Unravelling Gene Networks In Heart Development And Congenital Heart Disease
Funder
National Health and Medical Research Council
Funding Amount
$397,724.00
Summary
One in 100 Australian babies are affected by heart malformations. The heart is a complex organ and its formation is likewise orchestrated by a complex network of genes. As our current knowledge of this network is limited, I aim to employ cutting-edge bioinformatics approaches to draw a comprehensive picture of genes required to build a healthy heart and to reveal which gene interactions are altered in congenital heart disease, thereby opening new perspectives for network biology-based therapies.
The Genetic And Cellular Control Of Lymphangiogenesis In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$475,534.00
Summary
Lymphatic vessels and veins play major roles in cardiovascular disorders. In many vascular pathologies we need an ability to promote or restrict vessel formation. This research investigates the genes that control the development of new veins and lymphatic vessels. Outcomes will include a greater understanding of how our vasculature is formed, providing new knowledge that should contribute to future lymphatic and vascular therapeutic approaches.
The Ethics And Politics Of Pharmaceutical Innovation And Translation
Funder
National Health and Medical Research Council
Funding Amount
$476,728.00
Summary
I lead a research program on the ethics and politics of pharmaceutical innovation and translation: how medicines are developed, regulated, funded and taken up into practice. I aim to help policymakers to deal with conflicts among stakeholders. Over the next 4 years I will conduct a suite of research projects on topics of immediate significance to Australian policymakers; develop a new framework for pharmaceutical ethics and create a “Pharmaceutical Ethics and Politics Network.”
The Role Of The Zinc Finger Transcriptional Repressor Znf238 During Nerve Cell Maturation
Funder
National Health and Medical Research Council
Funding Amount
$394,264.00
Summary
Proper foetal brain assembly is critical for brain function, but the underlying genetic mechanisms remain poorly defined. In this study, I will investigate a family of proteins that “turn on” neural gene expression in combination with another protein that “turns off” their expression during nerve cell development. Understanding this novel on/off mechanism for controlling gene expression in newborn nerve cells will further our understanding of how the brain is assembled.