I am a molecular geneticist with a main research focus in the identification and characterisation of genes and molecular pathways involved in intellectual disability and epilepsy.
Identifying The Critical Pathways Which Regulate Vertebrate Craniofacial Development
Funder
National Health and Medical Research Council
Funding Amount
$552,131.00
Summary
Understanding the genes which underlie human birth defects is of immense clinical importance. Our laboratory is a world-leader investigating a gene responsible for facial skeleton development, Grhl2. With our wide range of models, we will discover how Grhl2 works to ensure the face and skull develop properly during birth.
Improved theory and practice in econometric modelling of nonlinear spatial time series. Modern Australia faces many challenges in economic and global climate changes, which require advanced statistical technologies in modeling and forecasting of econometric spatial time series data. This project will provide flexible models and methods that enable practitioners to more accurately measure and manage economic and climatic risks.
Understanding The Causes Of Childhood Congenital Anomalies Of The Kidney And Urinary Tract
Funder
National Health and Medical Research Council
Funding Amount
$609,748.00
Summary
Congenital anomalies of the kidney and urinary tract (CAKUT) is a common cause of renal failure in children. The majority of patients with CAKUT do not know the underlying cause of their renal anomalies. In this proposal we will characterise the developmental events that are perturbed in three mouse models of CAKUT and identify the causal gene responsible in each mouse model. We will translate this information to the clinic by screening patients with CAKUT for mutations in these newly identified ....Congenital anomalies of the kidney and urinary tract (CAKUT) is a common cause of renal failure in children. The majority of patients with CAKUT do not know the underlying cause of their renal anomalies. In this proposal we will characterise the developmental events that are perturbed in three mouse models of CAKUT and identify the causal gene responsible in each mouse model. We will translate this information to the clinic by screening patients with CAKUT for mutations in these newly identified genes.Read moreRead less
Targeting Sphingosine Kinase 1 To Sensitise Acute Myeloid Leukaemia To BH3 Mimetic Therapy
Funder
National Health and Medical Research Council
Funding Amount
$670,005.00
Summary
Acute Myeloid Leukaemia (AML) patients are currently treated with chemotherapeutics and despite their success at achieving disease remission these responses are often short lived, resulting in relapse and death. We have identified sphingosine kinase 1 as a new drug target in AML. This proposal aims to examine the role of targeting sphingosine kinase 1 in combination with new targeted therapies in patient samples and preclinical mouse models of AML.
Cell type-specific transgene expression to increase Fe content in cereal grains. The grains industry forms a vital part of the Australian economy and farm sector. Increased iron concentrations of wheat and other cereal grains would greatly increase their nutritional value for people worldwide, thereby increasing their market value and profitability for farmers. High iron wheat would also lower the production costs of many Australian wheat products by reducing or eliminating the need for iron for ....Cell type-specific transgene expression to increase Fe content in cereal grains. The grains industry forms a vital part of the Australian economy and farm sector. Increased iron concentrations of wheat and other cereal grains would greatly increase their nutritional value for people worldwide, thereby increasing their market value and profitability for farmers. High iron wheat would also lower the production costs of many Australian wheat products by reducing or eliminating the need for iron fortification of wheat flour. High iron cereals promote healthy development of young Australians and can improve preventative healthcare by reducing the incidence of iron deficiency anaemia and biochemical deficiency.Read moreRead less
Cerebral Palsy (CP) is a devastating, common developmental brain disorder once assumed to be due to lack of oxygen at birth. Using our unique Biobank with DNA and clinical data from families with a CP child, we are examining the genetic origins of CP and how genes and risk factors in pregnancy contribute. We will use computer modelling and testing in animals and brain cells, to understand causes of CP and devise predictive, preventative and therapeutic strategies.
Neourobiology Of Human Epilepsy: Genes, Cellular Mechanisms,network And Whole Brain
Funder
National Health and Medical Research Council
Funding Amount
$17,652,824.00
Summary
The team is comprised of neurologists, molecular geneticists, physiologists and brain imaging specialists and leads the world in the discovery of the genetic causes of epilepsy. They will continue to identify genes underlying epilepsy and study how genetic variations result in development of seizures. Advanced brain imaging will be used to understand the effects of genetic variation on brain structure and function. This study may lead to new diagnostic methods and treatments for epilepsy.