This proposal uses the zebra fish system, which it is uniquely suited to investigate the regulation of disease genes. In all of these diseases preliminary work has already been performed and screening assays have been developed in a previous project (ZF-MODELS). In addition, the project will investigate genetic abnormalities of the eye and visual processing, genetic pathways underlying tissue regeneration and repair, and homologs of human genes related to diabetes and obesity, as well as infecti ....This proposal uses the zebra fish system, which it is uniquely suited to investigate the regulation of disease genes. In all of these diseases preliminary work has already been performed and screening assays have been developed in a previous project (ZF-MODELS). In addition, the project will investigate genetic abnormalities of the eye and visual processing, genetic pathways underlying tissue regeneration and repair, and homologs of human genes related to diabetes and obesity, as well as infectious disease and cancer. The Australian component will perform a systematic characterisation of enhancer elements of potential disease genes. This characterisation will build on the concept of genomic regulatory blocks (GRBs) which contain highly conserved non-coding elements (HCNEs) acting as long-range enhancers of developmental genes (recently discovered by T. Becker in the ZF-MODELS project).Read moreRead less
Use Of The Norfolk Island Genetic Isolate For Disease Gene Mapping
Funder
National Health and Medical Research Council
Funding Amount
$978,500.00
Summary
This gene mapping study will use a unique founder effect population to investigate two major public health disorders. We aim to identify genes that play a role in migraine and in cardiovascular disease, using a population from Norfolk Island. The Norfolk Island community is a population of ~1200 permanent residents, the majority of whom are direct descendents of 18th century English Bounty mutineers and Polynesian women. We will undertake a full genome scan to identify migraine gene loci and QTL ....This gene mapping study will use a unique founder effect population to investigate two major public health disorders. We aim to identify genes that play a role in migraine and in cardiovascular disease, using a population from Norfolk Island. The Norfolk Island community is a population of ~1200 permanent residents, the majority of whom are direct descendents of 18th century English Bounty mutineers and Polynesian women. We will undertake a full genome scan to identify migraine gene loci and QTL that influence cardiovascular disease using samples from this population isolate.Read moreRead less
Retroviral Expression Cloning Using An Arrayed Full Length CDNA Gene Set
Funder
National Health and Medical Research Council
Funding Amount
$1,841,500.00
Summary
The sequencing of the human genome has revealed the blueprint for life, but the identities and-or functions of the majority of genes remain unknown. Here we propose to establish a radically modified retroviral expression cloning system that will, in principle, allow identification of all genes that confer a particular dominant phenotype. To do this we will establish an arrayed retroviral library of sequence-verified genes covering the entire human transcriptome. This technology will be used to i ....The sequencing of the human genome has revealed the blueprint for life, but the identities and-or functions of the majority of genes remain unknown. Here we propose to establish a radically modified retroviral expression cloning system that will, in principle, allow identification of all genes that confer a particular dominant phenotype. To do this we will establish an arrayed retroviral library of sequence-verified genes covering the entire human transcriptome. This technology will be used to identify genes involved in a wide range of medically-important biological processes.Read moreRead less
Identifying Long-range Regulatory Elements Of The Breast Cancer Susceptibility Gene, BRCA1
Funder
National Health and Medical Research Council
Funding Amount
$612,842.00
Summary
BRCA1 is a breast cancer susceptibility gene implicated in both familial and sporadic breast cancers. The mechanisms controlling BRCA1 expression are poorly understood. We will identify DNA sequences critical for regulation of the BRCA1 gene. We hypothesise that these regions are mutational hot spots conferring an increased breast cancer risk. A better understanding of the pathways responsible for promoting BRCA1-associated breast cancer will provide important diagnostic and treatment targets.