Understanding and implications of formation of lipid nanostructures in milk. This project aims to deliver new understanding of the processes of milk digestion. Milk is the most important food for human survival, providing all the essential nutrition to newborn infants and constituting a major part of the adult diet. The recent discovery that nanostructure is formed during the digestion of both cow and breast milk, but not of vegetable 'milk', has opened a large number of questions to answer in t ....Understanding and implications of formation of lipid nanostructures in milk. This project aims to deliver new understanding of the processes of milk digestion. Milk is the most important food for human survival, providing all the essential nutrition to newborn infants and constituting a major part of the adult diet. The recent discovery that nanostructure is formed during the digestion of both cow and breast milk, but not of vegetable 'milk', has opened a large number of questions to answer in this project. Specifically, the project plans to link nanostructure formation in milk with composition during digestion, and the subsequent delivery of nutrients. The project plans to use synchrotron and microscopy techniques to address these questions. Project outcomes may improve our understanding of digestion and drive innovation in products delivering nutrients to infants.Read moreRead less
The role of the transcription factor Runx2 during mammary gland development and lactation. This proposal will further our understanding of mammary gland development and lactation and the mechanisms controlling mammary cell fate decisions such as differentiation. Regulation of cell fate lies at the core of most aspects of cell biology from normal development to dysfunction such as cancer. The knowledge gleamed from this project also has the potential to make economic gains for Australia by increa ....The role of the transcription factor Runx2 during mammary gland development and lactation. This proposal will further our understanding of mammary gland development and lactation and the mechanisms controlling mammary cell fate decisions such as differentiation. Regulation of cell fate lies at the core of most aspects of cell biology from normal development to dysfunction such as cancer. The knowledge gleamed from this project also has the potential to make economic gains for Australia by increasing the profitability and ensuring the sustainability of both the dairy and meat industries. Better understanding of the mechanisms controlling mammary epithelial cell differentiation should enable augmentation of lactation such as increasing milk protein content, using marker assisted selection (of targets such as Runx2) in cattle.Read moreRead less