Untangling environmental effects on bee health in the face of Varroa . This project aims to assess bee health, disease and evolution in European honeybees and bumblebees. Bee viruses transmitted by the destructive Varroa mite cause worldwide pollinator declines. Factors determining bee health will be identified across Australia, New Zealand and the United Kingdom, which differ in Varroa impact and bee introduction histories. Harnessing Australia’s currently threatened Varroa-free status, the bum ....Untangling environmental effects on bee health in the face of Varroa . This project aims to assess bee health, disease and evolution in European honeybees and bumblebees. Bee viruses transmitted by the destructive Varroa mite cause worldwide pollinator declines. Factors determining bee health will be identified across Australia, New Zealand and the United Kingdom, which differ in Varroa impact and bee introduction histories. Harnessing Australia’s currently threatened Varroa-free status, the bumblebee invasion in Tasmania, and cutting-edge multi-omics techniques (for microbiomes, viruses and genomes), predictors of disease dynamics will be identified for two globally important bee pollinators. The project outcomes will boost Australia's capacity to manage threats to pollination services at landscape scales.Read moreRead less
Is FGF21 the master regulator of protein intake? The project plans to bring together two major, rapidly growing disciplines – nutritional geometry and metabolic signalling – to address a topic of fundamental biological significance: the regulation of protein intake. A specific capacity to regulate protein intake has been shown for organisms spanning slime moulds to humans, yet the controlling mechanisms remain elusive. The project aims to test the hypothesis that fibroblast growth factor 21, rel ....Is FGF21 the master regulator of protein intake? The project plans to bring together two major, rapidly growing disciplines – nutritional geometry and metabolic signalling – to address a topic of fundamental biological significance: the regulation of protein intake. A specific capacity to regulate protein intake has been shown for organisms spanning slime moulds to humans, yet the controlling mechanisms remain elusive. The project aims to test the hypothesis that fibroblast growth factor 21, released from the liver under low protein nutrition, is a master regulator of protein intake. Understanding the mechanisms of protein appetite may have implications for organismal biology, understanding social interactions, the structure of food webs and the health and welfare of food and companion animals and humans.Read moreRead less
Discovering The Function And Structure Of RIO Kinases – Toward New Nematocides
Funder
National Health and Medical Research Council
Funding Amount
$545,477.00
Summary
This project is focused on: high quality fundamental molecular science, contributing to national objectives, including the development of novel and innovative scientific concepts and international collaborations; consolidating links between basic and applied research; enhancing the skills-base in molecular biology and global visibility of Australian science.
Investigating Post-transcriptional Gene Regulation In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$645,205.00
Summary
In this program, I will enhance our understanding of cancer gene regulation and provide novel avenues for the treatment of aggressive tumours. Using own data and that from collaborators, I will determine patterns of gene regulation in blood cancers and identify markers that predict disease outcome. I aim to understand how gene regulation can transform healthy cells into tumour cells and whether personalised treatment can kill tumour cells more effectively and prevent relapse and metastasis.
Resetting The Tipping Point: Converting Immune Checkpoint Non-responders Into Responders.
Funder
National Health and Medical Research Council
Funding Amount
$455,135.00
Summary
Although immunotherapy has recently shown a breakthrough in the treatment of lung cancers, with long-term full regression of the cancer in some patients, most patients unfortunately do not respond. In this proposal, we want to characterise the events that occur in a cancer that is cured by immunotherapy, while it regresses. By subsequently reinforcing those processes, we aim to tip the balance towards a response, thereby increasing the cure rate.
Integrated System Wide Characterization Of Microbiota And Host Factors Influencing Intestinal Colonization Resistance To The Healthcare Pathogen Clostridium Difficile
Funder
National Health and Medical Research Council
Funding Amount
$359,999.00
Summary
Naturally occurring bacteria play an important role in determining patient disease susceptibility, disease progression and ultimately, disease outcome. Over 1000 species of bacteria, contributing 10 times as many cells as found within a single individual. This project seeks to understand these communities, how they confer resistance to infection and how they can be manipulated, both naturally and through controlled introduction of bacteria to prevent disease or improve disease outcome.
ARC Centre of Excellence in Plant Cell Wall Biology. The ARC Centre for Plant Cell Wall Biology will define the regulatory mechanisms that control molecular, enzymic and cellular processes involved in the synthesis, deposition, re-modelling and depolymerisation of cell wall polysaccharides of cereals and grasses. Plant cell walls represent the world's largest renewable carbon resource, but the regulatory mechanisms responsible for their synthesis and assembly are not understood. Key distinguishi ....ARC Centre of Excellence in Plant Cell Wall Biology. The ARC Centre for Plant Cell Wall Biology will define the regulatory mechanisms that control molecular, enzymic and cellular processes involved in the synthesis, deposition, re-modelling and depolymerisation of cell wall polysaccharides of cereals and grasses. Plant cell walls represent the world's largest renewable carbon resource, but the regulatory mechanisms responsible for their synthesis and assembly are not understood. Key distinguishing features of the Centre will be the international, integrative, and multidisciplinary approach towards addressing major questions in plant biology, its strategy to leverage ARC funding, and its linkages with potential national and international end-users of the fundamental scientific discoveries.Read moreRead less
Transcription factor – enhancer – promoter based regulatory networks. This project aims to develop new understanding on how multicellular organisms (including humans) develop, and how mutations in distant regions of the genome can affect human traits. The way the human genome is interpreted by the cellular machinery is still a mystery. We have a reference sequence and know where the majority of coding genes are, but we are far from understanding how the genome is regulated to generate the divers ....Transcription factor – enhancer – promoter based regulatory networks. This project aims to develop new understanding on how multicellular organisms (including humans) develop, and how mutations in distant regions of the genome can affect human traits. The way the human genome is interpreted by the cellular machinery is still a mystery. We have a reference sequence and know where the majority of coding genes are, but we are far from understanding how the genome is regulated to generate the diversity of cell types in our bodies. Enhancer regions interact with proximal promoters to regulate gene expression level and tissue-specificity. This project aims to develop transcriptional regulatory network models using high throughput chromatin interaction data and expression perturbation to link promoter and enhancers genome-wide.Read moreRead less
An Integrative Approach To Define And Attenuate Genomic Risk Of Coronary Artery Disease
Funder
National Health and Medical Research Council
Funding Amount
$988,454.00
Summary
One in four individuals that have a heart attack do not have traditional risk factors such as high blood cholesterol levels. This highlights the importance of 'family history', which we can now quantify as 'genetic risk'. These studies will determine (i) which genes are important in contributing to this genetic risk (ii) how these genes change biological pathways to increase risk and (iii) the effectiveness of modulating these biological pathways to reduce the risk of heart disease.