Impact of the male germ line on the mutational load carried by mammalian embryos. This project examines whether a man's age or exposure to lifestyle factors (alcohol, cigarette smoke and mobile phone radiation) can have a major effect on the health of his children. The project is particularly relevant to the safety of assisted conception procedures used to treat the 1 in 20 Australian men suffering from infertility.
Understanding gonadal development and disease using a unique model system, the avian embryo. This project will provide information on normal and abnormal gonadal development during embryonic life. The study will aid in the diagnosis and management of humans born with disorders of sexual development and will be useful for sex ratio manipulation in the poultry industry.
Genetic regulation of testis development in the chicken embryo. This project aims to shed light on the genetic control of testis development during embryonic life, using the chicken embryo as a model. The results will have implications for sex ratio manipulation in poultry and for our understanding of sexual disorders in humans.
Investigating a novel factor impacting stem cell development. This project aims to investigate how stem cells are controlled during animal development, by exploring how a specific protein, essential for embryonic development, controls cell fate decisions during the early stages of life. This project expects to generate new knowledge in stem cell biology, embryonic development, and general mechanisms controlling cell fates, using innovative approaches in gene editing and high-throughput imaging. ....Investigating a novel factor impacting stem cell development. This project aims to investigate how stem cells are controlled during animal development, by exploring how a specific protein, essential for embryonic development, controls cell fate decisions during the early stages of life. This project expects to generate new knowledge in stem cell biology, embryonic development, and general mechanisms controlling cell fates, using innovative approaches in gene editing and high-throughput imaging. Expected outcomes of this project include enhanced capacity for fundamental stem cell biology in Australia. This should provide significant benefits, such as training of young Australian researchers in frontier technologies, and new knowledge in fundamental aspects of life, including embryonic development.Read moreRead less
A novel DNA damage repair protein as a regulator of DNA double strand break repair and genome integrity. This project aims to define the function of a novel DNA damage repair protein. These data will provide a better understanding of DNA repair biology and may reveal novel diagnostic and treatment options for many diseases associated with DNA repair defects, including cancer.
Molecular hallmarks of androgen receptor targeting in prostate cancer. There is a critical need in oncology drug development for better biomarkers of response to prostate cancer therapies, clinically to assist with treatment decision making, and pre-clinically to facilitate translation of emerging agents into clinical practice. Using a unique explant culture model, this project will identify protein and lipid markers that can be used to accurately and reliably assess response to androgen recepto ....Molecular hallmarks of androgen receptor targeting in prostate cancer. There is a critical need in oncology drug development for better biomarkers of response to prostate cancer therapies, clinically to assist with treatment decision making, and pre-clinically to facilitate translation of emerging agents into clinical practice. Using a unique explant culture model, this project will identify protein and lipid markers that can be used to accurately and reliably assess response to androgen receptor (AR)-targeting therapies in human prostate tumours. The identification and functional assessment of these biomarkers will identify those that can be used as surrogate endpoints in clinical trials, facilitate earlier approval of investigational agents and lead to improved options for therapeutic management of prostate cancer.Read moreRead less
Molecular and cellular regulation of ovarian development. This project aims to understand cell fate decisions during ovarian development. While scientists understand the decision to differentiate into a male-specific cell type, they do not understand differentiation into female-specific cell types. This team has identified marker genes that distinguish between different female cell types in the developing ovary, and will analyse the molecular and cellular mechanisms that drive the development of ....Molecular and cellular regulation of ovarian development. This project aims to understand cell fate decisions during ovarian development. While scientists understand the decision to differentiate into a male-specific cell type, they do not understand differentiation into female-specific cell types. This team has identified marker genes that distinguish between different female cell types in the developing ovary, and will analyse the molecular and cellular mechanisms that drive the development of the ovary. This could provide a deeper understanding of how genes influence cell fate decisions during embryogenesis, and the technologies developed here will be widely applicable in biotechnological research.Read moreRead less
Modelling stem cell decisions in mouse germ cells. A fundamental problem in biology is how cells transition from pluripotency to lineage commitment. The aim of this project is to study this problem, in vivo, by dissecting the mechanisms active during normal development of primordial germ cells (PGCs, gamete stem cells) in the mouse fetal testis. Using molecular, cellular and whole animal assays three central hypotheses will be addressed regarding genes likely to be important in the process. This ....Modelling stem cell decisions in mouse germ cells. A fundamental problem in biology is how cells transition from pluripotency to lineage commitment. The aim of this project is to study this problem, in vivo, by dissecting the mechanisms active during normal development of primordial germ cells (PGCs, gamete stem cells) in the mouse fetal testis. Using molecular, cellular and whole animal assays three central hypotheses will be addressed regarding genes likely to be important in the process. This research will reveal the molecular nature of bipotential switches in cell identity and will inform some of the most important biological issues of our time, including tissue regeneration, aging and cancer biology.Read moreRead less
Molecular regulation of the mitosis-to-meiosis switch in germ cells. This project will build on our recent major discoveries to study how sperm and oocyte production begins during fetal life. This issue is critical for understanding fertility and infertility in animal species and humans. The answers generated will lay the groundwork for fertility control in humans, pets, pests and endangered animals.
Genetic regulation of avian sex determination. This project aims to enhance our understanding of gonadal sex determination (testis versus ovary development), using innovative genetic approaches that exploit the avian embryo as a model system. The project aims to define the key molecular events regulating gonadal sex determination in birds. It intends to enhance knowledge in the area of cell biology, embryology, and sex determination specifically. Importantly, it will have application to the poul ....Genetic regulation of avian sex determination. This project aims to enhance our understanding of gonadal sex determination (testis versus ovary development), using innovative genetic approaches that exploit the avian embryo as a model system. The project aims to define the key molecular events regulating gonadal sex determination in birds. It intends to enhance knowledge in the area of cell biology, embryology, and sex determination specifically. Importantly, it will have application to the poultry industry. Currently, half of all hatchlings (the undesired sex) are culled. The proposed project intends to illuminate those genetic pathways that can be targeted to produce single-sex lines of birds, a major goal of the multi-billion dollar Australian and global poultry industries.Read moreRead less