The proposed research program will focus on the development of new computational algorithms for the microscopic simulation of complex biological molecules and their probing using coherent optical spectroscopies. Multiple-pulse techniques have the capacity to prepare electronic and vibrational degrees of freedom in nonequilibrium states and monitor their subsequent evolution, yielding femtosecond snapshots of dynamical events; energy transfer pathways, charge transfer, photoisomerization, and structural fluctuations. A molecular dynamics code which interfaces time-dependent quantum chemistry packages (density functional and the time dependent Hartree Fock) with semiclassical molecular dynamics algorithms for multipoint correlation functions will be developed. Multidimensional techniques should reveal the multitude of coherence sizes of photosynthetic complexes with specific spectroscopic signatures. Systems to be studied: LH2 of purple bacteria, the FMO complex, LHCII, CP29, and the Chlorosome. Nonlocal information on electron and energy transfer pathways, solvation dynamics, and vibrational relaxation will be extracted from fluorescence, pump probe, and three-pulse techniques. The application of these measurements towards refining the structure of photosynthetic antennae will be explored. Vibrational spectra of the amide I band and of OH hydrogen-bonded networks will be simulated. The structure and fluctuations of a small cyclic 10 residue polypeptide (Antamanide) and a globular 76-residue protein (Ubiquitin will be studied, focusing on Hydrogen bonding and Phenylalanine side chain dynamics in Antamanide and backbone and Glutamine sidechain dynamics in Ubiquitin. Protein folding in beta-peptides and its real-time probing by nonlinear spectroscopies will be investigated. An new spectroscopic algorithm for simulating excited-state photodynamics and relating it to protein-pigment interactions will be developed. Applications will be made to energy transfer processes in photodynamic therapy.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
7R01GM059230-03
Application #
6653146
Study Section
Molecular and Cellular Biophysics Study Section (BBCA)
Program Officer
Li, Jerry
Project Start
2001-09-01
Project End
2005-08-31
Budget Start
2003-09-01
Budget End
2004-08-31
Support Year
3
Fiscal Year
2003
Total Cost
$247,565
Indirect Cost
Name
University of California Irvine
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
046705849
City
Irvine
State
CA
Country
United States
Zip Code
92697
Zhang, Yu; Hua, Weijie; Bennett, Kochise et al. (2016) Nonlinear Spectroscopy of Core and Valence Excitations Using Short X-Ray Pulses: Simulation Challenges. Top Curr Chem 368:273-345
Batignani, G; Fumero, G; Mukamel, S et al. (2015) Energy flow between spectral components in 2D broadband stimulated Raman spectroscopy. Phys Chem Chem Phys 17:10454-61
Zhang, Yu; Biggs, Jason D; Mukamel, Shaul (2015) Characterizing the Intermediates Compound I and II in the Cytochrome P450 Catalytic Cycle with Nonlinear X-ray Spectroscopy: A Simulation Study. Chemphyschem 16:2006-14
Bennett, Kochise; Kowalewski, Markus; Mukamel, Shaul (2015) Probing electronic and vibrational dynamics in molecules by time-resolved photoelectron, Auger-electron, and X-ray photon scattering spectroscopy. Faraday Discuss 177:405-28
Nenov, Artur; Segarra-Martí, Javier; Giussani, Angelo et al. (2015) Probing deactivation pathways of DNA nucleobases by two-dimensional electronic spectroscopy: first principles simulations. Faraday Discuss 177:345-62
Agarwalla, Bijay Kumar; Ando, Hideo; Dorfman, Konstantin E et al. (2015) Stochastic Liouville equations for femtosecond stimulated Raman spectroscopy. J Chem Phys 142:024115
Dorfman, Konstantin E; Schlawin, Frank; Mukamel, Shaul (2014) Stimulated Raman Spectroscopy with Entangled Light: Enhanced Resolution and Pathway Selection. J Phys Chem Lett 5:2843-2849
Ando, Hideo; Fingerhut, Benjamin P; Dorfman, Konstantin E et al. (2014) Femtosecond stimulated Raman spectroscopy of the cyclobutane thymine dimer repair mechanism: a computational study. J Am Chem Soc 136:14801-10
Nenov, Artur; Beccara, Silvio; Rivalta, Ivan et al. (2014) Tracking conformational dynamics of polypeptides by nonlinear electronic spectroscopy of aromatic residues: a first-principles simulation study. Chemphyschem 15:3282-90
Dorfman, Konstantin E; Mukamel, Shaul (2014) Multidimensional spectroscopy with entangled light: loop vs ladder delay scanning protocols. New J Phys 16:

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