Discovery Early Career Researcher Award - Grant ID: DE150101863
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Strained alkenes as chemical probes for cysteine sulfenic acid. This project aims to introduce strained alkenes as probes for cysteine sulfenic acid, a poorly understood biomarker for oxidative stress. This probe will enable rapid detection of cysteine sulfenic acid and meet an urgent need for tools to map cysteine redox signalling. Moreover, since many enzymes feature a cysteine sulfenic acid at their active site, the strained alkene probes will also serve as useful inhibitor probes of these en ....Strained alkenes as chemical probes for cysteine sulfenic acid. This project aims to introduce strained alkenes as probes for cysteine sulfenic acid, a poorly understood biomarker for oxidative stress. This probe will enable rapid detection of cysteine sulfenic acid and meet an urgent need for tools to map cysteine redox signalling. Moreover, since many enzymes feature a cysteine sulfenic acid at their active site, the strained alkene probes will also serve as useful inhibitor probes of these enzymes. Such inhibitor probes will provide critical information for potential therapeutic applications in human conditions associated with oxidative stress such as ageing, cancer, and heart disease.Read moreRead less
Protein oxidation induced by singlet oxygen and peroxyl radicals and its consequences. Protein oxidation is a major problem in the food, agricultural, pharmaceutical industries and plays a role in human disease. These deleterious processes result in considerable economic and health care costs. Photo-oxidation and peroxyl radical reactions, with singlet oxygen and peroxides as key intermediates, appear to be especially damaging. Quantitative and mechanistic data will be generated on the role of r ....Protein oxidation induced by singlet oxygen and peroxyl radicals and its consequences. Protein oxidation is a major problem in the food, agricultural, pharmaceutical industries and plays a role in human disease. These deleterious processes result in considerable economic and health care costs. Photo-oxidation and peroxyl radical reactions, with singlet oxygen and peroxides as key intermediates, appear to be especially damaging. Quantitative and mechanistic data will be generated on the role of readily oxidised side-chains (tryptophan, tyrosine, histidine, cysteine, cystine and methionine) in protein fragmentation, aggregation and secondary reactions, arising from side-chain peroxides, peroxyl and alkoxyl radicals. Understanding the sites of damage and reaction mechanisms is critical to the prevention of these processes.Read moreRead less