Statistical Methods for Next Generation Genome-Wide Association Studies. This project aims to develop cutting-edge statistical methods to analyse large genomic datasets and identify genetic variants associated with inter-individual differences in various human traits. Knowledge of trait-associated DNA variants is instrumental in understanding how natural selection has shaped human traits. By integrating genomic data from diverse and underrepresented populations, this project further expects to c ....Statistical Methods for Next Generation Genome-Wide Association Studies. This project aims to develop cutting-edge statistical methods to analyse large genomic datasets and identify genetic variants associated with inter-individual differences in various human traits. Knowledge of trait-associated DNA variants is instrumental in understanding how natural selection has shaped human traits. By integrating genomic data from diverse and underrepresented populations, this project further expects to contribute to the equitable use of genomic technologies in humans, regardless of geographical origins. Expected outcomes of this research include novel analysis methods and software tools, which should broadly and significantly benefit gene discovery in other species, including those of agricultural relevance.Read moreRead less
Genomic Control of Human Complex Trait Variation. This project aims to address knowledge gaps in our understanding of the genetic and environmental control of complex human trait variation. This project will use innovative approaches that combine molecular genomic information with data from large biobank sized cohorts to generate new knowledge of the mechanisms underlying ancestral and sex differences in humans. Expected outcomes include the development of novel methods for the integrative analy ....Genomic Control of Human Complex Trait Variation. This project aims to address knowledge gaps in our understanding of the genetic and environmental control of complex human trait variation. This project will use innovative approaches that combine molecular genomic information with data from large biobank sized cohorts to generate new knowledge of the mechanisms underlying ancestral and sex differences in humans. Expected outcomes include the development of novel methods for the integrative analysis of genomic data and building Australia’s capacity in a highly demanded field, ensuring the capability to realise the translation of this knowledge to positively impact society and human well-being.Read moreRead less
How is the blood cell population size controlled? Macrophage-like cells are an ancient animal blood cell lineage critically important for development, immunity, and homeostasis. This fellowship seeks to reveal the genes and control mechanisms used by animals to achieve an optimally-sized army of these cells - to contain threats for survival upon infection, heal following acute stress exposures, or for development, ongoing maintenance, and repair of wear and tear. By marrying the genetic tractabi ....How is the blood cell population size controlled? Macrophage-like cells are an ancient animal blood cell lineage critically important for development, immunity, and homeostasis. This fellowship seeks to reveal the genes and control mechanisms used by animals to achieve an optimally-sized army of these cells - to contain threats for survival upon infection, heal following acute stress exposures, or for development, ongoing maintenance, and repair of wear and tear. By marrying the genetic tractability of the model organism Drosophila and its simple, yet conserved blood cell system, this project will yield new insights into the mechanisms that govern the animal blood cell population. This will benefit our fundamental understanding of how animals maximise their health throughout life.Read moreRead less