Embryo genomics for engineering change. The proposed research program will contribute to areas that are critically important for Australia, such as agriculture, animal biodiversity, biomedicine, human health and biosafety. By addressing the high economic losses due to early embryonic mortality in farm animals, results from this research will enhance the competitiveness of Australian agriculture and biomedical research. The establishment of a world class research Centre for Animal Biotechnology a ....Embryo genomics for engineering change. The proposed research program will contribute to areas that are critically important for Australia, such as agriculture, animal biodiversity, biomedicine, human health and biosafety. By addressing the high economic losses due to early embryonic mortality in farm animals, results from this research will enhance the competitiveness of Australian agriculture and biomedical research. The establishment of a world class research Centre for Animal Biotechnology at the University of Adelaide will create a major addition to the national research base. The Centre will develop technology platforms to support various groups across the entire Australian scientific community.Read moreRead less
Subcellular co-localisation of interacting proteins that control maturation in mammalian eggs. The final maturation of mammalian eggs (oocytes) before fertilisation involves a cascade of interactions between protein kinases and phosphatases, the shuttling of these proteins between cytoplasm and nucleus, and microtubule assembly and disassembly. In this project we have proposed that interacting proteins involved in oocyte maturation are co-localised at subcellular sites in oocytes, in a strict t ....Subcellular co-localisation of interacting proteins that control maturation in mammalian eggs. The final maturation of mammalian eggs (oocytes) before fertilisation involves a cascade of interactions between protein kinases and phosphatases, the shuttling of these proteins between cytoplasm and nucleus, and microtubule assembly and disassembly. In this project we have proposed that interacting proteins involved in oocyte maturation are co-localised at subcellular sites in oocytes, in a strict temporal and spatial manner. The co-localisation of proteins in oocytes is considered a fundamental mechanism that ensures coordination of time-bound cellular events and proper preparation of oocytes for fertilisation and early embryo development. There are important implications for IVF and cloning by nuclear transfer.Read moreRead less
Improving the efficiency of bovine oocyte maturation in vitro. For the dairy and beef industries, the hundreds of eggs (oocytes) in a high value cow's ovary that fail to produce a pregnancy are a wasted genetic resource. A key technology to unlocking this resource is in vitro maturation of oocytes, but the process is inefficient. One possible cause is that the current approaches to maturing oocytes in vitro do not adequately mimic the natural process in vivo. We will design new systems to matu ....Improving the efficiency of bovine oocyte maturation in vitro. For the dairy and beef industries, the hundreds of eggs (oocytes) in a high value cow's ovary that fail to produce a pregnancy are a wasted genetic resource. A key technology to unlocking this resource is in vitro maturation of oocytes, but the process is inefficient. One possible cause is that the current approaches to maturing oocytes in vitro do not adequately mimic the natural process in vivo. We will design new systems to mature cow oocytes in vitro by altering the chemical composition of maturation medium, thus improving the efficiency of laboratory embryo production and related technologies.Read moreRead less
An integrated genomics approach to improve our understanding of the biology of genital campylobacteriosis in beef cattle. Beef is Australia's most valuable agricultural export estimated at $9.6B annually and this industry accounts for one-third of full time employment in regional communities. Currently, unknown causes of reproductive losses in cattle in Northern Australian cost producers approximately $15M per annum. Bovine genital campylobacteriosis is one of the major risk factors associated w ....An integrated genomics approach to improve our understanding of the biology of genital campylobacteriosis in beef cattle. Beef is Australia's most valuable agricultural export estimated at $9.6B annually and this industry accounts for one-third of full time employment in regional communities. Currently, unknown causes of reproductive losses in cattle in Northern Australian cost producers approximately $15M per annum. Bovine genital campylobacteriosis is one of the major risk factors associated with this high cost due to the inability to accurately diagnose the disease. This research will integrate genomics and bioinformatics with infection and vaccination models to improve our understanding of the biology of the disease to develop appropriate control strategies securing Australia's beef industry.Read moreRead less
DNA methylation in IVF and cloned embryos. In vitro fertilisation (IVF) and cloning are new assisted reproductive technologies that in time will revolutionise genetic improvement of Australia's economically important animals. IVF and cloning can be associated with aberrant growth that results from atypical gene expression. DNA methylation is central to gene regulation and determines which genes are expressed. In this project a new technique will be used to quantify DNA methylation in naturall ....DNA methylation in IVF and cloned embryos. In vitro fertilisation (IVF) and cloning are new assisted reproductive technologies that in time will revolutionise genetic improvement of Australia's economically important animals. IVF and cloning can be associated with aberrant growth that results from atypical gene expression. DNA methylation is central to gene regulation and determines which genes are expressed. In this project a new technique will be used to quantify DNA methylation in naturally conceived, IVF and cloned embryos. The information will be used to improve IVF and cloning so that these technologies can be applied with confidence to increase the international competitiveness of Australia's livestock industries.Read moreRead less