Discovery Early Career Researcher Award - Grant ID: DE190100304
Funder
Australian Research Council
Funding Amount
$416,092.00
Summary
Understanding intramolecular regulation of ubiquitin enzymes. This project aims to combine structural, biophysical and functional studies to characterise how ubiquitin enzymes are regulated. Ubiquitination controls essential cellular pathways in all eukaryotes and this project expects to generate new knowledge regarding the vital regulation of this process. This project expects to develop broadly applicable techniques for investigating protein conformation and self-association as a means of cont ....Understanding intramolecular regulation of ubiquitin enzymes. This project aims to combine structural, biophysical and functional studies to characterise how ubiquitin enzymes are regulated. Ubiquitination controls essential cellular pathways in all eukaryotes and this project expects to generate new knowledge regarding the vital regulation of this process. This project expects to develop broadly applicable techniques for investigating protein conformation and self-association as a means of controlling catalytic activity. The project should significantly increase understanding of several modes of regulation of ubiquitin ligase catalytic activity, and how this controls a myriad of cellular processes. The project will lay the foundation for applied research anti-viral compounds, plant anti-fungals and cancer therapies.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100668
Funder
Australian Research Council
Funding Amount
$422,574.00
Summary
Cysteamine dioxygenases: novel oxygen sensors implicated in hypoxia? This project aims to characterise and manipulate a novel oxygen sensing system, the cysteamine dioxygenases, to help understand how mammalian cells respond to low oxygen concentrations, a condition known as hypoxia. A number of the world’s most destructive diseases can impair oxygen delivery, altering biochemical landscapes. By understanding how cells respond to fluctuations in oxygen, the project expects to develop effective m ....Cysteamine dioxygenases: novel oxygen sensors implicated in hypoxia? This project aims to characterise and manipulate a novel oxygen sensing system, the cysteamine dioxygenases, to help understand how mammalian cells respond to low oxygen concentrations, a condition known as hypoxia. A number of the world’s most destructive diseases can impair oxygen delivery, altering biochemical landscapes. By understanding how cells respond to fluctuations in oxygen, the project expects to develop effective methods to treat these detrimental conditions. Characterisation of the cysteamine dioxygenases could establish a novel mechanism by which cells monitor changes in oxygen, assisting in understanding hypoxia and disease. The project will also enable new cysteine initiating substrates to be identified, allowing the full impact of this regulatory process to be appreciated in mammals.Read moreRead less