Discovery Early Career Researcher Award - Grant ID: DE150100327
Funder
Australian Research Council
Funding Amount
$378,000.00
Summary
Does sex matter? The impact of sex differences on pathogen evolution. Males and females experience the burden of infection differently. Males are typically thought of as the 'sicker sex', favouring investment in costly sexual displays, at the expense of immune function. But what does this mean for the pathogen? Each sex presents a unique set of challenges that an invading organism must overcome; yet the impact of these differences on pathogen evolution has been surprisingly overlooked. This proj ....Does sex matter? The impact of sex differences on pathogen evolution. Males and females experience the burden of infection differently. Males are typically thought of as the 'sicker sex', favouring investment in costly sexual displays, at the expense of immune function. But what does this mean for the pathogen? Each sex presents a unique set of challenges that an invading organism must overcome; yet the impact of these differences on pathogen evolution has been surprisingly overlooked. This project aims to unravel how sex-specific challenges influence the outcome of pathogen evolution. This work will show how infection in males or females can alter the evolutionary potential of disease, and will ask whether same-sex populations could ever lead to the evolution of new pathogen strains and virulence genes.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100295
Funder
Australian Research Council
Funding Amount
$455,563.00
Summary
Unlocking the helminth ‘early infection gap’ using 3D cell culture models. This project aims to revolutionise the study of critical early host-parasite interactions using innovative 3D cell culture models, reducing our dependence on animal infections. Liver fluke is the most economically important zoonotic parasite of Australian livestock and is a significant contributor to global food insecurity. Due to the reliance of parasites on mammalian hosts to survive, very little is known about the earl ....Unlocking the helminth ‘early infection gap’ using 3D cell culture models. This project aims to revolutionise the study of critical early host-parasite interactions using innovative 3D cell culture models, reducing our dependence on animal infections. Liver fluke is the most economically important zoonotic parasite of Australian livestock and is a significant contributor to global food insecurity. Due to the reliance of parasites on mammalian hosts to survive, very little is known about the early infection process. Expected outcomes include new knowledge on key migratory stimuli and liver fluke biology. Benefits include the identification of drug targets and vaccine candidates for use in livestock via the development of animal-free in vitro screening platforms that will serve as a prototype for other parasites.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102821
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Molecular genetic adaptive processes in natural co-evolution between rabbits and the rabbit haemorrhagic disease virus. This project will use extensive sampling and long-term field data to reveal ongoing co-evolutionary mechanisms behind the increasing resistance of pest Australian wild rabbits against a viral pathogen. The results will increase the understanding of evolutionary mechanisms in nature and will provide basic information for biological pest control of rabbits.
Discovery Early Career Researcher Award - Grant ID: DE200100977
Funder
Australian Research Council
Funding Amount
$419,016.00
Summary
How ecology shapes the viromes of wild birds. This project will reveal the host factors associated with the diversity, evolution and dynamics of viruses using state-of-the-art metatranscriptomics in Australian wild birds. The structure of virus communities and their associated ecological drivers in wild animal hosts remain a black-box, even though they are the largest source of viral diversity in nature. This project expects to generate key insights into host-associated drivers of viral communit ....How ecology shapes the viromes of wild birds. This project will reveal the host factors associated with the diversity, evolution and dynamics of viruses using state-of-the-art metatranscriptomics in Australian wild birds. The structure of virus communities and their associated ecological drivers in wild animal hosts remain a black-box, even though they are the largest source of viral diversity in nature. This project expects to generate key insights into host-associated drivers of viral community dynamics and the subsequent effect of anthropogenic factors such as urbanisation and poultry production. Identifying host factors that affect viral ecology in wild birds will constitute a cornerstone in understanding the emergence of virulent viruses and/or their spread to poultry or humansRead moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100470
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Understanding mechanisms and functions of evolutionary divergence in innate immune genes. Microorganisms constantly challenge the immune systems of all multi-cellular organisms, and host immune genes must be able to co-evolve with microbes in order for a species to propagate. This project will investigate how host immune genes in a species evolve to enable that species to continue.
Discovery Early Career Researcher Award - Grant ID: DE120101470
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Using social network models to understand the factors driving parasite transmission in bettong populations. Parasitic diseases pose a significant threat to Australia's biodiversity. This project will apply the use of social networks models to understanding how different parasites are spread through endangered bettong populations.
Discovery Early Career Researcher Award - Grant ID: DE170101116
Funder
Australian Research Council
Funding Amount
$370,159.00
Summary
Adaptations in Tasmanian devil facial tumour disease. This project aims to understand how defence mechanisms against infectious diseases arise and evolve in nature. Infectious diseases exert strong evolutionary pressures on populations, forcing the development of adaptive strategies to fight the costs of infection. The project aims to determine individual differences in response to infection and how these affect population-scale transmission and evolutionary dynamics under natural and managed sc ....Adaptations in Tasmanian devil facial tumour disease. This project aims to understand how defence mechanisms against infectious diseases arise and evolve in nature. Infectious diseases exert strong evolutionary pressures on populations, forcing the development of adaptive strategies to fight the costs of infection. The project aims to determine individual differences in response to infection and how these affect population-scale transmission and evolutionary dynamics under natural and managed scenarios. This is expected to reveal populations’ adaptive capability and resilience against diseases and the effects of management interventions in controlling disease outbreaks and preventing population declines or extinctions.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100066
Funder
Australian Research Council
Funding Amount
$362,000.00
Summary
Uncovering how rust fungi cause devastating plant diseases. This project aims to generate a new understanding of how rust fungi infect plant cells using single-cell sequencing technologies and data-driven investigations. This project expects to discover conserved rust infection strategies and the first characterisations of mechanisms that transfer virulence proteins from the fungus to the plant. Innovations and new knowledge from this project will be of high-impact and of benefit to the Australi ....Uncovering how rust fungi cause devastating plant diseases. This project aims to generate a new understanding of how rust fungi infect plant cells using single-cell sequencing technologies and data-driven investigations. This project expects to discover conserved rust infection strategies and the first characterisations of mechanisms that transfer virulence proteins from the fungus to the plant. Innovations and new knowledge from this project will be of high-impact and of benefit to the Australian and international community through knowledge discovery about conserved rust infection mechanisms. This project expects to deliver strategies for effective rust disease management that will in the future lessen the impact of rust diseases on agriculture and natural ecosystems in Australia.Read moreRead less