"High-frequency electric field and radiation characteristics of cellular microtubule network"@en . . . "10"^^ . . "000294975800004" . "cellular power; bioelectrodynamics; microtubulenetwork"@en . "Havelka, D." . . . "202065" . . "Journal of Theoretical Biology" . . . "Cifra, Michal" . . . . "5"^^ . "Microtubules are important structures in the cytoskeleton, which organizes the cell. Since microtubules are electrically polar, certain microtubule normal vibration modes efficiently generate oscillating electric field. This oscillating field may be important for the intracellular organization and intercellular interaction. There are experiments which indicate electrodynamic activity of variety of cells in the frequency region from kHz to GHz, expecting the microtubules to be the source of this activity. In this paper, results from the calculation of intensity of electric field and of radiated electromagnetic power from the whole cellular microtubule network are presented. The subunits of microtubule (tubulin heterodimers) are approximated by elementary electric dipoles. Mechanical oscillation of microtubule is represented by the spatial function which modulates the dipole moment of subunits." . "RIV/67985882:_____/11:00368054" . "7/10/2011" . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . "RIV/67985882:_____/11:00368054!RIV12-AV0-67985882" . "Vrba, J." . . . "Microtubules are important structures in the cytoskeleton, which organizes the cell. Since microtubules are electrically polar, certain microtubule normal vibration modes efficiently generate oscillating electric field. This oscillating field may be important for the intracellular organization and intercellular interaction. There are experiments which indicate electrodynamic activity of variety of cells in the frequency region from kHz to GHz, expecting the microtubules to be the source of this activity. In this paper, results from the calculation of intensity of electric field and of radiated electromagnetic power from the whole cellular microtubule network are presented. The subunits of microtubule (tubulin heterodimers) are approximated by elementary electric dipoles. Mechanical oscillation of microtubule is represented by the spatial function which modulates the dipole moment of subunits."@en . "[6D2F320C6BBE]" . "3"^^ . . "High-frequency electric field and radiation characteristics of cellular microtubule network" . "Pokorn\u00FD, Ji\u0159\u00ED" . . "0022-5193" . . . . "286" . . "High-frequency electric field and radiation characteristics of cellular microtubule network"@en . . "High-frequency electric field and radiation characteristics of cellular microtubule network" . . "Ku\u010Dera, Ond\u0159ej" . "P(GAP102/11/0649), P(GD102/08/H008), P(GPP102/10/P454), S, Z(AV0Z20670512)" . "10.1016/j.jtbi.2011.07.007" . . .