Molecular Probes for Bio-Metals. The nutrient trace metals are essential to life. Problems with the metabolism of iron, copper and zinc are associated with neuro-degenerative diseases such as Alzheimer's, Parkinson's and CJD (Creutzfeldt-Jakob disease). This proposal will develop molecular probes for detection of iron, zinc, copper, manganese and nickel within biological cells. The work will allow examination of the molecular roles of these bio-metals in unprecedented detail and lead to a bette ....Molecular Probes for Bio-Metals. The nutrient trace metals are essential to life. Problems with the metabolism of iron, copper and zinc are associated with neuro-degenerative diseases such as Alzheimer's, Parkinson's and CJD (Creutzfeldt-Jakob disease). This proposal will develop molecular probes for detection of iron, zinc, copper, manganese and nickel within biological cells. The work will allow examination of the molecular roles of these bio-metals in unprecedented detail and lead to a better understanding of their roles in normal metabolism and in disease.Read moreRead less
Nanosized peptide nucleic acid - metal complex hybrids as catalysts for the cleavage of phosphate ester bonds in biological molecules. The information from Human Genome Project is being used to generate molecules with a variety of therapeutic and diagnostic applications. The capability to design, synthesise and manipulate functional molecules that mimic biological processes will underpin many emerging applications. In this project, macrocyclic metal complexes that catalyse the cleavage of phosph ....Nanosized peptide nucleic acid - metal complex hybrids as catalysts for the cleavage of phosphate ester bonds in biological molecules. The information from Human Genome Project is being used to generate molecules with a variety of therapeutic and diagnostic applications. The capability to design, synthesise and manipulate functional molecules that mimic biological processes will underpin many emerging applications. In this project, macrocyclic metal complexes that catalyse the cleavage of phosphate ester bonds in biological molecules will be developed. Active complexes will be incorporated into nanosized peptide nucleic acid (PNA) - metal complex hybrids and applied as artificial enzymes in the sequence specific cleavage of RNA and DNA. Novel applications of these ?artificial enzymes? in biotechnology are anticipated.Read moreRead less
Metal Clips for Folding Peptides. Large protein molecules fold into shapes that are important for their function. These shapes are defined by secondary structures stabilised by hydrogen bonds, packing effects, and sometimes also by the binding of metal ions. Smaller peptides corresponding to these secondary structures tend to adopt only random structures in solution, away from the stabilising environment of the protein. In this project metal ions are used to clip together components of small pe ....Metal Clips for Folding Peptides. Large protein molecules fold into shapes that are important for their function. These shapes are defined by secondary structures stabilised by hydrogen bonds, packing effects, and sometimes also by the binding of metal ions. Smaller peptides corresponding to these secondary structures tend to adopt only random structures in solution, away from the stabilising environment of the protein. In this project metal ions are used to clip together components of small peptides, thereby stabilising secondary structures (alpha helices) identical to those adopted by proteins. Small peptides so constrained may reproduce some properties of proteins, such as interactions with biological receptors.Read moreRead less