Physics – Condensed Matter – Statistical Mechanics
Scientific paper
1999-11-02
Physics
Condensed Matter
Statistical Mechanics
20 pages + 13 ps figures
Scientific paper
10.1063/1.481646
The instantaneous normal modes corresponding to base pair vibrations (radial modes) and twist angle fluctuations (angular modes) of a DNA molecule model at ambient temperature are theoretically investigated. Due to thermal disorder, normal modes are not plane waves with a single wave number q but have a finite and frequency dependent damping width. The density of modes rho(nu), the average dispersion relation nu(q) as well as the coherence length xi(nu) are analytically calculated. The Gibbs averaged resolvent is computed using a replicated transfer matrix formalism and variational wave functions for the ground and first excited state. Our results for the density of modes are compared to Raman spectroscopy measurements of the collective modes for DNA in solution and show a good agreement with experimental data in the low frequency regime nu < 150 cm^{-1}. Radial modes extend over frequencies ranging from 50 cm^{-1} to 110 cm^{-1}. Angular modes, related to helical axis vibrations are limited to nu < 25 cm^{-1}. Normal modes are highly disordered and coherent over a few base pairs only (xi < 2 nm) in good agreement with neutron scattering experiments.
Cocco Simona
Monasson Remi
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