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@article{UZERU_2019_53_3_a9,
author = {A. L. Torosyan and G. V. Ananyan and V. B. Arakelyan},
title = {Influence of zinc oxide nanoparticles on bilayer lipid membrane properties},
journal = {Proceedings of the Yerevan State University. Physical and mathematical sciences},
pages = {208--213},
publisher = {mathdoc},
volume = {53},
number = {3},
year = {2019},
language = {en},
url = {http://geodesic.mathdoc.fr/item/UZERU_2019_53_3_a9/}
}
TY - JOUR AU - A. L. Torosyan AU - G. V. Ananyan AU - V. B. Arakelyan TI - Influence of zinc oxide nanoparticles on bilayer lipid membrane properties JO - Proceedings of the Yerevan State University. Physical and mathematical sciences PY - 2019 SP - 208 EP - 213 VL - 53 IS - 3 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/UZERU_2019_53_3_a9/ LA - en ID - UZERU_2019_53_3_a9 ER -
%0 Journal Article %A A. L. Torosyan %A G. V. Ananyan %A V. B. Arakelyan %T Influence of zinc oxide nanoparticles on bilayer lipid membrane properties %J Proceedings of the Yerevan State University. Physical and mathematical sciences %D 2019 %P 208-213 %V 53 %N 3 %I mathdoc %U http://geodesic.mathdoc.fr/item/UZERU_2019_53_3_a9/ %G en %F UZERU_2019_53_3_a9
A. L. Torosyan; G. V. Ananyan; V. B. Arakelyan. Influence of zinc oxide nanoparticles on bilayer lipid membrane properties. Proceedings of the Yerevan State University. Physical and mathematical sciences, Tome 53 (2019) no. 3, pp. 208-213. http://geodesic.mathdoc.fr/item/UZERU_2019_53_3_a9/
[1] G. G. Onishchenko, A. I. Archakov, V. V. Bessonov, B. G. Bokit’ko, A. L. Gintsburg, I. V. Gmoshinskiy et al., “Methodological Approaches to Assessing of the Safety of Nanomaterials”, Gigiena i Sanitariya, 6 (2007), 3–10 (in Russian)
[2] M. R. Wiesner, G. V. Lowry, P. Alvarez, D. Dionysiou, P. Biswas, “Assessing the Risks of Manufactured Nanomaterials”, Environmental Science and Technology, 40 (2006), 4336–4345 | DOI
[3] P. Christian, F. Von der Kammer, M. Baalousha, T. Hofmann, “Nanoparticles: Structure, Properties, Preparation and Behaviour in Environmental Media”, Ecotoxicology, 17:5 (2008), 326–343 | DOI
[4] L. Mielcarz-Skalska, B. Smolinska, “Zinc and Nano-ZnO-influence on Living Organisms”, Biotechnol. Food Sci., 81:2 (2017), 93–102
[5] H. Ma, P. L. Williams, S. A. Diamond, “Ecotoxicity of Manufactured ZnO Nanoparticles”, Environ. Pollut., 172 (2013), 76–85 | DOI
[6] A. Scherzad, T. Meyer, N. Kleinsasser, S. Hackenberg, “Molecular Mechanisms of Zinc Oxide Nanoparticle-Induced Genotoxicity Short Running Title: Genotoxicity of ZnO NPs”, Materials (Basel), 10:12 (2017), 1427–1446 | DOI
[7] J. Pasquet, Y. Chevalier, E. Couval, D. Bouvier, G. Noizet, C. Morliere, M.A. Bolzinger, “Antimicrobial Activity of Zinc Oxide Particles on Five Micro-Organisms of the Challenge Tests Related to Their Physicochemical Properties”, Int. J. Phann., 460:1–2 (2014), 92–100 | DOI
[8] V. G. Ivkov, G. N. Berestovsky, Bilayer of Biological Membranes, Nauka, M., 1982, 224 pp. (in Russian)
[9] H. T. Tien, Bilayer Lipid Membranes (BLM): Theory and Practice, Marcel Dekker, NY., 1974, 655 pp.
[10] A. L. Torosyan, V. B. Arakelyan, G. V. Ananyan, “Influence of nanoparticles of $\mathrm{(CuO)}$ on the stability and conductivity of BLM”, Proceedings of the YSU, Physical and Mathematical Sciences, 52:1 (2018), 41–46
[11] R. Brayner, R. Ferrari-Iliou, N. Brivois, S. Djediat, M. F. Benedetti, F. Fiévet, “Toxicological Impact Studies Based on $Escherichia coli$ Bacteria in Ultrafine ZnO Nanoparticles Colloidal Medium”, Nano Lett., 6:4 (2006), 866–870 | DOI
[12] P. Mueller, D. Rudin, H.T. Tien, W. Wescott, “Methods for the Formation of Single Bimolecular Lipid Membranes in Aqueous Solution”, J. Phys. Chem., 67:2 (1963), 534–535 | DOI
[13] L. Gu, I. Wang, J. Xun, A. Ottova-Leitmannova, H. T. Tien, “A New Method for the Determination of Electrical Properties of Supported Bilayer Lipid Membranes by Cyclic Voltammetry”, Bioelectochemistry and Bioenergetics, 39 (1996), 275–283 | DOI
[14] I. G. Abidor, V. B. Arakelyan, L. V Chernomordik. et al., “Electric Breakdown of Bilayer Lipid Membranes. I: The Main Experimental Facts and Their Qualitative Discussion”, Bioelectrochemistry and Bioenergetics, 6 (1979), 37–52 | DOI
[15] G. B. Melikyan, N. S. Matinyan, V. B. Arakelian, “The Influence of Gangliosides on the Hydrophilic Pore Edge Line Tension and Monolayer Fusion of Lipid Membranes”, Biochim. Biophys. Acta, 1030 (1990), 11–15 | DOI
[16] A. L. Torosyan, V. B. Arakelyan, “Influence of H$_2$TOEtPyP$_4$ Porphyrin on the Stability and Conductivity of Bilayer Lipid Membranes”, European Biophysics Journal, 44:8 (2015), 745–750 | DOI
[17] by V. F. Pastushenko, Yu. A. Chizmadzhev V. B. Arakelian “Electric Breakdown of Bilayer Lipid Membranes II. Calculation of the Membrane Lifetime in the Steady-State Diffusion Approximation”, Bioelectrochem. Bioenerg., 6 (1979), 37–52 | DOI
[18] A. Degen, M. Kosec, “Effect of pH and Impurities on the Surface Charge of Zinc Oxide in Aqueous Solution”, Journal of the European Ceramic Society, 20:6 (2000), 667–673 | DOI
[19] R. Marsalek, “Particle Size and Zeta Potential of ZnO”, APCBEE Procedia, 9 (2014), 13–17 | DOI
[20] Pedersen U.R., Leidy Ch., Westh P., Peters G.H., “The Effect of Calcium on the Properties of Charged Phospholipid Bilayers”, Biochimica et Biophysica Acta (BBA) Biomembranes, 1758:5 (2006), 573–582 | DOI
[21] E. V. Shevchenko, V. F. Antonov, “Influence of Divalent Ions on Physical Properties of Bilayer Lipid Membranes from Zwitterionic and Acidic Phospholipids”, Siberian Medical Journal, 3:2 (1995), 5–8 (in Russian) | MR