Stochastic Liouville equation simulation of multidimensional vibrational line shapes of trialanine

Thomas la Cour Jansen; Wei Zhuang; Shaul Mukamel

doi:10.1063/1.1807824

Stochastic Liouville equation simulation of multidimensional vibrational line shapes of trialanine

Thomas la Cour Jansen, Wei Zhuang, Shaul Mukamel

Theory of Condensed Matter

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Abstract

The line shapes detected in coherent femtosecond vibrational spectroscopies contain direct signatures of peptide conformational fluctuations through their effect on vibrational frequencies and intermode couplings. These effects are simulated in trialanine using a Green's function solution of a stochastic Liouville equation constructed for four collective bath coordinates (two Ramachandran angles affecting the mode couplings and two diagonal energies). We find that fluctuations of the Ramachandran angles which hardly affect the linear absorption can be effectively probed by two-dimensional spectra. The signal generated at k(1)+k(2)-k(3) is particularly sensitive to such fluctuations. (C) 2004 American Institute of Physics.

Original language	English
Pages (from-to)	10577-10598
Number of pages	22
Journal	Journal of Chemical Physics
Volume	121
Issue number	21
DOIs	https://doi.org/10.1063/1.1807824
Publication status	Published - 1-Dec-2004

Keywords

MOLECULAR-DYNAMICS SIMULATIONS
2-DIMENSIONAL INFRARED-SPECTROSCOPY
MODE FREQUENCY FLUCTUATION
X-RAY-SCATTERING
AMIDE-I BAND
N-METHYLACETAMIDE
LIQUID D2O
CONFORMATIONAL DYNAMICS
NONLINEAR SPECTROSCOPY
SECONDARY STRUCTURE

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title = "Stochastic Liouville equation simulation of multidimensional vibrational line shapes of trialanine",

abstract = "The line shapes detected in coherent femtosecond vibrational spectroscopies contain direct signatures of peptide conformational fluctuations through their effect on vibrational frequencies and intermode couplings. These effects are simulated in trialanine using a Green's function solution of a stochastic Liouville equation constructed for four collective bath coordinates (two Ramachandran angles affecting the mode couplings and two diagonal energies). We find that fluctuations of the Ramachandran angles which hardly affect the linear absorption can be effectively probed by two-dimensional spectra. The signal generated at k(1)+k(2)-k(3) is particularly sensitive to such fluctuations. (C) 2004 American Institute of Physics.",

keywords = "MOLECULAR-DYNAMICS SIMULATIONS, 2-DIMENSIONAL INFRARED-SPECTROSCOPY, MODE FREQUENCY FLUCTUATION, X-RAY-SCATTERING, AMIDE-I BAND, N-METHYLACETAMIDE, LIQUID D2O, CONFORMATIONAL DYNAMICS, NONLINEAR SPECTROSCOPY, SECONDARY STRUCTURE",

author = "Jansen, {Thomas la Cour} and Wei Zhuang and Shaul Mukamel",

year = "2004",

month = dec,

day = "1",

doi = "10.1063/1.1807824",

language = "English",

volume = "121",

pages = "10577--10598",

journal = "Journal of Chemical Physics",

issn = "0021-9606",

publisher = "AMER INST PHYSICS",

number = "21",

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TY - JOUR

T1 - Stochastic Liouville equation simulation of multidimensional vibrational line shapes of trialanine

AU - Jansen, Thomas la Cour

AU - Zhuang, Wei

AU - Mukamel, Shaul

PY - 2004/12/1

Y1 - 2004/12/1

N2 - The line shapes detected in coherent femtosecond vibrational spectroscopies contain direct signatures of peptide conformational fluctuations through their effect on vibrational frequencies and intermode couplings. These effects are simulated in trialanine using a Green's function solution of a stochastic Liouville equation constructed for four collective bath coordinates (two Ramachandran angles affecting the mode couplings and two diagonal energies). We find that fluctuations of the Ramachandran angles which hardly affect the linear absorption can be effectively probed by two-dimensional spectra. The signal generated at k(1)+k(2)-k(3) is particularly sensitive to such fluctuations. (C) 2004 American Institute of Physics.

AB - The line shapes detected in coherent femtosecond vibrational spectroscopies contain direct signatures of peptide conformational fluctuations through their effect on vibrational frequencies and intermode couplings. These effects are simulated in trialanine using a Green's function solution of a stochastic Liouville equation constructed for four collective bath coordinates (two Ramachandran angles affecting the mode couplings and two diagonal energies). We find that fluctuations of the Ramachandran angles which hardly affect the linear absorption can be effectively probed by two-dimensional spectra. The signal generated at k(1)+k(2)-k(3) is particularly sensitive to such fluctuations. (C) 2004 American Institute of Physics.

KW - MOLECULAR-DYNAMICS SIMULATIONS

KW - 2-DIMENSIONAL INFRARED-SPECTROSCOPY

KW - MODE FREQUENCY FLUCTUATION

KW - X-RAY-SCATTERING

KW - AMIDE-I BAND

KW - N-METHYLACETAMIDE

KW - LIQUID D2O

KW - CONFORMATIONAL DYNAMICS

KW - NONLINEAR SPECTROSCOPY

KW - SECONDARY STRUCTURE

U2 - 10.1063/1.1807824

DO - 10.1063/1.1807824

M3 - Article

SN - 0021-9606

VL - 121

SP - 10577

EP - 10598

JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

IS - 21

ER -

Stochastic Liouville equation simulation of multidimensional vibrational line shapes of trialanine

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Keywords

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