Discovery Early Career Researcher Award - Grant ID: DE120100304
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Biomimetic systems for species preservation and fertility restoration. Using a novel 3-D culture system the project will examine the biomechanics of ovary follicle and egg development in vitro, generating new knowledge with directly translatable research outcomes. In vitro egg production has implications for human fertility and threatened species preservation, significantly benefitting health and biodiversity in Australia.
Molecular mechanisms for seminal fluid signalling in reproduction. Male seminal fluid regulation of the female reproductive process influences fertility and fecundity in humans and animal species. Infertility and impaired reproductive function is a major economic constraint in livestock industries, and carries a substantial social and public health cost in humans. This research will identify the active signalling molecules in seminal fluid and quantify their importance in reproductive success ....Molecular mechanisms for seminal fluid signalling in reproduction. Male seminal fluid regulation of the female reproductive process influences fertility and fecundity in humans and animal species. Infertility and impaired reproductive function is a major economic constraint in livestock industries, and carries a substantial social and public health cost in humans. This research will identify the active signalling molecules in seminal fluid and quantify their importance in reproductive success and health of offspring. The outcomes will inform development of new diagnostic assays for male fertility, and underpin strategic design of novel fertility treatments and products with applications in the human health and animal breeding industries. Read moreRead less
Interactions between cells and extracellular matrix in the epithelial-mesenchymal transition of the ovarian follicular stratified epithelium. The lining of many mammalian organs and cavities contain cells that can transform into different cells to bring about organ development or repair but if it goes horribly wrong the cells become metastatic cancers. This project examines the key features of this process especially the roles of matrix that develops around the cells in this process.