Biopolym. Cell. 2013; 29(4):255-260.
Reviews
40 years within two epochs of two millennia
- Institute of Molecular Biology and Genetics, NAS of Ukraine
150, Akademika Zabolotnoho Str., Kyiv, Ukraine, 03680
Abstract
The article-generalization deals with the main directions being developed in the Department of Cell Regulatory Mechanisms during past 40 years from the moment of the Institute of Molecular Biology and Genetics of Academy of Sciences of Ukraine organization up to our days. The main steps of space and molecular biology in the USSR and future development of biology in Ukraine are presented in this review.
Keywords: space biology, molecular biology, gene therapy, transgenic plants, biothechnology
Full text: (PDF, in English) (PDF, in Russian)
References
[1]
Kordium V. A., Polyvoda L. V., Mashinskii A. V. The influence of the conditions of space flight on microorganisms Gravitation and organism. Problems of space biology Moscow: Nauka, 1976 Vol. 33:238–260.
[2]
The influence of the conditions of space flight on developing organisms / Ed. V. A. Kordium Kyiv: Naukova dumka, 1978 160 p.
[3]
Kordium V. A., Polyvoda L. V., Man'ko V. G., Babskii V. G., Kon'shin N. I., Polishuk L. P., Moshinskii A. V., Gavrish T. G. The results of the experiment «The growth of microorganisms» in spaceship «Soyuz-22» Space investigations in Ukraine: Rep. Interdepartmental Com Kyiv: Naukova dumka, 1978 Vol. 12:3–14.
[4]
Kordium V. A., Sytnik K. M., Babskii V. G., Man'ko V. G., Neduha E. M., Popova A. F. Microorganisms in the space flight Kyiv: Naukova dumka, 1983 156 p.
[5]
Kordium V. A., Dubinin N. P., Vaulina E. N., Sytnik K. M., Palnbakh L. R., Vinnikov Ya. A., Kostina L. N., Polivoda L. V., Kordyum E. L., Anikeev M. D., Kogan M. G., Jordanishvili E. K., Laurak E. A, Konshin N. I., Mashinsky A. L. Biological investigation of higer and lower plants at board Seyus 19 Life Sci. Space Res 1977 15:113–118.
[6]
Kordium V. A., Kordium E. L., Nefedov Iu. L. The growth and cell structure characteristics of Proteus vulgaris cultivated in conditions of weightlessness in «Cytos» apparatus Biological studies on orbital stations «Salut» Moscow: Nauka, 1984:33–38.
[7]
Kordium V. A., Kirillova V. S., Likhacheva L. I. Biological action of exogenous ribonucleic acids Herald of AS of Ukrainian SSR 1977 N 6:67–77.
[8]
Kordium V. A., Kirillova V. S. The expression of exogenous RNAs in eukaryotic and prokaryotic cells Coll. «Molecular Biology»: Republic Interdisciplinary Coll Kyiv: Naukova dumka, 1977 18:62–70.
[9]
Kordium V. A., Kirillova V. S. Phenotypic and genotypic effects of exogenous ribonucleic acids Coll. «Molecular Biology»: Republic Interdisciplinary Coll Kyiv: Naukova dumka, 1978 19:28–32.
[10]
Kordyum VA, Morgun VV, Chernykh SI. Transfer of dominant allel of gene su1 in maize by means of exogenous DNA. Dopovidi Akad Nauk Ukr RSR. Ser B. 1974;(8):759–62.
[11]
Zambryski P., Joos H., Genetello C., Leemans J., Van Montagu M., Schell J. Ti plasmid vector for the introduction of DNA into plant cells without alteration of their normal regeneration capacity EMBO J 1983 2, N 12:2143–2150.
[12]
Deblaere R., Bytebier B., De Greve H., Deboeck F., Schell J., Van Montagu M., Leemans J. Efficient octopine Ti plasmid-derived vectors for Agrobacterium-mediated gene transfer to plants Nucl. Acids Res 1985 13, N 13:4777–4788.
[13]
Dobachevskaya O. N., Rymar S. E., Kordijum V. A. The influence of UV irradiation on the transfer of foreign genes into Ti plasmid of Agrobacterium tumefaciens via intermediate vectors. Biopolym Cell. 1991; 7(2):22–25.
[14]
Kordium V. A., Chernykh S. I. Super synthesis of beta-galactosidase in Escherichia coli cells Mikrobiol. Zh 1977 39, N 1:105–106.
[15]
Kordium V. A., Chernykh S. I. The supersynthesis of the enzymes by bacteria based on imported information Coll. «Molecular Biology»: Republic Interdisciplinary Coll Kyiv: Naukova dumka, 1978 19:60–62.
[16]
Kordium V. A., Chernykh S. I. The fundamentals of biological supersynthesis on the transferred genetic material Tsitol. Genet 1980 14, N 5:80–86.
[17]
Kordyum V. A., Chernykh S. I., Medvedeva I. Y. Isolation of nonlysogenic bacteria from l-lysogenized strains using antibiotic-resistant phage Can. J. Microbiol 1984 30, N 1:74–76.
[18]
Chernykh S. I., Slavchenko I. Yu., Gorlov Yu. I., Terent'ev A. G., Gavrish T. G., Kordyum V. A. Phagedependent overproduction of b-galactosidase Escherichia coli and working out Its purification. Biopolym Cell. 1998; 14(2):127–131.
[19]
Chernykh S. I., Slavchenko I. Iu. Laferon (human recombinant a-2b interferon)-obtaining and characterization Laferon in the treatment of cancer and infectious diseases Rivne, 1996 P. 21–23.
[20]
Kordium V. A. Objectives and problems of gene therapy. Biopolym Cell. 1989;5(2):5–16.
[21]
Kordium V. A. Possibilities of gene therapy for treatment and prevention of mass pathologies. Biopolym Cell. 1990; 6(1):12–31.
[22]
Lukash LL, Neborachko LN, Podolskaya SV, Varzanova IS, Titok TG, Buzhievskaya TI, Kordyum VA. Expression of exogenic human insulin gene in subcultures and clones of cultivated fibroblasts. Doklady Akad Nauk Ukr SSR. Ser B. 1989;(8):71-4.
[23]
Titok T. G., Kostetsky I. E., Chaikovskaya T. L., Kochubej T. P., Zharova L. G., Kirilenko S. D., Melnik I. M., Silvanskaya E. M., Buzhievskaya T. I., Kordium V. A. Transfer of human preproinsulin gene into streptozotocin diabetic rats. Biopolym Cell. 1990; 6, N 2:76–80.
[24]
Titok T. G., Kostetsky I. E., Tchaikovskaya T. L., Varzanova I. S., Kochubej T. P., Lukash L. L., Kordium V. A. Transplantation of human preproinsulin gene into the insuline dependent diabetic and normal rats. Biopolym Cell. 1993; 9, N 1:39–44.
[25]
Toporova O. K., Novikova S. N., Lihacheva L. I., Suhorada O. M., Ruban T. A., Kozel J. A., Irodov D. M., Kordium V. A. Non-viral gene delivery of human apoA1 into mammalian cells in vitro and in vivo. Biopolym Cell. 2004; 20, N 1–2:25–32.
[26]
Toporova O. K., Kyrylenko S. D., Irodov D. M., Kordium V. A. Plasmid vector for the human preproinsuiin gene delivery into mammalian cells. Biopolym Cell. 2007; 23, N 2:100–107.
[27]
Gilchuk Iu. M., Toporova O. K., Novikova S. M., Kordium V. A. Influence of human apolipoprotein A-1 transgene injection on level of cholesterol and morphology of tissues of rabbits on cholesterol diet. Biopolym Cell. 2008; 24, N 1:78–81.
[28]
Kordium V. A. Evolution and biosphere Kyiv: Naukova dumka, 1982 264 p.
[29]
Kordium V. A., Shpilevaya S. P., Ruban T. A., Sukhorada O. M., Andriyenko V. I. Autotransformation of mammalian cells. Biopolym Cell. 2005 21, N 2:140–144.
[30]
Kordium V. A., Shpylova S. P., Andrienko V. I., Sukhorada O. M., Ruban T. A., Deryabina O. G. Transfer of genetic information in an organism. Cell Biol. Int 2005 29, N 1:95–97.
[31]
Kordium V. A., Shpilevaya S. P., Ruban T. O., Sukhorada O. M. The concept of genetic material exchange between mammalian cells. Biopolym Cell. 2005; 21, N 4:335–345.
[32]
Kordium V. A. Our «Shagreen leather» is our problem. We have to solve it ourselves Kyiv: Naukova dumka, 2006 264 p.
[33]
Kordium V. A. Mutations: what are they? Biopolym Cell. 2007; 23, N 3:215–243.
[34]
Kordium V. A., Andrienko V. I., Maslova O. A., Shuvalova N. S., Irodov D. M., Ruban T. A., Sukhorada E. M., Likhacheva L. I., Shpilevaya S. P. Fundamental gap in fundamental biology. Biopolym Cell. 2011; 27, N 3:235–245.
[35]
Kordium V. A., Irodov D. M., Maslova O. O., Ruban T. A., Sukhorada E. M., Andrienko V. I., Shuvalova N. S., Likhachova L. I., Shpilova S. P. Fundamental biology reached a plateau – development of ideas. Biopolym Cell. 2011; 27, N 6 P. 480–498.
[36]
Kordium V. A., Moshynets E. V., Tsapenko M. V., AdamchukChalaya N. I., Irodov D. M., Andrienko V. I., Shpilevaya S. P. Microcosm of living: evidence of nonobviousness. Biopolym Cell. 2008; 24, N 5:412–425.
[37]
Kordium V. A., Shpilevaya S. P., Moshynets E. V., AdamchukChalaya N. I., Irodov D. M., Andrienko V. I. Biopolymers and cells in dimension of microbial community architecture. 1. Fenomenology. Biopolym Cell. 2009; 25, N 2:150–166.
[38]
Kordium V. A., Moshynets E. V. Biopolymers and cells on the level of microbial architecture. 2. Parallel life, parallel but not life, nonparallel and not life, but what? What is life? Biopolym Cell. 2009; 25, N 5:403–423.
[39]
Kordium V. A. Biopolymers and cells in dimension of microbial community architecture. 3. Microcenosis, cell, biopolymers – what they are? Biopolym Cell. 2010; 26, N 4:327–347.
[40]
Vozianov O. F., Romanenko A. M., Pirogov V. O., Zubko V. I., Bazalytska S. V., Nikulina G. G., Nikitaiev S. V., Bilogolovska V. V., Guts R. V., Pokholenko Ia. O., Dubey I. Ya., Kordium V. A. Novel systems for the restoration of blood flow in ischemic kidney 9th Int. Symp. on Frontiers in biomedical polymers (FBPS 2011) Madeira, 2011:103–104.
[41]
Vozianov O. F., Nikulina G. G., Kordium V. A., Pirogov V. O., Serbina I. E. The use of fibroblast growth factor for the correction of lipoperoxidation and energy transfer in kidney under different hypoxia modes Pharmacology and Pharmaceutical Toxicology 2011 N 5 (24):54–55.
[42]
Maslova O. A., Kordium V. A., Deryabina O. G. Umbilical cord matrix cells. promising instrument for regenerative medicine Biomaterials for Stem Cell Therapy: State of the Art and Vision for the Future . Eds L. De Bartolo, A. Bader New York: CRC Press, 2013:212–227.
[43]
Okunev O. V., Gil'chuk P. V., Irodov D. M., Deriabina E. G. Production and characterization of the single chain antibodies against human alpha2b-interferon Ukr. Biokhim. Zh 2005 77, N 5 P. 106–115.
[44]
Gilchuk P. V., Okunev O. V., Irodov D. M., Pavlova M. V., Yakovenko O. Ya. Immobilized single chain antibodies for affinity purification of recombinant human IFN-a2b. Biopolym Cell. 2006; 22, N 2:157–161.
[45]
Pavlova MV, Hil'chuk PV, Pokholenko IaO, Nikolaiev IuS, Kordium VA. Construction and characterization of immune combinatorial cDNA library of mouse variable immunoglobuline genes. Tsitol Genet. 2008;42(2):10-5.