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Chemical principles underpinning a spermostatic-microbiostatic agent capable of preventing pregnancy and the spread of sexually transmitted disease. This project explores the development of a method for simultaneously controlling fertility while preventing the spread of sexually transmitted diseases. A novel aspect of the approach, that will dramatically influence product development, is that the active principles will only be generated on contact with seminal plasma.
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.
Heme oxygenase integrates cellular responses to oxygen stress. A deficiency in the protein heme oxygenase-1 causes severe biological consequences including retarded development, chronic inflammation and increased susceptibility to age-associated diseases. By illuminating how heme oxygenase-1 improves cell function the project will eventually assist in preventing or slowing the serious age-associated disorders.
Discovery Early Career Researcher Award - Grant ID: DE220100032
Funder
Australian Research Council
Funding Amount
$379,264.00
Summary
Banking on spermatogonial stem cells to safeguard Australian native fauna. Spermatogonial stem cells in the testis are an untapped resource for species conservation. This project aims to characterise metabolic pathways that control spermatogonial stem cell function, and define the conserved nature of these pathways between model species (mouse) and vulnerable Australian native fauna. Expected outcomes of this project include an enhanced capacity to culture koala spermatogonia in vitro, which wil ....Banking on spermatogonial stem cells to safeguard Australian native fauna. Spermatogonial stem cells in the testis are an untapped resource for species conservation. This project aims to characterise metabolic pathways that control spermatogonial stem cell function, and define the conserved nature of these pathways between model species (mouse) and vulnerable Australian native fauna. Expected outcomes of this project include an enhanced capacity to culture koala spermatogonia in vitro, which will be a first step towards using spermatogonial biobanking as a tool to maintain genetic diversity in this species. Outcomes from this study should provide significant benefits in safeguarding our unique Australian native species, which is of particular importance following the catastrophic 2019/20 bushfire season.Read moreRead less
Molecular control of embryonic diapause. Many species can halt growth of the early embryo (diapause). This project will use novel animal models and new proteomics techniques to clarify what signals from the uterus control diapause of the embryo. This may uncover new mechanisms for cell regulation that will be relevant to the biology of stem cells, cancer and reproductive technologies.