Vibrations of microtubules: physics that has not met biology yet
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Publication:2188864
DOI10.1016/J.WAVEMOTI.2016.12.006zbMath1461.92008OpenAlexW2562236773MaRDI QIDQ2188864
Daniel Havelka, Michal Cifra, Ondřej Kučera
Publication date: 15 June 2020
Published in: Wave Motion (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.wavemoti.2016.12.006
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Cites Work
- Are microtubules discrete or continuum systems?
- The coupling frequency of bioliquid-filled microtubules considering small scale effects
- Fundamental frequency analysis of microtubules under different boundary conditions using differential quadrature method
- Free vibration and bending analyses of cantilever microtubules based on nonlocal continuum model
- Mechanics of microtubules modeled as orthotropic elastic shells with transverse shearing
- Theoretical study of the effect of shear deformable shell model, elastic foundation and size dependency on the vibration of protein microtubule
- Molecular dynamics simulations of tubulin structure and calculations of electrostatic properties of microtubules
- A higher-order mathematical modeling for dynamic behavior of protein microtubule shell structures including shear deformation and small-scale effects
- Vibration of bioliquid-filled microtubules embedded in cytoplasm including surface effects using modified couple stress theory
- Information transport by sine-Gordon solitons in microtubules
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