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Literature DB >> 22575306

Mechano-electrical vibrations of microtubules--link to subcellular morphology.

Abstract

Spontaneous mechanical oscillations were predicted and experimentally proven on almost every level of cellular structure. Besides morphogenetic potential of oscillatory mechanical force, oscillations may drive vibrations of electrically polar structures or these structures themselves may oscillate on their own natural frequencies. Vibrations of electric charge will generate oscillating electric field, role of which in morphogenesis is discussed in this paper. This idea is demonstrated in silico on the conformation of two growing microtubules.

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Year: 2012 PMID： 22575306 DOI： 10.1016/j.biosystems.2012.04.009

Source DB: PubMed Journal: Biosystems ISSN： 0303-2647 Impact factor: 1.973

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Cited

9 in total

Mechano-electrical vibrations of microtubules--link to subcellular morphology.

Review 1. Radiofrequency and microwave interactions between biomolecular systems.

2. Brain Microtubule Electrical Oscillations-Empirical Mode Decomposition Analysis.

3. Hypotheses relating to the function of the claustrum.

Review 4. An Overview of Sub-Cellular Mechanisms Involved in the Action of TTFields.

5. Tubulin response to intense nanosecond-scale electric field in molecular dynamics simulation.

6. Sounds Stimulation on In Vitro HL1 Cells: A Pilot Study and a Theoretical Physical Model.

7. Electro-acoustic behavior of the mitotic spindle: a semi-classical coarse-grained model.

8. Electrical Oscillations in Two-Dimensional Microtubular Structures.

Review 9. Biomolecular Basis of Cellular Consciousness via Subcellular Nanobrains.