BEGIN:VCALENDAR BEGIN:VEVENT DTSTART:20161028T140000Z DTEND:20161028T153000Z SUMMARY:OCCI Lecture Series: Professor Rebecca Jockusch DESCRIPTION:New Tools to Probe Biomolecules in Minimalist Environments Professor Rebecca Jockusch Department of Chemistry University of Toronto Abstract: The function of biological molecules is dependent on properties including biomolecular structure, stability, dynamics and interactions. While the complexity of the native environment is desirable for function, isolation of biological molecules from their normal environment provides valuable simplification, allowing study of their intrinsic properties. My research program combines trapping mass spectrometry with optical spectroscopic techniques in order to characterize properties of biomolecules and their complexes in a highly-controlled gas-phase environment. In particular, we are pursuing the use of fluorescence and fluorescence resonance energy transfer (FRET) techniques to probe the conformation of relatively large gaseous ions and complexes. Here, I present results from FRET experiments on the B1 domain of protein G (GB1) after it was transferred into the gas phase using electrospray ionization (ESI). Energy transfer measurements of isolated GB1 show a marked decrease in the FRET efficiency with increasing number of charges on the gaseous protein, which suggests a Coulombically driven unfolding and expansion of its structure. This lies in stark contrast to the pH stability of GB1 in solution and highlights the importance of solvent effects in maintaining the protein fold. I will also discuss some of our recent work benchmarking the intrinsic (gas-phase) photophysical properties of ionic dyes that are commonly used in chemistry and the biosciences and examining how these properties are modulated by specific molecular interactions. Together, this work forms a basis from which to better understand how noncovalent interactions, including those with the solvent, affect the properties of molecules ranging in size from small organic dyes to proteins. LOCATION:208 Tory Building, Carleton University, 1125 Colonel By Dr, Ottawa, ON K1S 5B6 URL: END:VEVENT END:VCALENDAR