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Genome-level insight into the dynamics of a model coral microbiome. The aim of the project is to examine structural and functional microbiome dynamics in an ecologically important coral on the Great Barrier Reef along a natural temperature gradient. Microorganisms form an intimate symbiotic relationship with corals and are critical to their health. However, the microbiome can be disrupted by environmental perturbations, including higher-than-normal ocean temperatures, leaving the coral susceptib ....Genome-level insight into the dynamics of a model coral microbiome. The aim of the project is to examine structural and functional microbiome dynamics in an ecologically important coral on the Great Barrier Reef along a natural temperature gradient. Microorganisms form an intimate symbiotic relationship with corals and are critical to their health. However, the microbiome can be disrupted by environmental perturbations, including higher-than-normal ocean temperatures, leaving the coral susceptible to disease and bleaching. Currently, our understanding of how the microbiome composition and metabolic function change in response to seasonal temperature variation and disease is limited. This project is designed to provide insight into the role the microbiome plays in maintaining coral health and may aid in the long-term preservation of the reefs.Read moreRead less
Revealing the microbial process of iron-driven anaerobic ammonium oxidation. This project aims to gain fundamental understanding of the recently discovered microbially-facilitated process of anaerobic ammonium oxidation that is coupled to iron reduction. This process (called Feammox) is suggested to be responsible for significant nitrogen loss from soil and sediment ecosystems, resulting in pollution of the atmosphere and our water systems. In the project, the Feammox microorganisms will be enri ....Revealing the microbial process of iron-driven anaerobic ammonium oxidation. This project aims to gain fundamental understanding of the recently discovered microbially-facilitated process of anaerobic ammonium oxidation that is coupled to iron reduction. This process (called Feammox) is suggested to be responsible for significant nitrogen loss from soil and sediment ecosystems, resulting in pollution of the atmosphere and our water systems. In the project, the Feammox microorganisms will be enriched and characterised to reveal the metabolic details of the iron reduction and ammonium oxidation pathways. This will improve understanding of ecosystem nitrogen flux and benefit the management of nitrogen fertilizers used to meet the food and energy requirements of the world’s growing populations.Read moreRead less
Developing a chlamydial vaccine for koalas. Developing a chlamydial vaccine for koalas . This project aims to produce an optimised, safe, field-tested, protective Chlamydia vaccine for koalas. In many regions of Australia, Chlamydia infection severely reduces female koala reproductive rates, threatening the species’ long term survival. This project builds on work developing a prototype vaccine for koala Chlamydia, and intends to produce a vaccine ready for potential registration and use by koala ....Developing a chlamydial vaccine for koalas. Developing a chlamydial vaccine for koalas . This project aims to produce an optimised, safe, field-tested, protective Chlamydia vaccine for koalas. In many regions of Australia, Chlamydia infection severely reduces female koala reproductive rates, threatening the species’ long term survival. This project builds on work developing a prototype vaccine for koala Chlamydia, and intends to produce a vaccine ready for potential registration and use by koala care centres, wildlife hospitals and government departments.Read moreRead less
Special Research Initiatives - Grant ID: SR0354702
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Australian Microbial Resources Research Network. The Australian Microbial Resources Research Network will provide integrated access to Australian collections of microorganisms and electronic access to bioinformation databases to meet national strategic needs for microbiological resources and to support the competitive development of the life sciences and biotechnology industries in Australia. The network will promote collaborative interactions and accelerate the discovery of Australian microorg ....Australian Microbial Resources Research Network. The Australian Microbial Resources Research Network will provide integrated access to Australian collections of microorganisms and electronic access to bioinformation databases to meet national strategic needs for microbiological resources and to support the competitive development of the life sciences and biotechnology industries in Australia. The network will promote collaborative interactions and accelerate the discovery of Australian microorganisms and microbial genomic information for innovative biotechnology and create new opportunities for bioindustries. The Network will link researchers and foster the discovery and exploitation of Australian microbial resources and make these resources and associated information available for applications in research, industry and education.Read moreRead less
In situ remediation in mine site rehabilitation. In situ remediation in mine site rehabilitation. By enhancing and guiding abiotic and biotic processes of soil development, this project aims to accelerate the in situ remediation of bauxite residue (alumina refining tailings). Over 7 gigatonnes of tailings are produced globally every year, comprising complex mineral assemblages at extremes of pH and salinity with minimal biological activity. This project will build detailed knowledge on the chemi ....In situ remediation in mine site rehabilitation. In situ remediation in mine site rehabilitation. By enhancing and guiding abiotic and biotic processes of soil development, this project aims to accelerate the in situ remediation of bauxite residue (alumina refining tailings). Over 7 gigatonnes of tailings are produced globally every year, comprising complex mineral assemblages at extremes of pH and salinity with minimal biological activity. This project will build detailed knowledge on the chemical, physical, and biological properties of bauxite residue and apply this to develop field-scale in situ remediation strategies. This research will also advance understanding of soil development and primary succession of microbial communities in extreme, anthropogenic environments such as those presented by tailings.Read moreRead less
Development of a safe and immunogenic anti-chlamydia vaccine for the koala. Many koala populations are under threat of extinction from chlamydial disease.The project will develop a chlamydial vaccine and conduct trials in several wild koala populations for safety and effectiveness.
In vitro expression and crystallization of proteins from the thermohalophile, Halothermothrix orenii. The project proposal is to develop enabling state-of-the-art protein technologies for biotechnology. We will for the first time develop a rapid and high throughput technique for the expression, purification and crystallisation of proteins from the extreme thermohalophile, Halothermothrix orenii. This important break through in protein technology will assist in determining structure and function ....In vitro expression and crystallization of proteins from the thermohalophile, Halothermothrix orenii. The project proposal is to develop enabling state-of-the-art protein technologies for biotechnology. We will for the first time develop a rapid and high throughput technique for the expression, purification and crystallisation of proteins from the extreme thermohalophile, Halothermothrix orenii. This important break through in protein technology will assist in determining structure and function relationships of thermohalophilic proteins. It is expected that such an understanding together with comparative bioinformatics will assist researchers to develop "designer proteins" with improved functions for different uses in biotechnology. It is also expected that this technology will be amenable for use with other thermohalophilic microbes.Read moreRead less
Bacterial and host drivers of chlamydial blindness in koalas. Chlamydial infection of the eyes is a significant cause of disease and death in koalas, contributing to the ongoing decline of this native species. Little is known about what influences the outcome of these infections, challenging efforts to manage and control koala chlamydial blindness. This project aims to evaluate whether differences in the infecting Chlamydia pecorum strains or the koala immune response, are associated with the ou ....Bacterial and host drivers of chlamydial blindness in koalas. Chlamydial infection of the eyes is a significant cause of disease and death in koalas, contributing to the ongoing decline of this native species. Little is known about what influences the outcome of these infections, challenging efforts to manage and control koala chlamydial blindness. This project aims to evaluate whether differences in the infecting Chlamydia pecorum strains or the koala immune response, are associated with the outcome of chlamydial ocular infection. In addition to helping us to understand and prevent blindness in koalas, this project should significantly expand our knowledge of the koala immune system and generate an array of koala immunological assays, outcomes that may benefit all koala conservation efforts.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101563
Funder
Australian Research Council
Funding Amount
$365,058.00
Summary
The sweet road to synthesis of bacterial sugar structures. This project aims to characterise the synthesis pathways of nonulosonic acid sugars (NulOs) in bacteria using a combination of bioinformatics and experimental methodologies. Bacteria produce long chains of sugars or glycans on their cell surface known as capsules. These often contain important NulOs that can be uniquely harvested for use in the nutrition, cosmetic and bioremediation industries. By understanding the natural pathways of th ....The sweet road to synthesis of bacterial sugar structures. This project aims to characterise the synthesis pathways of nonulosonic acid sugars (NulOs) in bacteria using a combination of bioinformatics and experimental methodologies. Bacteria produce long chains of sugars or glycans on their cell surface known as capsules. These often contain important NulOs that can be uniquely harvested for use in the nutrition, cosmetic and bioremediation industries. By understanding the natural pathways of their synthesis, ‘glycans-by-design’ can be synthetically created with potent tailor-made properties. This project endeavours to examine how glycans with acidic sugars are produced to generate a fundamental understanding of sugar biology and create a database that will advance industrial applications in glycoengineering.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100248
Funder
Australian Research Council
Funding Amount
$368,600.00
Summary
Annotating unknown microbial gene functions with organic matter change. This project intends to develop a new method for determining the function of microbial genomes. Microbes are all pervasive on Earth. It is now possible to routinely sequence microbial genomes. However, the function of most genes encoded on these genomes remains elusive, severely limiting our understanding of most ecosystems. This project seeks to develop new methods to assign function to uncharacterised genes, by correlating ....Annotating unknown microbial gene functions with organic matter change. This project intends to develop a new method for determining the function of microbial genomes. Microbes are all pervasive on Earth. It is now possible to routinely sequence microbial genomes. However, the function of most genes encoded on these genomes remains elusive, severely limiting our understanding of most ecosystems. This project seeks to develop new methods to assign function to uncharacterised genes, by correlating changes in metabolite abundance with gene expression in a model permafrost thaw peatland. Determining the function of uncharacterised genes has widespread implications for microbial ecology and its numerous real-world applications, from determining soil greenhouse gas emissions to understanding human intestinal flora.Read moreRead less