Effector Export In P. Falciparum Infected Human Erythrocytes
Funder
National Health and Medical Research Council
Funding Amount
$1,066,920.00
Summary
We will investigate malaria, a parasitic disease that kills over 450,000 people a year. We will explore how the parasite identifies, invades and remodels the host cells in which it lives, scavenging nutrients and hiding from the immune system. We will characterize the proteins involved in these critical events, as they are potential targets for drugs. We will study how parasites cause disease and how the host responds to infection.
Functional Analysis Of The Toxoplasma Myosin Driving Tissue Dissemination And Host Cell Invasion
Funder
National Health and Medical Research Council
Funding Amount
$763,241.00
Summary
The single-celled parasite Toxoplasma gondii is the cause of Toxoplasmosis and is an important basis of eye disease, congenital birth defects and illness in immunocompromised individuals. To perpetuate infection T. gondii moves through tissue and invades host cells using a molecular motor, termed the 'glideosome'. We will reveal how the glideosome produces the force required for movement and characterise its critical features. Our work will provide a foundation in which to model novel drugs that ....The single-celled parasite Toxoplasma gondii is the cause of Toxoplasmosis and is an important basis of eye disease, congenital birth defects and illness in immunocompromised individuals. To perpetuate infection T. gondii moves through tissue and invades host cells using a molecular motor, termed the 'glideosome'. We will reveal how the glideosome produces the force required for movement and characterise its critical features. Our work will provide a foundation in which to model novel drugs that could be designed to treat Toxoplasmosis.Read moreRead less
Biology and evolution of intracellular parasitism. This project will investigate the development of intracellular parasitism in environmental amoebae. The outcomes of this work will help to understand the mechanisms by which bacteria have evolved to survive inside cells and in some cases cause disease.
Evolution And Function Of A Novel Lateral Flagellar Locus, Flag-2, In Pathogenic Escherichia Coli
Funder
National Health and Medical Research Council
Funding Amount
$465,158.00
Summary
This project will study how the bacteria that cause infant diarrhoea colonize the intestine and induce disease. We have identified a novel genetic region that allows E. coli to survive and persist in the intestine. Similar genes are also present in closely related organisms. This project will help us to undestand how new diseases evolve and emerge and may lead to the development of new vaccines to protect against infant diarrhoea.
Nucleomodulin effectors of the environmental pathogen Legionella. This project aims to examine the evolution of Legionella as an intracellular organism and the mechanisms by which the bacteria evade environmental predation by amoebae. Aside from the advancement of knowledge, expected outcomes of this project include a greater understanding of amoebae. This will provide significant benefits, and this knowledge may be used to develop inhibitors of amoebae growth.
Linking sex-specific adaptation to the evolution of infectious disease. This project aims to examine how differences in the response of males and females to pathogen attack can influence the evolution of infectious disease. This project expects to generate new knowledge in the area of host-pathogen co-evolution, by integrating approaches from the fields of evolutionary genetics, sexual selection, and epidemiology. Expected outcomes include an enhanced capacity to build interdisciplinary collabor ....Linking sex-specific adaptation to the evolution of infectious disease. This project aims to examine how differences in the response of males and females to pathogen attack can influence the evolution of infectious disease. This project expects to generate new knowledge in the area of host-pathogen co-evolution, by integrating approaches from the fields of evolutionary genetics, sexual selection, and epidemiology. Expected outcomes include an enhanced capacity to build interdisciplinary collaborations and development of theory that predicts infection dynamics in any species with separate sexes. This is expected to provide significant benefits, such as improving our knowledge of why the sexes differ and potentially providing new avenues for understanding disease outbreaks and preventing population declines or extinctions.Read moreRead less
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
Barrett's oesophagus (BO) is a condition that arises in some patients with chronic reflux (heartburn) and increases the risk of developing cancer of the oesophagus. However, the exact mechanisms involved in its development are unknown. This project aims to investigate how a protein called sonic hedgehog might be involved using novel cell culturing techniques that allow us to model the growth of oesophageal tissue in the laboratory. This could lead to development of new therapies for treating BO.
Cracking the code of snails to elucidate parasite disease transmission. In Australia, a disease caused by liver flukes causes major economic losses to livestock production. The role of Australian pond snails as intermediate hosts for this parasite is poorly understood. This project aims to explore the phylogeography, biology and genomics of these snails. It expects to create novel molecular resources for important snail species and verify their roles as key vectors of flatworm parasites. The cur ....Cracking the code of snails to elucidate parasite disease transmission. In Australia, a disease caused by liver flukes causes major economic losses to livestock production. The role of Australian pond snails as intermediate hosts for this parasite is poorly understood. This project aims to explore the phylogeography, biology and genomics of these snails. It expects to create novel molecular resources for important snail species and verify their roles as key vectors of flatworm parasites. The curation of genomic and transcriptomic data sets, and elucidation of snail–parasite interactions will underpin the development of environmental diagnostic tests and deliver a new generation of intervention strategies to reduce the burden of liver fluke disease through the control of their snail intermediate hosts.Read moreRead less
Sugar transporters in coral symbiosis and origin of parasitism. We aim to identify how symbiotic algae feed sugar to their coral hosts. Corals need this algal sugar to exist, but no one knows how it is transferred, so understanding this crucial mechanism is hugely significant. The first benefit of this research will be a fundamental understanding about how two organisms (algae and coral) cooperate to build habitats like the Great Barrier Reef. We also aim to explore whether coral/algal coopera ....Sugar transporters in coral symbiosis and origin of parasitism. We aim to identify how symbiotic algae feed sugar to their coral hosts. Corals need this algal sugar to exist, but no one knows how it is transferred, so understanding this crucial mechanism is hugely significant. The first benefit of this research will be a fundamental understanding about how two organisms (algae and coral) cooperate to build habitats like the Great Barrier Reef. We also aim to explore whether coral/algal cooperation paved the way for the origin of parasitism. The second key outcome will be to identify the precise molecular mechanism that allowed parasitism to arise. This will benefit us through understanding the origins of important diseases such as human malaria and related infections of livestock and wildlife.
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