for specialist services. Recent changes in the environment are driving up rates of food allergy but the mechanisms are unclear. Epigenetics is the science of how the environment influences gene behaviour. This fellowship will address the important and urgent question of how modern environments are changing our genes, leading to food allergy.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775499
Funder
Australian Research Council
Funding Amount
$130,000.00
Summary
High Performance Optical Profilometer for mapping micro/meso/macroscopic topography. Developing advanced, high performance new materials requires an understanding of surfaces and interfaces. Making a small area, low yield material or device is a regular occurrence within the Australian research community. The ability to create reproducible, high yield materials requires greater understanding of the stresses, uniformities and deformations in a material over large areas. The proposed instrument ....High Performance Optical Profilometer for mapping micro/meso/macroscopic topography. Developing advanced, high performance new materials requires an understanding of surfaces and interfaces. Making a small area, low yield material or device is a regular occurrence within the Australian research community. The ability to create reproducible, high yield materials requires greater understanding of the stresses, uniformities and deformations in a material over large areas. The proposed instrument can measure topography over many centimeters-squared with sub-micron spatial resolution, currently beyond the capabilities of researchers in Australia. By providing a quantitative method to measure surface textures, the instrument will also support Australian industries looking for improved process control.Read moreRead less
ARC/NHMRC Research Network Fluorescence Applications in Biotechnology and Life Sciences. This Network will concentrate Australian research in new applications of fluorescence to biological systems to solve significant problems in health diagnostics, biotechnology and the environment. The scientific goals identified by the Network such as highly selective fluorescent labelling and purpose-engineered fluorochromes will be accompanied by the development of specialised instrumentation. These resear ....ARC/NHMRC Research Network Fluorescence Applications in Biotechnology and Life Sciences. This Network will concentrate Australian research in new applications of fluorescence to biological systems to solve significant problems in health diagnostics, biotechnology and the environment. The scientific goals identified by the Network such as highly selective fluorescent labelling and purpose-engineered fluorochromes will be accompanied by the development of specialised instrumentation. These research directions pursued by strong multi-disciplinary teams spanning biology, chemistry, physics, bioengineering and medicine will benefit from the support of the Network programs. Through its focus on academic - industry collaboration the Network will also facilitate development of basic scientific discoveries into commercial outcomes.Read moreRead less
Stimulation of the mammalian reproductive system by olfactory pathways. This project answers fundamental questions about mammalian reproductive biology but, because we work with the sheep model, our findings can be applied to two of Australia's biggest export industries, wool and sheepmeat. Understanding the reproductive responses of our production animals to exteroceptive factors such as socio-sexual signals, photoperiod and nutrition is an important first step towards refining the management ....Stimulation of the mammalian reproductive system by olfactory pathways. This project answers fundamental questions about mammalian reproductive biology but, because we work with the sheep model, our findings can be applied to two of Australia's biggest export industries, wool and sheepmeat. Understanding the reproductive responses of our production animals to exteroceptive factors such as socio-sexual signals, photoperiod and nutrition is an important first step towards refining the management of breeding programs. It has been argued that this approach will also minimise, and perhaps even remove the need for, exogenous hormones and drugs for controlling the reproductive process.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100093
Funder
Australian Research Council
Funding Amount
$510,000.00
Summary
High-throughput technology targeting antimicrobial resistance in animals. This project aims to establish reference laboratories as biobanks for resistant isolate collections from veterinary diagnostic laboratories / surveillance programmes and a national research network to mitigate antimicrobial resistance in animals. Antimicrobial resistance in zoonotic/foodborne pathogens and livestock commensals is a global issue. This project will use mass-spectroscopy biotypers, information management soft ....High-throughput technology targeting antimicrobial resistance in animals. This project aims to establish reference laboratories as biobanks for resistant isolate collections from veterinary diagnostic laboratories / surveillance programmes and a national research network to mitigate antimicrobial resistance in animals. Antimicrobial resistance in zoonotic/foodborne pathogens and livestock commensals is a global issue. This project will use mass-spectroscopy biotypers, information management software, robotic liquid handling and a research dairy to develop high-throughput screening technologies to rapidly determine major animal species’ resistance status, and research anti-infectives and vaccines for livestock diseases. This will improve the health and production of Australian livestock, leading to greater market access for high quality products.Read moreRead less
Initiation of spontaneous fires. This project aims to determine the origin of the initiation reactions that set off the self-heating of wood chips, coal, milk powder and other economically-important materials, leading to spontaneous fires. This project will provide fundamental understanding of the reactions between electronically excited species of oxygen and carbonaceous fuels, with applications to improved safety in wood, mineral and food industries. The outcomes include identification of the ....Initiation of spontaneous fires. This project aims to determine the origin of the initiation reactions that set off the self-heating of wood chips, coal, milk powder and other economically-important materials, leading to spontaneous fires. This project will provide fundamental understanding of the reactions between electronically excited species of oxygen and carbonaceous fuels, with applications to improved safety in wood, mineral and food industries. The outcomes include identification of the initiation mechanisms and development of mechanistic models that include the initiation step of the self-heating process, and development of new technologies for mitigation of spontaneous fires, based on quenching of the initiation reactions.Read moreRead less
Functional nano-porous metal membranes for sustainable separation in industrial processes. There are many waste streams that need to be purified which degrade conventional membranes. This project with local company AMS aims to develop nano-porous metal membranes as a sustainable alternative to conventional membrane materials. Highly porous and ultra-thin metal membrane sheets with narrowly distributed nano-scale pores will be fabricated and functionalised to purify both model and industrial wast ....Functional nano-porous metal membranes for sustainable separation in industrial processes. There are many waste streams that need to be purified which degrade conventional membranes. This project with local company AMS aims to develop nano-porous metal membranes as a sustainable alternative to conventional membrane materials. Highly porous and ultra-thin metal membrane sheets with narrowly distributed nano-scale pores will be fabricated and functionalised to purify both model and industrial wastewaters. This intends to lead to the production of stronger, more versatile and chemically stable membrane materials that will exhibit longer lifespan and performance. The most significant outcome is expected to be low cost metal alloys with pores below the current 100 nm benchmark and assess their thermo-chemical stability.Read moreRead less