Organic Chemistry

Jeffrey B. Schineller

My research interests encompass enzymology and design of enzyme inhibitors, bioluminescence, proteomics and identification of biomarkers, interspecies signaling mechanisms, and bacterial secondary metabolites. Current work includes the identification of proteins that bind bacterial quorum sensing signals, the use of proteomics techniques to identify biomarkers for exposure to environmental toxins.

Joshua Smith

Organometallic Aryne Chemistry

Attempts are being made to synthesize, and, perhaps, directly observe small aryns (e.g., benzyne) bound to the metals facially. These complexes are expected to open new routes to a new class of substituted aromatic metal complexes by reactions with nucleophiles and to allow novel entries into the synthesis of new and interesting bicyclic ring systems after trapping with dienes in situ.

Molecular Electronics

Kjirsten A. Wayman

My research focuses on plant secondary compounds to study chemotaxonomy and hybridization among related plant species. A current project uses gas chromatography – mass spectrometry to characterize the floral scent composition of western North American Trillium species. The composition of floral volatiles in Trillium is used to gain insight into their taxonomic relationships, hybridization, and pollination biology. Long-term studies of floral volatiles from select populations of Trilllium may also allow us to see how the plants respond to a changing climate and its effects.

Kimberly N. White

Dr. White's research interests focus on the extraction of small molecules from natural sources to provide answers to key scientific questions. One project involves the isolation of bioactive natural products from terrestrial and marine Gram negative bacteria, followed by structure elucidation and biological testing. Pharmaceuticals are often derived from or inspired by naturally occurring chemical structures. Bacteria are a proven source of chemical diversity with useful biological properties.