Elastic vibrations of microtubules in a fluid
- 1 January 1996
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review E
- Vol. 53 (1), 1003-1010
- https://doi.org/10.1103/physreve.53.1003
Abstract
We study thoreticaly vibrational properties of microtubules (MTs), which are long hollow cylindrical macromolecules with a diameter of the order of 25 nm and serve as a major component of cytoskeleton in eukariotic cells. Modeling MTs by thin elastic cylindrical shells, we derive the eigenfrequencies and eigenmodes of confined elastic vibrations in a shell-fluid system. Numerical calculations, based on recently obtained experimental data for Young’s modulus of MT, show that MT-water system supports interface elastic waves with maximal frequencies in a gigahertz range. In a long-wavelength limit, there exist three axisymmetric acoustic waves with velocities of about 200 to 600 m/s, and an infinite set of helical waves with a parabolic dispersion law. © 1996 The American Physical Society.Keywords
This publication has 45 references indexed in Scilit:
- Temperature dependence of electron mobility in a free — Standing quantum wellSolid State Communications, 1995
- Acoustic-mode coupling and electron heating in thin metal filmsPhysical Review B, 1994
- Confined acoustic phonons in a free‐standing quantum well and their interaction with electronsPhysica Status Solidi (b), 1994
- Phonon localization in two-dimensional self-supported filmsPhysical Review B, 1993
- Effects of interface phonon scattering in multiheterointerface structuresJournal of Applied Physics, 1992
- Evidence for two-dimensional phonons in a thin metal filmPhysical Review B, 1991
- Temporal evolution of the longitudinal- and transverse-phonon distributions in nonequilibrium metal filmsPhysical Review B, 1991
- Interaction between longitudinal-optical-phonon modes of a rectangular quantum wire and charge carriers of a one-dimensional electron gasPhysical Review B, 1989
- Electron–optical-phonon interaction in single and double heterostructuresPhysical Review B, 1989
- Electron–Phonon Interaction in Dielectric Bilayer Systems. Effect of the Electronic PolarizabilityPhysica Status Solidi (b), 1985