About one in eight known genetic disorders involve DNA alteration that activates a cellular quality control mechanism that disables the affected gene. This mechanism is more efficient in some individuals than others. It can influence disease outcomes and severity. We will engineer and apply tools and models to measure and manipulate this crucial cellular mechanism. This will allow us to predict disease severity as well as to intervene where a manipulation of this mechanism will be beneficial.
Role Of The MiR-200 Target Quaking In Alternative Splicing During EMT And Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$443,160.00
Summary
The spread of cancer to other organs involves cancer cells changing to a more aggressive state and is a major cause of cancer related death. MicroRNAs are a class of genes that control whether cancer cells become more aggressive by regulating other genes. In this project we will examine the function of a new microRNA target which controls the cancer cell aggression. The outcome will be a better understanding of how cancers spread and the identification of new therapeutic targets.
Characterising Novel Alternative Splicing Networks That Promote Tumour Cell Plasticity
Funder
National Health and Medical Research Council
Funding Amount
$609,329.00
Summary
During cancer progression, tumour cells can change their properties and become more aggressive and resistant to therapies. We have identified an important regulator of this tumour cell transition, called “Quaking”, which causes widespread changes in gene splicing. We aim to investigate how "Quaking" causes changes in gene splicing and what the effects of these splicing changes are in tumour cells.
Inflammatory Pathways For Novel Therapeutic Interventions In Preterm Delivery
Funder
National Health and Medical Research Council
Funding Amount
$568,006.00
Summary
Preterm birth is common and carries severe risks for the child. Existing therapies are not very successful in arresting preterm labour or improving outcomes for the fetus. We have discovered that blocking inflammatory ‘sensor’ molecules can slow labour progression. This project will (1) increase our knowledge of the inflammatory pathways that initiate early labour, and (2) define the mechanism of action and safety of a new drug that has potential for delaying preterm birth in women.
Transport risk pathways for emerging invasive species. Our Australian economy depends on tourism and trade and this carries unavoidable risks for the introduction and establishment of new invasive pests and diseases. This project will build datasets from four real-world problem agenda in global invasion biology. Informed by these data, this project will develop and apply state-of-the-art mathematical transport models to predict the risks and frequency of future biological invasion events. The pr ....Transport risk pathways for emerging invasive species. Our Australian economy depends on tourism and trade and this carries unavoidable risks for the introduction and establishment of new invasive pests and diseases. This project will build datasets from four real-world problem agenda in global invasion biology. Informed by these data, this project will develop and apply state-of-the-art mathematical transport models to predict the risks and frequency of future biological invasion events. The project will contribute directly to safeguarding Australia from invasive pests and diseases.Read moreRead less