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| Physics Colloquium,
January 9, 2007
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Ultrafast Biological Dynamics at Atomic Scale
Dongping Zhong
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The Ohio State University, Departments of Physics, Chemistry, and Biochemistry
Biological dynamics is a complex process and the current challenge is to break down its complexity into elementary processes which act on different time scales and length scales. We integrate femtosecond spectroscopy, molecular biology techniques, and computational simulations to study functional evolution in real time and thus elucidate the complex dynamics with unprecedented detail. Here, two important biological systems, protein surface hydration and light-driven DNA repair, will be reported. With femtosecond temporal and single-residue spatial resolution, we are able to map out the global water motion in the hydration layer. The results reveal the ultrafast nature of surface hydration dynamics and provide a molecular basis for protein conformational flexibility, an essential determinant of protein function. For DNA repair, we followed the entire functional evolution through femtosecond synchronization. The results elucidate the crucial role of ultrafast dynamics in control of biological function efficiency and lay bare the molecular mechanism of DNA repair at atomic scale.
Dr. Zhong's Talk
Dr. Zhong's Web Site
4:00 p.m., Physics Research Building (PRB), Room 1080
Reception at 3:45 p.m., Atrium, PRB
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