• 커뮤니티
  • 세미나/콜로퀴움
세미나/콜로퀴움

PHYSICS/BK21 SEMINAR [4.29]

본문

 

Structural Dynamics in Solution Probed by Time-Resolved

X-ray Solution Scattering (Liquidography)”

 

* Speaker : Dr. Hyotcherl Ihee [Department of Chemistry, KAIST]

* Place  : Physics Seminar Room (Science Bldg, 3-201)

   * Date & Time : Apr, 29 (Thu)  4:00 ~ 5:00 pm

 

l  Abstract

Solution-phase reactions are complex due to the interactions between solutes and solvents. Tracking time-dependent processes in such reactions is often accomplished by time-resolved spectroscopy. However, detailed structural information such as bond lengths and angles of reaction intermediates is not directly

accessible because spectroscopic signals utilizing light in the range from ultraviolet to infrared are generally not a direct function of the molecular structure. In addition, a spectroscopic signal can be sensitive to only a particular species, leaving the possibility that optically silent intermediates escape detection. These shortcomings have been overcome by the advent of time-resolved X-ray solution scattering (TRXSS). The principle, experimental technique, data analysis, and applications of TRXSS will be described. Using ultrashort optical pulses to trigger a reaction in solution and detecting time-resolved X-ray diffraction signals to interrogate the molecular structural changes, TRXSS can provide direct structural information generally difficult to extract from ultrafast optical spectroscopy such as the temporal progression of bond lengths and angles of all molecular species including short-lived intermediates over a wide range of times, from picoseconds to milliseconds.

TRXSS elegantly complements ultrafast optical spectroscopy because diffraction signals are sensitive to all chemical species simultaneously and the diffraction signal from each chemical species can be quantitatively calculated from its three-dimensional atomic coordinates and compared with experimental TRXSS data.

Application examples on spatiotemporal kinetics and structural dynamics of a halomethane, a triatomic molecule, haloethanes, and an organometallic catalyst are presented. In addition, we demonstrate tracking of proteins structural changes in solution using TRXSS. TRXSS permitted us to investigate the tertiary/quaternary conformational change of human hemoglobin in nearly physiological conditions triggered by laser induced ligand photolysis. Data on optically induced tertiary relaxations of myoglobin and refolding of cytochrome c are also reported to illustrate the wide applicability of the technique. By providing insights into the structural dynamics of proteins functioning in their natural environment, TRXSS complements and extends results obtained with time-resolved spectroscopy and X-ray crystallography.

[1] Ihee, H., Acc. Chem. Res., 42, 356-366 (2009).

[2] Cammarata, M. et al., Nature Methods, 5, 881 (2008)

[3] Lee, J. H. et al., J. Am. Chem. Soc., 130, 5834 (2008)

[4] Kong, Q. et al., Angew. Chem. Int. Ed., 47, 5550 (2008)

[5] Lee, J. H. et al., Angew. Chem. Int. Ed., 47, 1047 (2008)

[6] Kong, Q. et al., J. Am. Chem. Soc., 129, 13584 (2007)

[7] Kim, T. K. et al., Proc. Natl. Acad. Sci., 103, 9410 (2006)

[8] Lee, J. H. et al., J. Chem. Phys., 125, 174504 (2006)

[9] Ihee, H. et al., Science, 309, 1223 (2005)

 

Contact Person : Prof. Han Woong  YEOM (054-279-2091, yeom@postech.ac.kr )  

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