Pathways That Regulate Nuclear Export Of Circular RNA
Funder
National Health and Medical Research Council
Funding Amount
$933,327.00
Summary
An emerging and unusual class of RNA molecules, circular RNAs (circRNAs), is widespread and plays important roles in cancer initiation and progression. However, the pathways responsible for nuclear export of circRNAs are unknown. We propose here to systematically determine how circRNAs are exported from the nucleus and characterise the effect of modulating circRNA export pathways in cancer. This will enable us to determine whether circRNAs can function as a biomarker of patient response.
Understanding The Role Of Circular RNAs In Neuronal Biology Using RNA-targeting CRISPR/Cas9
Funder
National Health and Medical Research Council
Funding Amount
$398,097.00
Summary
The regulation of gene expression through a process known as RNA splicing has been shown to be at the heart of a number of processes required for brain development, memory and learning, and is often dysregulated in a number of neurological diseases. Circular RNAs (circRNAs) have been recently shown to be a relatively abundant class of spliced RNA that are specifically enriched in brain tissue. In this project, I aim to understand the roles of circRNAs in neuronal development.
A New Function For Histone Variants In The Tissue-specific Regulation Of Pre-mRNA Splicing
Funder
National Health and Medical Research Council
Funding Amount
$657,224.00
Summary
It is estimated that greater than 90% of human genes undergo alternative RNA splicing, which can explain how protein diversity is achieved with a limited number of genes. However, how alternative splicing patterns are established remains poorly understood but is an important question given that 15-50% of human disease mutations are associated with changes to the splicing patterns of RNA. We have uncovered a new splicing mechanism, which involves changing the way DNA is packaged in a cell.
Mechanisms And Patterns Of Post-Transcriptional Gene Control
Funder
National Health and Medical Research Council
Funding Amount
$707,370.00
Summary
Genetic information resides in the DNA of our genome; however, to use this information it must be transcribed into chemically related RNA molecules, collectively known as the transcriptome. While different body cells carry the same genome, they differ widely in their transcriptome composition. To understand how cells properly utilise their transcriptomes we will characterise the marks and binding partners found on RNA in the context of cardiac and cancer biology.
Molecular Basis For RIG-I Like Receptor Activation Of The Innate Immune Pathway.
Funder
National Health and Medical Research Council
Funding Amount
$564,770.00
Summary
This project is to understand how proteins in the cell detect the presence of invading viruses, and pass on the message for the cell to produce defence molecules. The overproduction of these defence molecules can lead to inflammatory diseases. This research will help us to understand the process of the innate immune response in cells and how we might control it in disease states.
MRNA Surveillance In Human Genetic Disease: Molecular Determinants Of Nonsense-mediated MRNA Decay
Funder
National Health and Medical Research Council
Funding Amount
$371,275.00
Summary
In about 1/3 of inherited disorders the mutations introduce an abnormal stop signal into the gene so that cells risk producing truncated or erroneous proteins. To prevent this cells have developed control surveillance mechanisms called Nonsense Mediated mRNA Decay (NMD). We have found a new form of NMD and our studies are directed determining how this works in cells, which genes use this pathway, and the consequences of this for human genetic disease.
Do Transcription Factor-RNA Interactions Represent A New Mechanism Of Gene Regulation?
Funder
National Health and Medical Research Council
Funding Amount
$704,242.00
Summary
The aim of this proposal is to investigate the mechanisms through which genes are switched on and off. We hypothesise that transcription factors, a set of proteins that contacts DNA to regulate genes, can also interact with a separate class of molecules known as RNA. An understanding of how genes are switched on and off is central to devising strategies for fighting many diseases in a rational way. Our work will have implications for biotechnology and gene therapy.
An unusual type of molecule, circular RNA, was recently discovered to be present in human cells, and to potentially affect the ability of cancer cells in invade and metastasise. We will investigate the interactions these circular RNA molecules have with other molecules, what functions they have, and how they affect cancer cell invasion and metastasis. This could potentially reveal new ways of intervening in cancer metastasis, leading to new therapeutic modalities for cancer patients.
Formation And Function Of Circular RNAs In Human Cells
Funder
National Health and Medical Research Council
Funding Amount
$602,906.00
Summary
Circular RNA molecules were recently found to be present in human cells, but their functions are largely unknown.We have discovered that the production of circular RNAs is changed during the differentiation process known as epithelial to mesenchymal transition, which is linked to cancer metastasis. We will investigate the functions of circRNAs, how their formation is controlled, and whether the circRNAs have a role in cancer progression.