In this talk I will provide several examples of photochemical reactions we used, or developed, to access a variety of structurally novel saturated heterocycles. Specifically, I will discuss our studies in the area of pyrrolinium photochemistry, the development of a Norrish-Yang reaction variant for accessing azetidines, and the photochemical decarbonylation of small heterocycles which give ylides (which react with pi systems).

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Abstract: The degradation of proteins is an essential cellular process. The proteasome, a multi-catalytic enzyme, is mainly responsible for degrading proteins that are no longer required by the cell. My lab has focused on the development of activity probes that can monitor real-time proteasome activity biochemically and in live cells. These probes can be applied in variety of analytical methods including confocal microscopy, flow cytometry, and fluorescent plate readers.

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In the past couple of decades, most of the research efforts of our group have been dedicated to the functionalization of non-activated C(sp3)–H and C(sp2)–H bonds using catalysis by palladium(0) complexes.1 In recent years, we have developed enantioselective versions of such reactions by employing different types of chiral catalysts (ancillary ligand,2 base3 or bifunctional system4), which enable the control of various stereogenic elements (center,5 axis,6 helix7).8 This lecture will present our latest results in this rapidly developing field.