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Discovery Early Career Researcher Award - Grant ID: DE140101553
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
A flexible virus-like particle delivery platform for next-generation vaccines. Murine polyomavirus (MPyV) capsid proteins self-assemble into spherical protein shells approximately 45 nm in diameter. Such virus-like particles (VLPs) are of considerable interest as bionanotechnological tools. The unique flexibility provided by MPyV VLPs will be exploited by exploring the ability of the interior cavity to retain bioactive cargos while engineering novel functionality on the exterior surface by 'mix- ....A flexible virus-like particle delivery platform for next-generation vaccines. Murine polyomavirus (MPyV) capsid proteins self-assemble into spherical protein shells approximately 45 nm in diameter. Such virus-like particles (VLPs) are of considerable interest as bionanotechnological tools. The unique flexibility provided by MPyV VLPs will be exploited by exploring the ability of the interior cavity to retain bioactive cargos while engineering novel functionality on the exterior surface by 'mix-and-match' assembly of VLPs from modified components. As a proof of concept for next-generation vaccines that stimulate much needed, broadly protective responses against infectious diseases, model antigens will be delivered to specific immune cells using this nano-container.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100185
Funder
Australian Research Council
Funding Amount
$438,712.00
Summary
Decoding the evolution of killer T cell immunity across human lifetime. The immune system is a potent weapon for protection against pathogens. T cells have a central role as their receptors monitor the body for threats. The thymus (organ) educates receptors to discriminate between healthy and infected cells. Receptor diversity and T cell strength change throughout human life. This project aims to unravel how T cells gain and lose optimal receptors and strength. The aims are to understand 1) The ....Decoding the evolution of killer T cell immunity across human lifetime. The immune system is a potent weapon for protection against pathogens. T cells have a central role as their receptors monitor the body for threats. The thymus (organ) educates receptors to discriminate between healthy and infected cells. Receptor diversity and T cell strength change throughout human life. This project aims to unravel how T cells gain and lose optimal receptors and strength. The aims are to understand 1) The role of thymic education in diversifying receptors 2) Whether gradual loss of thymic education affects receptor diversity 3) The molecular mechanisms underlying T cell strength. The project is essential for understanding how optimal T cell immunity is formed, critical if we wish to harness this to improve healthy aging.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100121
Funder
Australian Research Council
Funding Amount
$452,824.00
Summary
Effects of environmental heat stress on male fertility in livestock species. This project aims to address the role of ambient heat stress in animal fertility by examining its mechanisms and developing treatments to alleviate its effects. Using an interdisciplinary approach that brings together veterinary sciences, reproductive biology, biochemistry and bioinformatics, the project expects to improve our understanding of how high environmental temperatures lead to reduced fertility, pregnancy loss ....Effects of environmental heat stress on male fertility in livestock species. This project aims to address the role of ambient heat stress in animal fertility by examining its mechanisms and developing treatments to alleviate its effects. Using an interdisciplinary approach that brings together veterinary sciences, reproductive biology, biochemistry and bioinformatics, the project expects to improve our understanding of how high environmental temperatures lead to reduced fertility, pregnancy loss and compromised inheritance in large animals, and to develop effective interventions. The resulting benefits include enhanced productivity and resilience of Australia’s livestock industries in the face of a changing climate.
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Discovery Early Career Researcher Award - Grant ID: DE210100705
Funder
Australian Research Council
Funding Amount
$462,948.00
Summary
Decoding the enigmatic biology of human gamma-delta T cells. The immune system surveys our body examining molecules that signal whether or not everything is ok. T cells are a central to this and use their receptors to monitor these molecular signals. A specialised subset of T cells known as gamma-delta T cells are critical to detecting infection and cancer, yet their fundamental biology is poorly understood. This project aims to unravel this elusive biology. The aims are to understand 1. The div ....Decoding the enigmatic biology of human gamma-delta T cells. The immune system surveys our body examining molecules that signal whether or not everything is ok. T cells are a central to this and use their receptors to monitor these molecular signals. A specialised subset of T cells known as gamma-delta T cells are critical to detecting infection and cancer, yet their fundamental biology is poorly understood. This project aims to unravel this elusive biology. The aims are to understand 1. The diversity in function between gamma-delta T cell subsets, and 2. The diversity in gamma-delta T cell receptors and the molecules that these receptors detect. This work is essential for understanding gamma-delta T cell immunology which is critical if we ultimately wish to harness this to improve human health.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100506
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Specialised ribosomes: An unexplored regulatory layer to tune the proteome. This project aims to decipher human ribosome composition across tissues and conditions, and regulate its composition and activity (selective translation of subsets of transcripts) in a tissue-dependent, spatial and temporal manner – a major challenge in biology. Although ribosomes have been historically thought of as uniform entities, recent evidence suggests that their composition might be regulated. Elevating the expre ....Specialised ribosomes: An unexplored regulatory layer to tune the proteome. This project aims to decipher human ribosome composition across tissues and conditions, and regulate its composition and activity (selective translation of subsets of transcripts) in a tissue-dependent, spatial and temporal manner – a major challenge in biology. Although ribosomes have been historically thought of as uniform entities, recent evidence suggests that their composition might be regulated. Elevating the expression of a target protein without affecting mRNA levels is expected to benefit other disciplines, including biotechnology (e.g. recombinant protein expression), biomedicine (e.g. treatment of a human disease by suppression or enhancement of the levels of key disease-related proteins) and synthetic biology.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101210
Funder
Australian Research Council
Funding Amount
$451,634.00
Summary
Deciphering molecular genetic mechanisms underlying chromatin interactions. This project aims to generate the high confidence map of enhancer-promoter links in 61 tissues and cells through robust integration of novel machine learning tools with genomic and epigenomic datasets. Understanding which key elements in the genome may be important to fine-tune gene expression is essential for understanding biological pathways. The expected outcomes include i) New tools to robustly identify true chromati ....Deciphering molecular genetic mechanisms underlying chromatin interactions. This project aims to generate the high confidence map of enhancer-promoter links in 61 tissues and cells through robust integration of novel machine learning tools with genomic and epigenomic datasets. Understanding which key elements in the genome may be important to fine-tune gene expression is essential for understanding biological pathways. The expected outcomes include i) New tools to robustly identify true chromatin pairs; ii) Comperehensive maps of regulatory interactomes in 61 tissues & cells, which will provide a roadmap for interpreting & prioritising noncoding variants.
This should provide significant benefit to Australia's capacity for cutting-edge genomics research through fundamental understanding of gene regulation mechanism.Read moreRead less