The ecological dynamics of secreted bacteriocins and the evolution of multiple bacteriocin production in Escherichia coli. Bacteria produce compounds known as bacteriocins that are toxic to other microorganisms. The success of bacteria as bio-control agents and in probiotic formulations for the control microbial pathogens is, in part, due to bacteriocins. Bacteriocins may also have a role as replacements for traditional antibiotics and as natural food preservatives. The potential usefulness of b ....The ecological dynamics of secreted bacteriocins and the evolution of multiple bacteriocin production in Escherichia coli. Bacteria produce compounds known as bacteriocins that are toxic to other microorganisms. The success of bacteria as bio-control agents and in probiotic formulations for the control microbial pathogens is, in part, due to bacteriocins. Bacteriocins may also have a role as replacements for traditional antibiotics and as natural food preservatives. The potential usefulness of bacteriocins as the active agent in bio-control agents, as antibiotic replacements, as food preservatives, and as part of the repertoire of traits in probiotic formulations requires a sound understanding of the eco-evolutionary dynamics of bacteriocins. Understanding the ecology and evolution of bacteriocins is the goal of the proposed research.Read moreRead less
The Cytochrome P450 Gene Super-family in Drosophila melanogaster; Gene Function and Insecticide Resistance. The cytochrome P450 (Cyp) gene super-family is represented by over 90 sequences in the genome of the vinegar fly, Drosophila melanogaster. To date, four Cyp genes are found to be involved in insecticide resistance. The function of the majority of Cyp genes is unknown. This project will investigate the function and regulation of D. melanogaster Cyp genes, linking the fly's genotype to its ....The Cytochrome P450 Gene Super-family in Drosophila melanogaster; Gene Function and Insecticide Resistance. The cytochrome P450 (Cyp) gene super-family is represented by over 90 sequences in the genome of the vinegar fly, Drosophila melanogaster. To date, four Cyp genes are found to be involved in insecticide resistance. The function of the majority of Cyp genes is unknown. This project will investigate the function and regulation of D. melanogaster Cyp genes, linking the fly's genotype to its phenotype. By studying the effects of Cyp genes on fly survival, Cyp gene expression and regulation, and expressing selected Cyp genes in a yeast expression system, we will enhance our understanding of Cyp gene function and evolution.Read moreRead less
Does size really matter? Selection, constraints and allometry. Australia is internationally recognized for its strong performance in evolutionary biology and quantitative genetics. This study contributes to the advancement of these fields. It is explicitly designed to create selection lines that can be used by developmental biologists, physiologists, geneticists and endocrinologists. This will strengthen links between institutes within Australia and internationally and later allow more applied q ....Does size really matter? Selection, constraints and allometry. Australia is internationally recognized for its strong performance in evolutionary biology and quantitative genetics. This study contributes to the advancement of these fields. It is explicitly designed to create selection lines that can be used by developmental biologists, physiologists, geneticists and endocrinologists. This will strengthen links between institutes within Australia and internationally and later allow more applied questions to be asked. Although this study addresses a basic research question, it uses techniques and statistics that are integral to work selecting for improvement of commercial crops and animals. It therefore provides valuable training opportunities for an essential part of Australia's agricultural sector.Read moreRead less
The mechanism of water splitting in photosynthesis. Sunlight reaching the earth is used by the vast body of plants and algae living in surface waters and on the land to drive photosynthesis. One of the most fundamental contributions that photosynthesis provides to the Biosphere is the gaseous oxygen produced by its water-splitting chemistry - ~300 gigatons of O2 are released into the atmosphere per year. However, the mechanism behind water-splitting is not precisely known. We will use a range o ....The mechanism of water splitting in photosynthesis. Sunlight reaching the earth is used by the vast body of plants and algae living in surface waters and on the land to drive photosynthesis. One of the most fundamental contributions that photosynthesis provides to the Biosphere is the gaseous oxygen produced by its water-splitting chemistry - ~300 gigatons of O2 are released into the atmosphere per year. However, the mechanism behind water-splitting is not precisely known. We will use a range of unique experimental approaches to determine the molecular mechanism of the photosynthetic water-splitting chemistry. The understanding of this reaction will provide the molecular blueprint for the development of efficient biocatalysts to generate H2 and O2 from water.Read moreRead less
Evolvability and the Evolution of Complexity. Anyone engaging in a moment's reflection on the striking richness, diversity, and complexity of the biological world is faced with the question: how did it get here? Though natural selection is central to answering this question, important new work has identified various conditions that make some lineages of organisms "evolvable": capable of changing in ways that radically expand the range of further possible changes. This project will clarify and in ....Evolvability and the Evolution of Complexity. Anyone engaging in a moment's reflection on the striking richness, diversity, and complexity of the biological world is faced with the question: how did it get here? Though natural selection is central to answering this question, important new work has identified various conditions that make some lineages of organisms "evolvable": capable of changing in ways that radically expand the range of further possible changes. This project will clarify and integrate these various conditions using empirical examples and simple models. The resulting work from this project will provide a clearer general understanding of what biological complexity is, and how science has compelling candidates for understanding how it evolves.Read moreRead less
The contribution of South Asia to the peopling of Australasia. This project focuses on the human fossil record from three regions critical to understanding the origins of our species, Homo sapiens. Australia is crucial in view of its diverse array of "gracile" and "robust" human remains of Late Pleistocene/early Holocene age. Equally important are South and Southeast Asia as they lined the tropical route between Africa, our species' Late Pleistocene homeland according to the Out of Africa theory ....The contribution of South Asia to the peopling of Australasia. This project focuses on the human fossil record from three regions critical to understanding the origins of our species, Homo sapiens. Australia is crucial in view of its diverse array of "gracile" and "robust" human remains of Late Pleistocene/early Holocene age. Equally important are South and Southeast Asia as they lined the tropical route between Africa, our species' Late Pleistocene homeland according to the Out of Africa theory, and Australia. Osteological and archaeological evidence of the selection pressures that operated on earlier hunter-gatherers will be employed to explain the observed patterns of morphological evolution throughout the study region.Read moreRead less
The Flores hobbit - Homo floresiensis or microcephalic eastern Indonesian? The hobbit is so controversial as it implies that a tiny hominin with a miniature brain coexisted for 30,000 years with modern humans in our region. This would have immense, fundamental implications for understanding the human colonisation of our region and the role of brain size in human evolution. Our research will determine whether the alternative explanation of microcephalic pathology is viable. If so the hobbit would ....The Flores hobbit - Homo floresiensis or microcephalic eastern Indonesian? The hobbit is so controversial as it implies that a tiny hominin with a miniature brain coexisted for 30,000 years with modern humans in our region. This would have immense, fundamental implications for understanding the human colonisation of our region and the role of brain size in human evolution. Our research will determine whether the alternative explanation of microcephalic pathology is viable. If so the hobbit would still be of unique signficance as the only known microcephalic hunter-gatherer who had survived to adulthood. The role of Australian scientists in spearheading the hobbit discovery places a high priority on resolving the debate objectively.Read moreRead less
The Evolution of Embodied Intelligence. The aim of the project is to write a collaborative monograph that integrates the recent development in cognitive science of alternatves to classical cognitivism with recent developments in evolutionary biology. Those developments include in particular the recognition of the importance both of non-genetic inheritence and of the role agents play in constructing their own environments. The monograph will argue that these evolutionary processes are of particul ....The Evolution of Embodied Intelligence. The aim of the project is to write a collaborative monograph that integrates the recent development in cognitive science of alternatves to classical cognitivism with recent developments in evolutionary biology. Those developments include in particular the recognition of the importance both of non-genetic inheritence and of the role agents play in constructing their own environments. The monograph will argue that these evolutionary processes are of particular importance in human evolution, and they are the key to explaining how it is that humans are simulataneously encultured beings and biological agents.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100096
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
A unique soft matter high-performance scanning probe microscopy (HP-SPM) facility. Soft matter research touches every aspect of our lives as it covers materials from the range of plastics found in cars, television sets and other mass-manufactured products, to new medical materials for tissue engineering and sensors. The proposed facility will enable Australia's leading scientists in this area to understand better how soft matter, including both biological and new advanced soft materials, behave ....A unique soft matter high-performance scanning probe microscopy (HP-SPM) facility. Soft matter research touches every aspect of our lives as it covers materials from the range of plastics found in cars, television sets and other mass-manufactured products, to new medical materials for tissue engineering and sensors. The proposed facility will enable Australia's leading scientists in this area to understand better how soft matter, including both biological and new advanced soft materials, behaves on the nano-scale level. This will put Australian researchers and engineers in a leading position for developing new treatments against cancer and other diseases, as well as harnessing the power of biology for application in areas such as waste treatment and energy production.Read moreRead less
Design and Synthesis of Photoactive Peptides Based on Photosynthetic Reaction Centres. The aim of this proposal is to generate new and useful electron transfer components for biotechnological applications. We plan to design and synthesize artificial photoactive peptides inspired from natural photosynthetic reaction centres which capture the energy of light and convert it into usable forms of chemical energy. Our research will provide the ground work for the development of light-driven oxidation- ....Design and Synthesis of Photoactive Peptides Based on Photosynthetic Reaction Centres. The aim of this proposal is to generate new and useful electron transfer components for biotechnological applications. We plan to design and synthesize artificial photoactive peptides inspired from natural photosynthetic reaction centres which capture the energy of light and convert it into usable forms of chemical energy. Our research will provide the ground work for the development of light-driven oxidation-reduction catalysts that can be used in the production of clean fuels and chemical products.Read moreRead less