Applications of probiotics in yoghurt, soy yoghurt and Cheddar cheese. The main goal of this study is to develop probiotic yoghurt and Cheddar cheese using selected strains of probiotic bacteria and examine their survival and effects on proteolysis and sensory attributes of these products. Research aimed at enrichment of suitable probiotic adjunct starter in these products provides the potential to markedly improve both the health status and quality of products. Optimum conditions for survival o ....Applications of probiotics in yoghurt, soy yoghurt and Cheddar cheese. The main goal of this study is to develop probiotic yoghurt and Cheddar cheese using selected strains of probiotic bacteria and examine their survival and effects on proteolysis and sensory attributes of these products. Research aimed at enrichment of suitable probiotic adjunct starter in these products provides the potential to markedly improve both the health status and quality of products. Optimum conditions for survival of probiotic bacteria and processing conditions that guarantee high levels of probiotic bacteria for health benefits will be known. The results will provide critical information for improving survival of probiotic bacteria and quality of probiotic yoghurt, and Cheddar cheese.Read moreRead less
Stability of bioactive isoflavone aglycones and probiotic bacteria in soy based food during processing and storage. The aims of this study are to ascertain the optimum conditions for bioconversion of inactive isoflavone glucosides to bioactive isoflavone aglycones by bifidobacteria and assess the stability of bioactive aglycones during processing and storage. Studies have shown that dietary phytoestrogen an important role in prevention of cardiovascular disease, osteoporosis and breast and prost ....Stability of bioactive isoflavone aglycones and probiotic bacteria in soy based food during processing and storage. The aims of this study are to ascertain the optimum conditions for bioconversion of inactive isoflavone glucosides to bioactive isoflavone aglycones by bifidobacteria and assess the stability of bioactive aglycones during processing and storage. Studies have shown that dietary phytoestrogen an important role in prevention of cardiovascular disease, osteoporosis and breast and prostate cancer (Nagata et al., 1998). Optimum conditions for production of bioactive isoflavones and processing conditions that guarantee high levels of bioactive isoflavones for health benefits will be known. The results will provide critical information for creating market potential for a range of health based functional foods.Read moreRead less
Ultrasonic Processing of Dairy Ingredients to Control Protein Aggregation and Promote Heat Stability. This project is an emerging collaboration between the University of Melbourne, Food Science Australia and the Dairy Ingredients Group of Australia. We aim to use acoustically generated chemical and physical effects to modify dairy proteins. Transformation of the sulphur-containing proteins by this means should overcome many of the difficulties currently encountered in thermal processing of whole ....Ultrasonic Processing of Dairy Ingredients to Control Protein Aggregation and Promote Heat Stability. This project is an emerging collaboration between the University of Melbourne, Food Science Australia and the Dairy Ingredients Group of Australia. We aim to use acoustically generated chemical and physical effects to modify dairy proteins. Transformation of the sulphur-containing proteins by this means should overcome many of the difficulties currently encountered in thermal processing of whole milk and whey proteins. This work will place the Australian dairy industry in a pre-eminent position for the development of valuable, heat-stable and uniquely functional ingredients based on novel micro/nano structures. Existing world class expertise will be further developed in ultrasonic processing and sonochemistry as frontier technologies.Read moreRead less
High-value functional ingredients from bean processing waste. Legumes are considered highly nutritious and sustainable food. Accordingly, there is a steady growth in the consumption of legumes worldwide, including in Australia. Due to lengthy soaking and cooking times, consumers prefer ready-to-eat canned legumes. The current processing technologies are energy and water-intensive and generate considerable waste. This project investigates the application of non-thermal technologies to reduce pro ....High-value functional ingredients from bean processing waste. Legumes are considered highly nutritious and sustainable food. Accordingly, there is a steady growth in the consumption of legumes worldwide, including in Australia. Due to lengthy soaking and cooking times, consumers prefer ready-to-eat canned legumes. The current processing technologies are energy and water-intensive and generate considerable waste. This project investigates the application of non-thermal technologies to reduce processing time, water and energy use and enable the recovery of valuable polyphenols and soluble dietary fibres normally lost in the wastewater. This knowledge will lead to sustainable beans processing, delivering improved productivity to Australian manufacturers and quality food to Australian consumers.Read moreRead less
Incorporation of legume protein in liquid breakfast for a healthy Australia. This project aims to understand and control the properties and interactions of legume protein with other ingredients (e.g. whey protein and dietary fibre) to formulate healthy liquid foods with superior techno-functionality. This research should significantly broaden our understanding of the behaviour of legume protein-phospholipid complexes and their contribution to malodorous flavour development. The expected outcomes ....Incorporation of legume protein in liquid breakfast for a healthy Australia. This project aims to understand and control the properties and interactions of legume protein with other ingredients (e.g. whey protein and dietary fibre) to formulate healthy liquid foods with superior techno-functionality. This research should significantly broaden our understanding of the behaviour of legume protein-phospholipid complexes and their contribution to malodorous flavour development. The expected outcomes are protocols to prevent undesirable sensory characteristics in liquid foods. This should benefit the food industry by improving the sensory attributes of beverages enriched with legume protein, leading to the creation of novel, highly nutritious products with superior sensory attributes and long shelf-life.Read moreRead less
Intelligent bioprocessing for next-generation nutritional yeast extracts. This project aims to provide new, science-based levers for optimising the industrial production of tailormade yeast extracts for food applications. Advanced biochemical and engineering methods will be used to develop new knowledge of the links between yeast growth conditions, cell biochemistry, processing and the flavour and texture profiles of yeast hydrolysates. This understanding will allow the properties of yeast hydro ....Intelligent bioprocessing for next-generation nutritional yeast extracts. This project aims to provide new, science-based levers for optimising the industrial production of tailormade yeast extracts for food applications. Advanced biochemical and engineering methods will be used to develop new knowledge of the links between yeast growth conditions, cell biochemistry, processing and the flavour and texture profiles of yeast hydrolysates. This understanding will allow the properties of yeast hydrolysates to be accurately tuned during yeast production and processing. The resulting process improvements and innovations will increase the efficiency and quality of current yeast extract products and allow the development of new food products.Read moreRead less