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Structures to Solve Conflicts of DNA Replication and RNA Transcription. This project aims to understand how new DNA is made so quickly and without mistakes in cells that are about to divide, in spite of competition from other processes happening at the same time on the DNA that should stop or interfere with it, such as the synthesis of RNA. The project expects to use the latest available methods to uncover what the microscopic natural machines that make DNA and RNA look like, and how they compet ....Structures to Solve Conflicts of DNA Replication and RNA Transcription. This project aims to understand how new DNA is made so quickly and without mistakes in cells that are about to divide, in spite of competition from other processes happening at the same time on the DNA that should stop or interfere with it, such as the synthesis of RNA. The project expects to use the latest available methods to uncover what the microscopic natural machines that make DNA and RNA look like, and how they compete with each other for access to DNA. Potential outcomes include the identification of processes that can be compromised by small molecules that may be developed into new antibiotics. This would be of great benefit - new antibiotics are urgently needed as one approach to countering the threat of antimicrobial resistance.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100780
Funder
Australian Research Council
Funding Amount
$455,237.00
Summary
Functional and structural dissection of the human replisome. This project aims to develop technology to visualise the structure and enzymatic activities of the human replisome, the multiprotein assembly that copies DNA before cell division. A combination of novel single-molecule and state-of-the-art cryo-electron microscopy will be used to define how the human replisome coordinates DNA synthesis during times of replication stress. Key outcomes of this project include development of novel molecul ....Functional and structural dissection of the human replisome. This project aims to develop technology to visualise the structure and enzymatic activities of the human replisome, the multiprotein assembly that copies DNA before cell division. A combination of novel single-molecule and state-of-the-art cryo-electron microscopy will be used to define how the human replisome coordinates DNA synthesis during times of replication stress. Key outcomes of this project include development of novel molecular visualisation technologies, leading to the first molecular description of dynamic processes used by the human replisome. Benefits include improved understanding of a fundamental biological process that often malfunctions in cancers, development of novel methodology, and interdisciplinary training.Read moreRead less
High-throughput single-molecule directed evolution. DNA polymerases are essential enzymes in many biotechnological tools, including DNA sequencing and PCR tests. However, existing DNA polymerases have limitations, resulting in inaccuracies and inefficiencies. Existing methods to improve polymerases lack sensitivity to screen for subtle, yet pivotal traits. This project aims to overcome this limitation by developing a new single-molecule directed-evolution system to evolve better polymerases. Wit ....High-throughput single-molecule directed evolution. DNA polymerases are essential enzymes in many biotechnological tools, including DNA sequencing and PCR tests. However, existing DNA polymerases have limitations, resulting in inaccuracies and inefficiencies. Existing methods to improve polymerases lack sensitivity to screen for subtle, yet pivotal traits. This project aims to overcome this limitation by developing a new single-molecule directed-evolution system to evolve better polymerases. With this new technology we aim to identify DNA polymerases with improved performance that benefit biotechnological applications. Additionally, these single-molecule directed-evolution methods will benefit the wider scientific community and lay the foundation for further advances in directed evolution.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100085
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Regional facility for macromolecular x-ray crystallography. This facility in the southern NSW/ACT region will allow research into structures of biological molecules. Research at the facility will contribute to advances in understanding of processes in living organisms, new drugs and new biotechnology with national and international significance.