Christopher Hulme, PhD, focuses on small molecule drug design and developing enabling chemical methodologies to expedite the drug discovery process. Target families of particular current interest for the group are kinases, protein-protein interactions and emerging DNA receptors for indications in oncology. Such efforts are highly collaborative in nature and students will be exposed to the full array of design hurdles involved in progressing molecules along the value chain to clinical evaluation. These efforts will be aided by the group’s interest in both microwave assisted organic synthesis (MAOS) and flow chemistry. Both technologies enable ‘High-throughput Medicinal Chemistry’ (HTMC) and will be supported by similar High-throughput Purification capabilities.The group also has a long standing interest in the development of new reactions that produce biologically relevant molecules in an efficient manner. Front loading screening collections with molecules possessing high ‘iterative efficiency potential’ is critical for expediting the drug discovery process. The discovery of such tools that perturb cellular systems is of high value to the scientific community and may be facilitated by rapid forays into MCR space that can produce a multitude of novel scaffolds with appropriate decoration for evaluation with a variety of different screening paradigms.Novel hypervalent iodine mediated C-H activation methodologies is also an active area of interest. Probing the scope of the transformation below and investigating applications toward the synthesis of new peptidomimetics will be an additional pursuit in the Hulme group.