The Role of C-kit and Selected TGF beta Family Members in Recruitment. The recruitment of primordial follicles into the growth phase is central to female reproductive function, however the control of this process to date, has been poorly understood due to inadequate technologies. Our team has recently developed novel recruitment models and a new and innovative method of isolating primordial follicles which will enable us to identify the role of c-kit and selected TGF beta family members in recru ....The Role of C-kit and Selected TGF beta Family Members in Recruitment. The recruitment of primordial follicles into the growth phase is central to female reproductive function, however the control of this process to date, has been poorly understood due to inadequate technologies. Our team has recently developed novel recruitment models and a new and innovative method of isolating primordial follicles which will enable us to identify the role of c-kit and selected TGF beta family members in recruitment. This work will provide cornerstone scientific knowledge about the control of female reproduction and provide the impetus for the development of more effective contraception and superovulation strategies in mammals.Read moreRead less
Beyond pineal melatonin: sensing the seasons without the eye. The project will identify the causal connection between seasonal breeding in animals and a recently recognised brain biochemical pathway by applying experimental treatments mimicking seasonal environmental changes in a mutant and wild-type nematode worm model. Through experimentation we will identify useful biological targets that might be manipulated to enhance control of seasonal breeding in managed animals. With better control of r ....Beyond pineal melatonin: sensing the seasons without the eye. The project will identify the causal connection between seasonal breeding in animals and a recently recognised brain biochemical pathway by applying experimental treatments mimicking seasonal environmental changes in a mutant and wild-type nematode worm model. Through experimentation we will identify useful biological targets that might be manipulated to enhance control of seasonal breeding in managed animals. With better control of reproductive output in animals, farmers and managers can increase and/or decrease reproductive output as needed in managed species including livestock and vertebrate pests. This will enhance the use of precious land resources and minimize ecological damage from overbreeding.Read moreRead less
Evolution and function of sex chromosomes and genes in mammalian reproduction. This project will ensure Australian leadership in research of reproductive biology and genomics in platypus and echidna. As our most distant relatives, these iconic species provide an understanding of human genes contributing to medical conditions involved in sexual development, infertility and ovarian cancer.
Defining the impact of Environmental Endocrine Disruptors on the sustainability of
Australia’s Native Marsupials. Environmental endocrine disrupting chemicals (EEDs) from introduced plants, pesticides and wastewater are dramatically increasing in the Australian environment. EEDs have been shown to cause dramatic reproductive and developmental abnormalities in vertebrates ranging from fish to humans. This project plans to investigate the impact that these chemicals might have on marsupial devel ....Defining the impact of Environmental Endocrine Disruptors on the sustainability of
Australia’s Native Marsupials. Environmental endocrine disrupting chemicals (EEDs) from introduced plants, pesticides and wastewater are dramatically increasing in the Australian environment. EEDs have been shown to cause dramatic reproductive and developmental abnormalities in vertebrates ranging from fish to humans. This project plans to investigate the impact that these chemicals might have on marsupial development. Marsupials have a unique reproductive strategy and how this might affect their ability to respond to EEDs is unknown. This project aims to define the effects of three of the predominant EED risks for marsupials in the Australian environment; estradiol, genistein and atrazine.Read moreRead less
Ancestral, conserved and novel mechanisms in marsupial genomic imprinting. Genomic imprinting is the differential expression pattern of some genes depending on whether the gene copy came from the mother or the father. This differential expression is essential for embryonic development and errors lead to disease. To date, most of our knowledge of the control of genomic imprinting comes from the mouse, but much less is known about this process in marsupials. Our comparative approach, using marsupi ....Ancestral, conserved and novel mechanisms in marsupial genomic imprinting. Genomic imprinting is the differential expression pattern of some genes depending on whether the gene copy came from the mother or the father. This differential expression is essential for embryonic development and errors lead to disease. To date, most of our knowledge of the control of genomic imprinting comes from the mouse, but much less is known about this process in marsupials. Our comparative approach, using marsupial mammals that are distantly related to mice and humans, aims to clarify how genomic imprinting mechanisms have evolved, which patterns are conserved across mammals, and which vary. Our proposed research aims to provide new approaches and understanding of this fundamental process essential for the continuation of life.
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Reprogramming maternal and paternal genomes during development: new perspectives from marsupials. This project will use marsupials to examine programming of the germ cell lineage (cells that become eggs and sperm) and the evolution of these mechanisms that control their development. Using the unique features of our Australian native animals, this research will contribute to the understanding of the transmission of life.