The major histocompatibility complex and scent-mediated mate choice in a Procellariiform, Gould's petrel. In Australia, there are 25 species of Procellariiformes listed as threatened or endangered under the Environment Protection and Biodiversity Conservation Act 1999. Formulating comprehensive conservation plans for endangered species requires a good understanding of the species' breeding biology yet virtually nothing is known about the mechanisms involved in mate choice in the procellariiforms ....The major histocompatibility complex and scent-mediated mate choice in a Procellariiform, Gould's petrel. In Australia, there are 25 species of Procellariiformes listed as threatened or endangered under the Environment Protection and Biodiversity Conservation Act 1999. Formulating comprehensive conservation plans for endangered species requires a good understanding of the species' breeding biology yet virtually nothing is known about the mechanisms involved in mate choice in the procellariiforms. A better understanding of the traits these long-lived birds use when choosing their lifelong breeding partner could greatly benefit conservation strategies designed to protect them. This could be particularly beneficial where translocation is an option because birds being translocated could be assessed for compatibility prior to translocation.Read moreRead less
Old genes learning new tricks: characterising regulatory changes driving increased heart complexity during vertebrate evolution. The heart has dramatically increased in morphological complexity during vertebrate evolution but the molecular basis driving these major changes remains unknown. Using comparative genomics approaches, this project will explore changes in the regulation of genes involved in heart formation that lead to changes in cardiac structure. It will elucidate for the first time t ....Old genes learning new tricks: characterising regulatory changes driving increased heart complexity during vertebrate evolution. The heart has dramatically increased in morphological complexity during vertebrate evolution but the molecular basis driving these major changes remains unknown. Using comparative genomics approaches, this project will explore changes in the regulation of genes involved in heart formation that lead to changes in cardiac structure. It will elucidate for the first time the cardiac regulatory repertoire in zebrafish and will compare it with that of fly and mouse using cutting-edge bioinformatics pipelines. This work will unravel cardiac-specific regulatory modifications that give rise to evolutionary changes. On a broader scale, it will shed new light on the role of regulatory innovations over gene innovations in the emergence of new traits.Read moreRead less
Insulin transport into the central nervous system. This project aims to understand transportation of peripheral insulin into the central nervous system and how it maintains energy balance. Insulin is essential for normal physiological functioning in the periphery and central nervous system, but some circumstances, including high-fat diets, reduce insulin signalling in the brain. This project examines the mechanisms of insulin transport into the central nervous system, and may improve our underst ....Insulin transport into the central nervous system. This project aims to understand transportation of peripheral insulin into the central nervous system and how it maintains energy balance. Insulin is essential for normal physiological functioning in the periphery and central nervous system, but some circumstances, including high-fat diets, reduce insulin signalling in the brain. This project examines the mechanisms of insulin transport into the central nervous system, and may improve our understanding of blood brain barrier insulin transport and dysfunction.Read moreRead less
How to build the head: A molecular mechanistic insight. This project aims to gain an insight into the functional output of the gene regulatory network and the molecular determinants that are critical for the formation of the head. Genome-wide sequencing technologies are employed to identify the ensemble of genes that are regulated by Lhx1. By a combination of bioinformatics analysis and a system biology approach, the project aims to build a model of the network of the interacting genes for head ....How to build the head: A molecular mechanistic insight. This project aims to gain an insight into the functional output of the gene regulatory network and the molecular determinants that are critical for the formation of the head. Genome-wide sequencing technologies are employed to identify the ensemble of genes that are regulated by Lhx1. By a combination of bioinformatics analysis and a system biology approach, the project aims to build a model of the network of the interacting genes for head development, and to characterise the function of selected components of this network to refine its architecture and define the dynamics of the network. The knowledge may improve our understanding of the molecular mechanism underpinning the naturally-occurring variation in the forms of major body parts, and of how genes and signals work cooperatively to build an embryo.Read moreRead less
Commensal benefits: genomic basis for suppressing plant pathogens with Pseudomonas biocontrol species. Food security is an issue of mounting significance due to unpredictable climate trends and increasing global population growth. A feature of paramount importance to reliable crop production is the capacity to control plant diseases. This project investigates natural plant colonising bacteria as a tool for protecting plants from disease.
The role of dopamine in the regulation of worker sterility in the honey bee. This project will open new doors into the knowledge of honey bees' sterility. We will not only show that certain genes control honey bee sterility but also that there is interactions between these genes and environmental cues such as the pheromones released by the queen. The project will provide significant material for a better understanding of honey bees society. Honey bees remain the most important pollinator world w ....The role of dopamine in the regulation of worker sterility in the honey bee. This project will open new doors into the knowledge of honey bees' sterility. We will not only show that certain genes control honey bee sterility but also that there is interactions between these genes and environmental cues such as the pheromones released by the queen. The project will provide significant material for a better understanding of honey bees society. Honey bees remain the most important pollinator world wide, and their conservation is a major concern both to agriculturalists and the general public. The project will be of immense scientific interest, and likely to be regarded as a major breakthrough. The project will also foster a strong intellectual collaboration between New Zealand and Australia.Read moreRead less
The importance of phenotypic plasticity in maintaining and introducing variation. This research is a synthesis of behaviour, natural and sexual selection, physiology, and natural and breeding ecology-important interactions that are rarely considered simultaneously in biology. It will contribute to our understanding of life-history decisions, and a long-neglected source of the variation that is the raw material for adaptation and for economically-important breeding programs . These results will h ....The importance of phenotypic plasticity in maintaining and introducing variation. This research is a synthesis of behaviour, natural and sexual selection, physiology, and natural and breeding ecology-important interactions that are rarely considered simultaneously in biology. It will contribute to our understanding of life-history decisions, and a long-neglected source of the variation that is the raw material for adaptation and for economically-important breeding programs . These results will have far-reaching implications for economically-important improvements to medicine, conservation, and crop and livestock production. This work will strengthen Australia's strong research profile in evolutionary genetics, physiology and ecology.Read moreRead less
Heads or tails - which did echinoderms lose in the evolution of radial symmetry? Echinoderms, despite their unusual radial body plan, are closely related to chordates, but it is not known how this plan evolved. This project uses gene expression studies with uniquely suited Australian species to identify genes involved in radial body plan development and generate insights into origins of chordates and the vertebrate central nervous system (CNS).
Discovery Early Career Researcher Award - Grant ID: DE160100755
Funder
Australian Research Council
Funding Amount
$371,000.00
Summary
Evolution of genome architecture. The project aims to understand how changes to genome architecture over evolutionary time are linked to the diversity of animal morphology. Our genome sequence is arranged into higher order structures that enable coordinated gene expression. The appropriate expression of genes in time and space is necessary to produce the multitude of cell types that make up a multicellular organism. Yet, to date, genome topology is poorly explored, especially between species. Th ....Evolution of genome architecture. The project aims to understand how changes to genome architecture over evolutionary time are linked to the diversity of animal morphology. Our genome sequence is arranged into higher order structures that enable coordinated gene expression. The appropriate expression of genes in time and space is necessary to produce the multitude of cell types that make up a multicellular organism. Yet, to date, genome topology is poorly explored, especially between species. The project involves comparisons of the 3D structure of genomes in divergent species. These findings are expected to inform the underlying principles of gene regulation in animals and species evolution.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100130
Funder
Australian Research Council
Funding Amount
$850,000.00
Summary
Systems biology: New generation DNA sequencing to functional analysis. The technique of DNA sequencing (or 'reading' the lines of the four repeating letters that make up the genetic code) illustrates how technological developments have become the main drivers in exploring the roles of genetic factors across a spectrum of research activities. Funding provided through this ARC grant will allow the purchase of the latest DNA sequencing platform, the Illumina Solexa, as well as equipment that will b ....Systems biology: New generation DNA sequencing to functional analysis. The technique of DNA sequencing (or 'reading' the lines of the four repeating letters that make up the genetic code) illustrates how technological developments have become the main drivers in exploring the roles of genetic factors across a spectrum of research activities. Funding provided through this ARC grant will allow the purchase of the latest DNA sequencing platform, the Illumina Solexa, as well as equipment that will be used to understand the biological function of the DNA sequencing results that are obtained. The equipment will allow Australian researchers to compete on an equal footing with the international leaders in understanding the roles played by genes in plants, microorganisms, animals and humans.Read moreRead less