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
The co-expression of visual pigments in a single photoreceptor: environmental regulation and spectral tuning. The light sensitive cells (photoreceptors) in the vertebrate retina contain filters (oil droplets) and visual pigments (opsins). These structures tune the incoming light and initiate the visual process, respectively. Exciting new research reveals that some vertebrates express more than one opsin within a single photoreceptor. We plan to examine the regulation of single and two co-express ....The co-expression of visual pigments in a single photoreceptor: environmental regulation and spectral tuning. The light sensitive cells (photoreceptors) in the vertebrate retina contain filters (oil droplets) and visual pigments (opsins). These structures tune the incoming light and initiate the visual process, respectively. Exciting new research reveals that some vertebrates express more than one opsin within a single photoreceptor. We plan to examine the regulation of single and two co-expressed opsin genes by manipulating the light environment. We expect to determine the environmental triggers for visual pigment tuning and the effects of co-expression on colour vision.Read moreRead less
Environmental regulation of opsin expression and spectral tuning in the vertebrate retina. Exciting new evidence shows that the vertebrate visual system is extraordinarily plastic and that the colour and brightness of the ambient light regulates both the spatial and temporal expression of visual pigments (opsin) genes and the degree of spectral filtering in the retina. Based on findings that more than one visual pigment can be co-expressed in a single photoreceptor type, we plan to manipulate th ....Environmental regulation of opsin expression and spectral tuning in the vertebrate retina. Exciting new evidence shows that the vertebrate visual system is extraordinarily plastic and that the colour and brightness of the ambient light regulates both the spatial and temporal expression of visual pigments (opsin) genes and the degree of spectral filtering in the retina. Based on findings that more than one visual pigment can be co-expressed in a single photoreceptor type, we plan to manipulate the light environment in order to identify and quantify the effect of different lighting regimes by morphological, spectral and molecular techniques in a concerted effort to understand the regulation of opsin expression.Read moreRead less
Global genetic regulation of carbon metabolism in filamentous fungi. Fungi are of great importance in medicine, agriculture and industry. They are used extensively for food, antibiotic and chemical production and, increasingly, for generating cheap substrates for bioethanol. However many are serious pathogens of plants and humans. Understanding how fungi control their metabolism is of fundamental importance for their more effective use or control. This project takes advantage of a fungus that is ....Global genetic regulation of carbon metabolism in filamentous fungi. Fungi are of great importance in medicine, agriculture and industry. They are used extensively for food, antibiotic and chemical production and, increasingly, for generating cheap substrates for bioethanol. However many are serious pathogens of plants and humans. Understanding how fungi control their metabolism is of fundamental importance for their more effective use or control. This project takes advantage of a fungus that is easily studied in the laboratory by advanced genetic techniques to identify the ways in which genes are turned on and off in response to changes in the nutrients available. By comparing DNA sequences the results are readily applied to fungi of economic importance.Read moreRead less
Using comparative genomics to identify genes responsible for adaptation to environmental toxins. The US National Human Genome Research Institute has committed to sequencing the genomes of ten different Drosophila (fly) species. We will search these genomes, and two others that are already available, for genes that allow flies to cope with environmental toxins found in the plants upon which they feed and breed. These same genes have the potential to degrade many of the insecticides used to con ....Using comparative genomics to identify genes responsible for adaptation to environmental toxins. The US National Human Genome Research Institute has committed to sequencing the genomes of ten different Drosophila (fly) species. We will search these genomes, and two others that are already available, for genes that allow flies to cope with environmental toxins found in the plants upon which they feed and breed. These same genes have the potential to degrade many of the insecticides used to control insect pests. Hence, this research will contribute to ongoing efforts to minimize the threat to agriculture posed by the insecticide resistance that frequently evolves in pest species. Read moreRead less
Mouse models for the identification of factors involved in muscle adaptation. The ability of muscle to adapt to meet functional demands is essential for mobility in normal daily life, in ageing well, in individuals with muscle diseases and nerve damage and in athletes. The ability of muscle to change its cellular composition is desirable for the livestock industry. Knowledge of how genes in muscle cells are regulated to adapt to demands has significant implications for public health and economic ....Mouse models for the identification of factors involved in muscle adaptation. The ability of muscle to adapt to meet functional demands is essential for mobility in normal daily life, in ageing well, in individuals with muscle diseases and nerve damage and in athletes. The ability of muscle to change its cellular composition is desirable for the livestock industry. Knowledge of how genes in muscle cells are regulated to adapt to demands has significant implications for public health and economic benefits. We have devised model systems that will allow us to identify the regulators of these genes in order to develop therapies to combat these changes in ageing and damaged muscle, to improve the quality of meat and optimise sport performance.Read moreRead less
The making of a sea shell: function and evolution of genes encoding calcareous architectures of phenomenal strength, purity and beauty. The mollusc shell is composed of microscopic layers of tabular calcium carbonate crystals and thin sheets of proteins with precise nanoscale architectures. This configuration produces a high-performance composite material that exceeds the present capabilities of human engineering. This integrated study will elucidate the molecular mechanisms controlling the fab ....The making of a sea shell: function and evolution of genes encoding calcareous architectures of phenomenal strength, purity and beauty. The mollusc shell is composed of microscopic layers of tabular calcium carbonate crystals and thin sheets of proteins with precise nanoscale architectures. This configuration produces a high-performance composite material that exceeds the present capabilities of human engineering. This integrated study will elucidate the molecular mechanisms controlling the fabrication of these architectures. This knowledge will contribute significantly to the development of materials for advanced electronics and energy transducers, human bone therapeutics and marine?based products such as pearls and cements, through the identification of genes underlying biofabrication networks and the development of in vitro bioproduction systems. Read moreRead less