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.
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.
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.
The Role Of UPF3B And Nonsense Mediated MRNA Decay Surveillance In The Pathology Of Intellectual Disability.
Funder
National Health and Medical Research Council
Funding Amount
$789,954.00
Summary
Proper functioning of the nonsense mediated mRNA decay (NMD or 'mRNA police') is crucial for any cell to ensure normal development and function. When NMD is compromised the outcome is learning and memory problems, autism or schizophrenia. Under this project we study malfunctioning NMD using stem and neuronal cells derived from patients' skin cells. Some of the affected genes might be considered for therapeutic interventions. NMD is relevant to 1000s of human disorders and as such it is of fundam ....Proper functioning of the nonsense mediated mRNA decay (NMD or 'mRNA police') is crucial for any cell to ensure normal development and function. When NMD is compromised the outcome is learning and memory problems, autism or schizophrenia. Under this project we study malfunctioning NMD using stem and neuronal cells derived from patients' skin cells. Some of the affected genes might be considered for therapeutic interventions. NMD is relevant to 1000s of human disorders and as such it is of fundamental importance.Read moreRead less
Development of Multilayered Packaging Materials with Controlled Barrier Properties. The project aims to develop advanced new material for multilayered packaging with high oxygen and moisture barrier properties for cost effective packaging applications. Poly Products currently imports and uses some polymer as its key component for controlling barrier property of their food packaging. However, the new nanostructured material when sandwiched between less expensive materials in a multilayered packag ....Development of Multilayered Packaging Materials with Controlled Barrier Properties. The project aims to develop advanced new material for multilayered packaging with high oxygen and moisture barrier properties for cost effective packaging applications. Poly Products currently imports and uses some polymer as its key component for controlling barrier property of their food packaging. However, the new nanostructured material when sandwiched between less expensive materials in a multilayered packaging film will yield excellent barrier properties, leading to extended shelf life of different food products. The new smart material will generate significant material saving and replace the imported polymer, and will secure export market of the product in Asia -Pacific region.Read moreRead less
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
Unusual trisulfide chemistry. This project aims to investigate the mechanism of an unexpected reaction of trisulfides with common amide-containing solvents. Specifically, these solvents (such as dimethylformamide) were discovered to cleave S-S bonds in trisulfides and related polysulfides. This project expects to generate new knowledge in the understanding of the reaction mechanism and then use that understanding for useful chemistry. Expected outcomes of this project include a mechanistic under ....Unusual trisulfide chemistry. This project aims to investigate the mechanism of an unexpected reaction of trisulfides with common amide-containing solvents. Specifically, these solvents (such as dimethylformamide) were discovered to cleave S-S bonds in trisulfides and related polysulfides. This project expects to generate new knowledge in the understanding of the reaction mechanism and then use that understanding for useful chemistry. Expected outcomes of this project include a mechanistic understanding of a new reaction, and the use of this chemistry in polymer synthesis and polymer recycling. This project should provide significant benefits in new knowledge, as well as support new strategies in polymer synthesis and recycling to benefit the environment.Read moreRead less