- Siberian Journal of Physics
- Archive
- 2010
- Vol 5. No 4
- TERAHERTZ RADIATION AND BIOLOGICAL SUBSTANCES
CELL MEMBRANE PERMEABILITY UNDER THE INFLUENCE OF TERAHERTZ (SUBMILLIMETER) LASER RADIATION
Yuliya S. Ol’shevskaya
1. Design Technological Division of Institute of Computational Technologies of the SB RAS Novosibirsk, Russian Federation
Aleksandr S. Kozlov
1. Institute of Chemical Kinetics and Combustion, SB RAS Novosibirsk, Russian Federation
Aleksandr K. Petrov
1. Institute of Chemical Kinetics and Combustion, SB RAS Novosibirsk, Russian Federation
Zapara T. A., Ratushnyak A. S.
The material was received by the Editorial Board: 08.09.2010
Within the framework of the task of revealing the mechanisms of the action of terahertz (submillimeter) radiation on biological objects, the influence of terahertz (submillimeter) radiation on the processes of transmembrane transport in cell systems was experimentally analyzed. Complex research using dyes which do not penetrate through intact membranes (Trypan Blue) and reveal viable cells (BCECF-AM) together with electrophysiological analysis has shown that radiation with a 130-micron wavelength creates conditions for penetration of compounds that usually do not go through the membrane of living cells. The penetration of dye may be conditioned by reversible disturbance in the barrier properties of neuron membranes under the action of 130-micron waves. Radiation with a wavelength of 150 microns does not show such properties. The received results may offer the challenge of developing methods of directed transport of biologically active compounds into cells. Keywords:
terahertz waves, submillimeter radiation, free-electron laser, neurons, cell membrane permeability
УДК 537.86.029.65/.79+612.822.3 + 612.822.5 + 577.359
CELL MEMBRANE PERMEABILITY UNDER THE INFLUENCE OF TERAHERTZ (SUBMILLIMETER) LASER RADIATION
References: Ol’shevskaya Yu. S., Kozlov A. S., Petrov A. K., Zapara T. A., Ratushnyak A. S. CELL MEMBRANE PERMEABILITY UNDER THE INFLUENCE OF TERAHERTZ (SUBMILLIMETER) LASER RADIATION. Vestnik NSU. Series: Physics. 2010, vol. 5, no. 4. P. 177–181 (in Russ.). DOI: 10.54362/1818-7919-2010-5-4-177-181