Molecular mechanisms for copper trafficking across membranes. Copper is a trace metal that is essential for all forms of life, however it is toxic in excess. Tightly controlled protein-based metalloregulatory systems are responsible for copper uptake and homeostasis in all cells. Components of these systems are integral membrane transport proteins, which include the Ctr proteins that are solely responsible for copper uptake into eukaryotic cells. This project aims to define the molecular mechani ....Molecular mechanisms for copper trafficking across membranes. Copper is a trace metal that is essential for all forms of life, however it is toxic in excess. Tightly controlled protein-based metalloregulatory systems are responsible for copper uptake and homeostasis in all cells. Components of these systems are integral membrane transport proteins, which include the Ctr proteins that are solely responsible for copper uptake into eukaryotic cells. This project aims to define the molecular mechanisms by which the Ctr proteins transport copper across eukaryotic cell membranes, by solving their three-dimensional structures by X-ray crystallography.Read moreRead less
Biologically inert probes to unravel nutrient directed cellular processing . In this project we will develop novel compounds that can act as probes of the pathways present in cells for the uptake of nutrients and other essential molecules and show how to generate new agents for identifying and targeting specific populations of cells. The project will generate new tools for understanding biological processes including cell transport and processing. The insights gained from this work are expected ....Biologically inert probes to unravel nutrient directed cellular processing . In this project we will develop novel compounds that can act as probes of the pathways present in cells for the uptake of nutrients and other essential molecules and show how to generate new agents for identifying and targeting specific populations of cells. The project will generate new tools for understanding biological processes including cell transport and processing. The insights gained from this work are expected to help guide the development of new agents for selectively delivering imaging and biologically active agents to cells.Read moreRead less