Heparan sulphate mimetics: Versatile tools for chemical biology. This project aims to develop chemical tools to study heparan sulphate-binding proteins. Heparan sulphate is a complex polysaccharide that is ubiquitously expressed on mammalian cells and interacts with proteins to mediate numerous biological and pathological functions. These interactions are poorly understood. This project will use homogeneous, structurally defined compounds to study heparan sulphate and its binding partners in bio ....Heparan sulphate mimetics: Versatile tools for chemical biology. This project aims to develop chemical tools to study heparan sulphate-binding proteins. Heparan sulphate is a complex polysaccharide that is ubiquitously expressed on mammalian cells and interacts with proteins to mediate numerous biological and pathological functions. These interactions are poorly understood. This project will use homogeneous, structurally defined compounds to study heparan sulphate and its binding partners in biology. This is expected to lead to a better, molecular-level understanding of these fundamental processes, and may have future applications in biotechnology and drug development.Read moreRead less
Chemical proteomics: proteomics with no detection limit. Half of all drugs are derived from natural products, yet little is known about how most achieve their therapeutic action. This project aims to develop a methodology to rapidly uncover drug-protein interactions and pave the way for faster drug development and a better understanding of drug action.
Mitochondrially targeted anti-cancer drugs modulate the mitochondrial genome. Successful cancer management requires novel therapeutical approaches. This project will test the effect of a new class of compounds that target mitochondria, the powerhouse of the cells, where they suppress expression of mitochondrial genes. By this mechanism, cancers that are resistant to apoptosis induction can be inhibited.