Колекція відділу
НАУКОВІ ПУБЛІКАЦІЇ СПІВРОБІТНИКІВ
1. O.I. Gordiyenko, I.F. Kovalenko, O.Y. Rogulska, N.A. Trufanova, T.M. Gurina, O.V. Trufanov, O.Y. Petrenko. Theory-based cryopreservation mode of mesenchymal stromal cell spheroids. Cryobiology. 2024; 115:104906. https://doi.org/10.1016/j.cryobiol.2024.104906
2. A.F. Todrin, I.F. Kovalenko, Ye.I. Smolyaninova, O.V. Timofeyeva, L.I. Popivnenko, O.I. Gordiyenko. Determination of cell membrane permeability coefficients: Comparison of models in the case of oocytes. Cryobiology 2023; 113: 104789. https://doi.org/10.1016/j.cryobiol.2023.104789
3. A.F. Todrin, Y.I. Smolyaninova, O.V. Timofeyava, L.I. Popivnenko, O.I. Gordiyenko Physical-mathematical model of substance redistribution between the cell and its hypertonic solution environment of penetrating cryoprotectants with relevance to membrane potential. Cryo-Letters. 2020; 41(4): 209-215. https://archive.cryoletters.org/Abstracts/vol_41_4_2020.htm
4. A.N. Khudyakov, L.G. Kuleshova, O.O. Zaitseva, et al. Effect of Pectins on Water Crystallization Pattern and Integrity of Cells during Freezing. Biopreservation and Biobanking, 2019; 17(1): 52-57. https://www.liebertpub.com/doi/abs/10.1089/bio.2018.0066.
5. Miroshnic DB, Kovalenko IF, Shckorbatov YG. Combined action of doxorubicin and magnetic field on free calcium content in human cells. IJPPR Human (International Journal of Pharmacy&Pharmaceutical Research). June 2019; 15 (3): 88-96. http://ijppr.humanjournals.com/
6 A.F. Todrin, O.V. Timofeyeva, T.P. Petrenko. Influence of incubation time and action of fluid flow on SPEV cell adhesion strength to a glass substrate. Journal of Adhesion Science and Technology. 2018; 32(16): 1838–1848. https://doi.org/10.1080/01694243.2018.1448500.
7. O.I. Gordiyenko, S.Ye. Kovalenko, I.F. Kovalenko, V.V. Ogurtsova, A.F. Todrin. Theoretical estimation of the optimum cooling rate of a cell suspension at linear freezing modes based on a two factor theory of cryodamage. CryoLetters. 2018; 39 (6): 380-385. http://www.cryoletters.org/Abstracts/vol_39_6_2018.htm.
8. O.I. Gordiyenko, M.O. Barannyk. The role of electrostatic interactions in adhesion of Streptococcus thermophilus to human erythrocytes in media with different 1:1 and 2:1 electrolyte concentrations. J. Adh. Sci. Technol., 2016; V. 30, N16, 1819–1827. http://dx.doi.org/10.1080/01694243.2016.1169824.
9. M.O. Anikieieva, S.L. Rozanova, S.Ye. Kovalenko, I.F. Kovalenko, O.I. Gordiyenko, E.O. Gordiyenko Surface charge of erythrocytes and lactobacilli S. thermophilus and their intercellular adhesion depend on the concentration of bivalent cations. J. Adh. Scie. Technol. 2015; 29(10): 1039–1045. https://doi.org/10.1080/01694243.2015.1016598.
10. O.I. Gordiyenko, M.O. Anikieieva, S.L. Rozanova, S.Ye. Kovalenko, I.F. Kovalenko, & E.O. Gordiyenko. Development of a model to investigate red blood cell surface characteristics after cryopreservation. Cryo-Letters. 2015; 36(3): 221-226. https://archive.cryoletters.org/Abstracts/vol_36_3_2015.htm.
11. M. Anikieieva, O. Gordiyenko Influence of medium pH and ionic strength of a medium on the adhesion of Streptococcus thermophilus microorganisms to human erythrocytes. Periodicum biologorum. 2014; 116(1): 89–93. https://hrcak.srce.hr/en/file/185343.12. T.V. Polezhaeva, O.O. Zaitseva, A.N. Khudyakov, D.S. Laptev, V.V. Golovchenko, E.A. Gordiyenko, L.G. Kuleshova. Use of pectic polysaccharides for cryopreservation of biological objects. Arch. Biol. Sci. (Belgrade). 2014; 66(3): 1025-1033. https://serbiosoc.org.rs/arch_old/VOL66/SVESKA3/09%20-%20Polezhaeva.pdf