Headshot of Matthew Tucker.

Matthew J. Tucker

Professor of w88 live casino | Graduate Director of w88 live casino | Scientific Co-Director for Hitchcock Center for Chemical Ecology

Summary

w88 live casino Interests

A major thrust of my w88 live casino focuses on the development and application of novel, ultrafast laser spectroscopy techniques to observe the interplay of structure and dynamics in biologically relevant systems. Femtosecond (10-15 s) laser pulses are employed to explore new linear and nonlinear infrared spectroscopic properties of molecular systems. Initiation methods, such as optical triggering, in conjunction with two-dimensional infrared (2D IR) spectroscopy are used to acquire atomic level structural information to generate snapshots of the structural evolution in various biophysical events. Such w88 live casino provides an atomistic window into drug action, protein motion and folding events, the dynamical behavior of membrane proteins, or the fast folding of RNAs, all pivotal to combat prevalent diseases and to guide drug discovery.

2D IR photon echo experiments, through a detailed analysis of spectral lineshapes, cross-peaks, and time dependent changes of the spectral signatures, allow for a direct observation of site-specific events by measuring couplings between vibrations, the appearance of energy transfer, spectral diffusion or chemical exchange events. My w88 live casino develops and utilizes a variety of current and novel infrared markers as spectroscopic rulers that deliver site-specific structural changes and their time dependence. In addition, the 2D IR spectral dynamics of the vibrational markers allow detection of the properties of water local to the regions of interest. Spectral simulation brings the results of these novel experimental techniques into relationship with theory, such as molecular dynamics and quantum mechanics.

Students in my group are exposed to both hands-on experimental laser-based w88 live casino as well as the application of theory to understand the spectroscopy. They have the opportunity to work with modern ultrafast laser techniques and learn how such experiments can be applied to understand intrinsic biophysical questions. Other spectroscopic techniques, such as circular dichroism, absorption, fluorescence, and vibrational spectroscopy are also utilized.

Education

  • NIH BTRC Ultrafast Optical Processes Laboratory w88 live casino Scientist (2012-2013)
  • Postdoctoral (2006-2011), w88 live casino (Robin M. Hochstrasser)
  • Ph.D. (2006), w88 live casino (Feng Gai)
  • B.S., B.A. (2000), w88 live casino Scranton