Quantifying the effect of nutrient-gene interaction in utero in key tissues instrumental to productivity and sustainability of the beef industry. The cattle industry occupies 43 per cent of the land mass and provides 13 per cent of rural employment. Nutritional insult in utero affects postnatal reproductive and production traits in cattle and imposes epigenetic modifications. This project investigates the effect upon genes affecting appetite, ovarian development, adipogenesis, myogenesis and pos ....Quantifying the effect of nutrient-gene interaction in utero in key tissues instrumental to productivity and sustainability of the beef industry. The cattle industry occupies 43 per cent of the land mass and provides 13 per cent of rural employment. Nutritional insult in utero affects postnatal reproductive and production traits in cattle and imposes epigenetic modifications. This project investigates the effect upon genes affecting appetite, ovarian development, adipogenesis, myogenesis and post natal growth.Read moreRead less
Stimulation of the mammalian reproductive system by olfactory pathways. This project answers fundamental questions about mammalian reproductive biology but, because we work with the sheep model, our findings can be applied to two of Australia's biggest export industries, wool and sheepmeat. Understanding the reproductive responses of our production animals to exteroceptive factors such as socio-sexual signals, photoperiod and nutrition is an important first step towards refining the management ....Stimulation of the mammalian reproductive system by olfactory pathways. This project answers fundamental questions about mammalian reproductive biology but, because we work with the sheep model, our findings can be applied to two of Australia's biggest export industries, wool and sheepmeat. Understanding the reproductive responses of our production animals to exteroceptive factors such as socio-sexual signals, photoperiod and nutrition is an important first step towards refining the management of breeding programs. It has been argued that this approach will also minimise, and perhaps even remove the need for, exogenous hormones and drugs for controlling the reproductive process.Read moreRead less
Development of cloning technology for the Australian Pig Industry. Cloning has the potential to be the most efficient of the reproductive technologies developed for increasing genetic improvement in livestock. Currently up to 5% of cloned embryos develop to term in the pig. This is higher than that reported for cattle and sheep. Moreover the use of this technology in the pig does not appear not to result in the same sorts of problems and losses seen around the time of birth in these species ....Development of cloning technology for the Australian Pig Industry. Cloning has the potential to be the most efficient of the reproductive technologies developed for increasing genetic improvement in livestock. Currently up to 5% of cloned embryos develop to term in the pig. This is higher than that reported for cattle and sheep. Moreover the use of this technology in the pig does not appear not to result in the same sorts of problems and losses seen around the time of birth in these species i.e. the majority of cloned pigs appear normal and are healthy at birth. However before cloning can be used commercially, current efficiencies need to be increased approx two fold for this to be economically viable. The aim of the present study is to improve the efficiency of our current cloning protocol and develop associated technologies such as embryo freezing to facilitate commercialisation. This will ensure that the Australian Pig Industry remains competitive at a pivotal time in its development.Read moreRead less
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
In vitro prediction tests of fertility of frozen semen of sheep and cattle. Variation in fertility after artificial insemination (AI) of frozen semen is high and leads to economic loss. Routine assessment of the quality of frozen semen relies on crude, simple tests of motility and morphology of sperm. More sophisticated sperm ultrastructural and function tests have recently been developed, but it is not known how these tests relate to fertility in the field. In this project we will test a ran ....In vitro prediction tests of fertility of frozen semen of sheep and cattle. Variation in fertility after artificial insemination (AI) of frozen semen is high and leads to economic loss. Routine assessment of the quality of frozen semen relies on crude, simple tests of motility and morphology of sperm. More sophisticated sperm ultrastructural and function tests have recently been developed, but it is not known how these tests relate to fertility in the field. In this project we will test a range of in vitro methods of assessment of motility and morphology of sperm and compare them with fertility of frozen semen samples after AI, leading to more objective methods of semen analysis.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
Mechanisms of manchette function. This project aims to define the function of the manchette, a poorly understood microtubule-based structure present in haploid male germ cells. This project aims to define key mechanisms underpinning manchette development and movement, and to generate a detailed picture of the dynamics of germ cell development using imaging technologies and unique animal models. Such knowledge should improve the understanding of how male fertility is achieved, the origin of infer ....Mechanisms of manchette function. This project aims to define the function of the manchette, a poorly understood microtubule-based structure present in haploid male germ cells. This project aims to define key mechanisms underpinning manchette development and movement, and to generate a detailed picture of the dynamics of germ cell development using imaging technologies and unique animal models. Such knowledge should improve the understanding of how male fertility is achieved, the origin of infertility and how species-specific differences in sperm form are achieved. Such insights may ultimately lead to improved agricultural efficiencies and job creation.Read moreRead less
Sex preselection of stallion spermatozoa. This study will develop novel techniques that will maintain and optimise the fertility of sex-sorted stallion semen before and after processing through a flow cytometer. Ultimately, spermatozoa obtained from ejaculation or from the testes sperm storage site (epididymes) at the time of castration will be sorted into X- (female) or Y- (male) populations and used to inseminate mares and thus, enable horse breeders to predetermine the sex of their foal at th ....Sex preselection of stallion spermatozoa. This study will develop novel techniques that will maintain and optimise the fertility of sex-sorted stallion semen before and after processing through a flow cytometer. Ultimately, spermatozoa obtained from ejaculation or from the testes sperm storage site (epididymes) at the time of castration will be sorted into X- (female) or Y- (male) populations and used to inseminate mares and thus, enable horse breeders to predetermine the sex of their foal at the time of insemination. The introduction of sex-sorted semen into the Australian horse industry (worth some $6.2 billion) will ensure that Australia leads the world in equine reproductive technology.Read moreRead less
Enhancing the efficiency of equine reproduction: relevant to the Thoroughbred and Standardbred breeding industries. The purpose of this project is to link the equine breeding industry with a major centre of reproductive research at the University of Newcastle. By creating this unique nexus, major efficiency gains will be achieved for this industry that will not only secure its international competitiveness but also significantly enhance its profitability.
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