Synthetic Molybdenum Enzymes. This project aims to produce synthetic molybdenum (Mo) enzymes, small molecules that share structural and functional attributes with the crucially important molybdopterin?Mo enzymes. These ubiquitous enzymes are essential for plant and animal health, natural cycles involving carbon, nitrogen and sulfur, and global climate control and atmospheric albedo (reflectance); consequently, they impact heavily on commerce, the environment and society. The study will provid ....Synthetic Molybdenum Enzymes. This project aims to produce synthetic molybdenum (Mo) enzymes, small molecules that share structural and functional attributes with the crucially important molybdopterin?Mo enzymes. These ubiquitous enzymes are essential for plant and animal health, natural cycles involving carbon, nitrogen and sulfur, and global climate control and atmospheric albedo (reflectance); consequently, they impact heavily on commerce, the environment and society. The study will provide urgently needed insights into the fundamental Mo?sulfur chemistry of the enzyme active sites and inform efforts to reduce the negative impacts of enzyme dysfunction and the design of new commercial catalysts.Read moreRead less
Bioinorganic Chemistry of Molybdenum. Enzymes containing the trace element molybdenum play crucial roles in plant, animal and human health, drug metabolism, environmental processes and climate. This international, multidisciplinary project will advance our understanding of the structure and function of these enzymes at the atomic level and inform strategies to reduce the impact of crop, livestock and human diseases and adverse environmental (e.g. algal blooms, leaching of toxic arsenic) and clim ....Bioinorganic Chemistry of Molybdenum. Enzymes containing the trace element molybdenum play crucial roles in plant, animal and human health, drug metabolism, environmental processes and climate. This international, multidisciplinary project will advance our understanding of the structure and function of these enzymes at the atomic level and inform strategies to reduce the impact of crop, livestock and human diseases and adverse environmental (e.g. algal blooms, leaching of toxic arsenic) and climatic events. Effective strategies would be of enormous social and economic benefit to Australia. The training of skilled scientists and access to major overseas facilities are additional benefits of the project.Read moreRead less