An Indigenous Australian Reference Genome: Indigenous Inclusion In The Benefits Of Genomic Medicine
Funder
National Health and Medical Research Council
Funding Amount
$1,428,508.00
Summary
This project will establish an Indigenous Australian reference genome (the NCIGrg) within the National Centre for Indigenous Genomics (NCIG) using advanced genome sequencing technologies and data analytics and evaluate its research and clinical utility. The NCIGrg will be cornerstone of future genomic research and its clinical application in Indigenous communities. It will underpin NCIG’s commitment to ensuring that Indigenous Australians are included in the benefits of genomic medicine.
The Identification Of New Epilepsy Genes By Whole Genome Sequencing
Funder
National Health and Medical Research Council
Funding Amount
$1,069,803.00
Summary
Epilepsy is a common brain disorder affecting approximately 50 million people worldwide. The most common type of epilepsy is known as focal epilepsy. Our group has recently shown the importance of genetic mutations as causes of focal epilepsy. Using modern genomic technologies we will identify new genes in focal epilepsy. We will make animal models of these genes to better understand the pathobiology of epilepsy so that new treatments can be developed for patients.
Novel Skeletal Muscle Enriched Genes In Muscle Biology And Disease
Funder
National Health and Medical Research Council
Funding Amount
$900,467.00
Summary
Each year hundreds of Australians are born with genetic muscle diseases, however, current methods fail to identify the causative disease gene in ~50% of patients. Here we will use expression patterns in skeletal muscle to prioritize novel candidate disease causing genes. We will functionally test the role of genes expressed in skeletal muscle cells using novel experimental assays. Uniquely, we will for the first time incorporate a novel class of gene (long non-coding RNAs) into our study.
Determining Shared Genetic Control Of RNA Transcription Across 45 Human Tissue Types
Funder
National Health and Medical Research Council
Funding Amount
$264,684.00
Summary
There is strong evidence that much of the genetic susceptibility to disease acts through altering way genes are turned into proteins via RNA transcripts. One important problem in using transcriptomic data to study diseases is that the genetic control of RNA transcription is known to vary between tissues. This study will use new methods and RNA data from 45 human tissues to show the degree of common genetic control for each RNA transcript between each pair of tissues.
Investigating The Molecular Signature Of ASD Through Integrative Genomics
Funder
National Health and Medical Research Council
Funding Amount
$621,128.00
Summary
Autism is the most severe end of a spectrum of neurodevelopmental conditions, autism spectrum disorders (ASD). We have identified a signature of genes dysregulated in the brain of autistic individuals. The proposed project will investigate how the molecular signature of autism is regulated in the brain, and whether genetic variants in regulatory DNA contribute to the genetic architecture of ASD.