Discovering genes which modify human physical performance: a means of developing healthier life styles & novel athletic training programs. The aim of this multicentred study (University of Sydney, Australian National University, Australian Institute of Sport) is to find genes in the cardiac and musculoskeletal systems that are involved in modifying human physical performance. From this knowledge, it is proposed to develop novel physical training programs in our national sporting institutions ba ....Discovering genes which modify human physical performance: a means of developing healthier life styles & novel athletic training programs. The aim of this multicentred study (University of Sydney, Australian National University, Australian Institute of Sport) is to find genes in the cardiac and musculoskeletal systems that are involved in modifying human physical performance. From this knowledge, it is proposed to develop novel physical training programs in our national sporting institutions based on an individual's genetic information. In the broader community, knowledge of genes which contribute to the normal and healthy functioning of the cardiac and musculoskeletal systems will be invaluable in understanding and preventing breakdowns in these body systems.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668440
Funder
Australian Research Council
Funding Amount
$850,000.00
Summary
Advanced technology for transcriptomics, genomics and gene mapping. Acquistion of the equipment requested in this application will maintain the expertise developed by researchers within New South Wales and attract and retain exceptional individuals who can contribute to our understanding of how genes interact with one another. The benefit of such an enhances facility will be the delivery of a better functional understanding of health and disease which will provide both community and national be ....Advanced technology for transcriptomics, genomics and gene mapping. Acquistion of the equipment requested in this application will maintain the expertise developed by researchers within New South Wales and attract and retain exceptional individuals who can contribute to our understanding of how genes interact with one another. The benefit of such an enhances facility will be the delivery of a better functional understanding of health and disease which will provide both community and national benefits. The primary purpose of this LIEF application is to standardize approaches to the study of genome function across the nodes of the Ramaciotti facility and to expand the capacities of the facility to cope with the increased demand in this technology. Read moreRead less
Special Research Initiatives - Grant ID: SR0354500
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
ARC Research Network in Microarray Technology. The primary aim of this proposal is to transform the premier genomic technology into a standard research tool; microarrays are now a priority for anyone studying the genetics underlying key biological processes. A principal challenge for the Australian research community is to capture all aspects of microarray technology and make them readily available. We will address these needs by developing a network to:
-establish regular research meetings,
- ....ARC Research Network in Microarray Technology. The primary aim of this proposal is to transform the premier genomic technology into a standard research tool; microarrays are now a priority for anyone studying the genetics underlying key biological processes. A principal challenge for the Australian research community is to capture all aspects of microarray technology and make them readily available. We will address these needs by developing a network to:
-establish regular research meetings,
-facilitate training in array methodologies and bioinformatics,
-co-ordinate innovation of technologies,-provide centralised data warehousing,
-provide access to automated high-level gene annotation,
-provide data mining tools,
-set standards for data management and exchangeRead moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560714
Funder
Australian Research Council
Funding Amount
$509,131.00
Summary
Phenotype genotype comparisons using functional genomic approaches. The Ramaciotti Centre for Gene Function Analysis comprises a multi-node network across the state of NSW involving 4 major universities. Using the resources of the Centre, over 100 researchers are undertaking projects comparing genotypes and phenotypes utilising state-of-art genomic based strategies comprising microarrays and SNP analysis. This application will further expand the resources available to researchers with the additi ....Phenotype genotype comparisons using functional genomic approaches. The Ramaciotti Centre for Gene Function Analysis comprises a multi-node network across the state of NSW involving 4 major universities. Using the resources of the Centre, over 100 researchers are undertaking projects comparing genotypes and phenotypes utilising state-of-art genomic based strategies comprising microarrays and SNP analysis. This application will further expand the resources available to researchers with the addition of: (1) Affymetrix based chip microarrays; (2) Options for setting up SNP analysis for both high throughput, and medium throughput analyses and (3) Expanding the robotics options available throught the Centre.Read moreRead less
An epigenetic basis for foetal programming. The social and economic impact of adult-onset diseases such as diabetes, hypertension and atherosclerosis is increasing. Evidence indicates that a mother's nutrition influences the risk of her children developing some diseases later in life. This proposal aims to elucidate the mechanism underlying this phenomenon. By understanding the mechanism through which maternal nutrition affects disease risk, we may make it possible to design early diagnosis and ....An epigenetic basis for foetal programming. The social and economic impact of adult-onset diseases such as diabetes, hypertension and atherosclerosis is increasing. Evidence indicates that a mother's nutrition influences the risk of her children developing some diseases later in life. This proposal aims to elucidate the mechanism underlying this phenomenon. By understanding the mechanism through which maternal nutrition affects disease risk, we may make it possible to design early diagnosis and intervention strategies. Our work may suggest intervention strategies - such as supplementation of at-risk mothers with key molecules such as methyl donors - during foetal and early postnatal life, which could be key to preventing premature morbidity and mortality.Read moreRead less
Linking mutant zebrafish phenotypes with their underlying genetic lesions. Zebrafish mutants have been generated with many interesting abnormalities, but to understand these abnormalities, the defective genes must be identified by positional cloning. We seek to identify the defective genes underpinning four mutants. Mutant #562 develops a normal nervous system which then undergoes rapid degeneration. The mutant flotte lotte has abnormal gut development. Two mutants with defective early blood for ....Linking mutant zebrafish phenotypes with their underlying genetic lesions. Zebrafish mutants have been generated with many interesting abnormalities, but to understand these abnormalities, the defective genes must be identified by positional cloning. We seek to identify the defective genes underpinning four mutants. Mutant #562 develops a normal nervous system which then undergoes rapid degeneration. The mutant flotte lotte has abnormal gut development. Two mutants with defective early blood formation will be studied. We will establish techniques for several steps that will be useful for all zebrafish mapping projects. We expect the genetic characterization of these mutants to provide new insights into nerve cell survival, gut development, and blood formation.Read moreRead less
Discovery and characterization of new classes of small regulatory RNAs in mammals. The project will reaffirm and enhance Australian leadership in the most rapidly developing area of molecular biological and genetic research, by the application of ultra high-throughput sequencing technologies to discovery of regulatory RNAs, thereby to identify the characteristics of important regulatory pathways that underpin mammalian development, brain function and species diversity. The results of this resear ....Discovery and characterization of new classes of small regulatory RNAs in mammals. The project will reaffirm and enhance Australian leadership in the most rapidly developing area of molecular biological and genetic research, by the application of ultra high-throughput sequencing technologies to discovery of regulatory RNAs, thereby to identify the characteristics of important regulatory pathways that underpin mammalian development, brain function and species diversity. The results of this research will have wide implications and applications in biotechnology, genetic engineering, animal breeding, medical science and advanced informatics.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775587
Funder
Australian Research Council
Funding Amount
$532,000.00
Summary
Correlating Genomics and Proteomics for Systems Biology: integrating the '-omics'. Acquisition of the infrastructure requested will maintain and extend the expertise developed by researchers in NSW and will allow retention and attraction of leading researchers who can contribute to understanding how genes and proteins interact in the development of the organism - the central focus of systems biology. The enhancement of the facility will allow a better understanding of biomolecular interactions ....Correlating Genomics and Proteomics for Systems Biology: integrating the '-omics'. Acquisition of the infrastructure requested will maintain and extend the expertise developed by researchers in NSW and will allow retention and attraction of leading researchers who can contribute to understanding how genes and proteins interact in the development of the organism - the central focus of systems biology. The enhancement of the facility will allow a better understanding of biomolecular interactions in health and disease, providing both community and national benefits. The focus of this LIEF application is to provide infrastructure platforms for the study of the systems biology of organisms and additional capacity by the facility for the expected increased demand for this technology in this new area. Read moreRead less
Molecular control of embryonic patterning: The function of Rhou gene in mediating response to WNT signalling. The scientific knowledge gained from this investigation of the early development of embryos will inform us of how the essential building blocks of the body are assembled, and provide insights into the genetic and developmental causes of birth defects. This will benefit the health professionals, the research community, the education sector and the general public, by underpinning the form ....Molecular control of embryonic patterning: The function of Rhou gene in mediating response to WNT signalling. The scientific knowledge gained from this investigation of the early development of embryos will inform us of how the essential building blocks of the body are assembled, and provide insights into the genetic and developmental causes of birth defects. This will benefit the health professionals, the research community, the education sector and the general public, by underpinning the formulation of new research hypotheses, enriching the curriculum and the provision of informed counselling. The embryological expertise developed for this project will enhance the nation's research capability through the sharing of skills and knowledge with a national network of academic and industrial research teams. Read moreRead less
The genetics of social regulation of reproduction in honey bees. The aim is to characterise the genes that regulate worker reproduction in honeybees and to understand how the effects of these genes are regulated by the social environment. There is an inherent conflict between the interests of each worker (that can increase its biological fitness by laying eggs) and the collective workers (that are disadvantaged by their half sister's reproduction). How sterility is normally maintained in socia ....The genetics of social regulation of reproduction in honey bees. The aim is to characterise the genes that regulate worker reproduction in honeybees and to understand how the effects of these genes are regulated by the social environment. There is an inherent conflict between the interests of each worker (that can increase its biological fitness by laying eggs) and the collective workers (that are disadvantaged by their half sister's reproduction). How sterility is normally maintained in social insects remains an important unsolved mystery of biology. To solve this mystery we will use genomic techniques characterize the genes that control sterility and show how they are regulated by the social environment.Read moreRead less