Vestnik On-line
Orenburg State University november 24, 2024   RU/EN
Headings of Vestnik
Pedagogics
Psychology
Other

Search
Vak
Антиплагиат
Orcid
Viniti
ЭБС Лань
Rsl
Лицензия Creative Commons

2014, № 6 (167)



Burakaeva A.D. FUNGICOLOUS FUNGI IN BIOTECHNOLOGY FUNGICIDAL PREPARATIONSThe paper discusses the current state of the study — producers of metabolites possessing fungicidal spectrum of action. The prospects of using the phenomenon mikoparazitizma selskohozyaystveenoy in practice. Key words: fungicolous fungi, antifungal metabolites, antibiotics, lytic enzymes, natural antagonists of pathogenic fungi.Key words: fungicolous fungi, fungicid, antibiotics, lytic enzymes, natural antagonists of pathogenic fungi.

Download
References:

1. Akulov A.Y., Malyshev V.F., Ordynets A.V. New for Ukraine mikofilnyh kinds of fungi. // Micol. and fitopatol., 2010. — T. 44. — Issue 6. — P. 501 — 506.

2. Alexandrov A.B. Fungi of the genus Trichoderma Pers.: Fr. Taxonomy, geographical distribution and ecological features : abstract dis. Candidate. biol. Sciences. Moscow: Moscow State University, 2000 — 20.

3. Alexandrov A.V., Velykanova L.L., Sidorov I.I. Historical overview and kind of modern system Trichoderma Pers.: Fr. (Eumycota, Deuteromycotina, Hyphomycetes) / / Micol. and fitopatol. 2004. — T.38. — № 1. — P. 3 — 19.

4. Alexandrov A.V. Giants L.L.,. Sidorov I, Sizova T.P. The effect of the fungus Trichoderma harzianum on soil fungi are // Micol. and phyto- pathological. 2006. — T. 34. — №. 3. — P. 68 — 77.

5. Alimova F.K. Industrial use of fungi of the genus Trichoderma. — Kazan: UNIPRESS DAS, 2006. — 268 p.

6. Aspite A.F., Shvinka J.E., Strikauskas C.B. Using trihoder -ming for the protection of plants against phytopathogenic micromycetes // West. with. — x. science ki. 1981. — № 9. — P. 114 — 118.

7. Bartosiewicz J.E, Novak M. Yudin O/D/, Sazikin J.O., Belyavskaya I.V., Hraznova NS, Petyushenko RM, Pertsovskaya NV Nekludov AD The effect of carbohydrate catabolite repression on intracellular accumulation and distribution of methionine in Asremonium chrysogenum — producing cephalosporin C -wdth // Antibiotics , 1985. — № 6. — S. 410 — 414.

8. Becker Z.E., Dmitriev S.V., Borisova, T.G., Turkova Z.A,. Lisin ES, Chaplin LB Features of development of fungi producers of various antibiotic and antiblastic cal substances. / / Microbiology. — 1965. — T. 3. — № 4. — S. 653.

9. Bilai T.I. Zakordonets L.A., Bogomolov L.A., Motyayko T.Ya. Effect of different ratios of carbon and nitrogen in the nutrient medium for the growth and metabolism of Fusarium moniliforme sht.280. // Micol. and fitopatol., 1974. — T. 8. — № 3. — P. 117 — 186.

10. Burakaeva A.D, Karpova , G.V. ew antifungal antibiotic, thought- differentiable Hypomyces rosellus VPKM F -242 and phenotypically close strains Mami. // Vestn. Orenburg. Reg. University., 2011. — № 12. — P. 323 — 324.

11. Burakaeva A.D. Effect of extracellular metabolites mikofilnogo Hypomyces rosellus fungus on plant growth and development of wheat / In Sat articles "Science yesterday, today , tomorrow" on materials YII Intern. absentia. Scientific- practical. conf. December 11, 2013 — P. 29 — 35.

12. Grinko , H.H. Biotechnological aspects of culture Trichoderma harzianum Rifai strain VKM B- 2477D / / Vestn. Russian. Acad. agricultural. Sciences, 2004. № 1. — P. 57 — 61.

13. Thundering T.I. Phytopathogenic fungi are conifer seedlings in its Medium- Siberian species composition , ecology , biological control : diss. by SOIS — closure of a scientific degree of Dr. biol. Sciences. Krasnoyarsk. — 2002 — 334 p.

14. Gubanov G.Y., Bredikhina A.I. , collecting BG, M. Shadmanov growth and develop-ment of the fungus Verticillium dahlia Kleb. the presence in the environment of different sources of nitrogen nutrition. / / Micol. and phytopathogenic., 1985. — T. 19. — Issue 1. — P. 58 — 62.

15. Davydova E.P., Rudakov O.L., L.A. Ganovskaya Getting dispute mikofil -tion fungi p. Ampilomyces cex. ex. schlecht in submerged cultivation. // Micol. and phytopathogenic., 1985. — V. 19. — № I. — P. 9 — 11.

16. Egorov N.S. Basic teachings about antibiotics. M.: Higher. wk. — 2004.- 525 p.

17. Redneck N.M. Extracellular hydrolytic enzymes mikofil tion of fungi and their role in mikoparazitizme : Author. diss. kand.biol.nauk. M.. — 1985. — 23 p.

18. Ivanov I., Guzhova E.P., Burdenko L.G. Effect of inoculum on the biosynthesis of cellulolytic enzymes Asp.terreus / / J. Appl. biochem. and microbiology., 1980. — T. 16.- № 1. — P. 60.

19. Kolombet , L.B. Plant protection in the third millennium : where chemistry vstre cha is ecology // Arpo XXI, 1999. — № 10. — P. 3 — 5.

20. Kolombet L/V/, Dianova O.V. Search strain of the fungus genus Trichoderma, ef cient against diseases of cereal cultures // Mater. international. scientific. — Pract. conf. : Production and use of biological control agents races teny from pests and diseases , Sept. 12-16. 1994 , Odessa. — P. 141.

21. Kolombet L.V., Zhigletsova S.K., Derbyshev V.V. Uzhov D.V., Kosarev N.I. Bystrov E.V. Mikofungitsid — preparation based on Trichoderma viride for the control of plant diseases. // Butt. biochem. and microbiology. 2001. — T. 37. — № 1. — P. 110 — 114.

22. Kolombet LV Scientific basis and practical implementation technol -ogy create fungal drugs to protect plants from disease : Author. diss. Doctor. biol. Sciences. M. — 2006 — P. 42.

23. Kurahtanova TI Study protivogribnoy antibiotic activity of some fungi mikofilnyh : Author. diss.kand.biol.nauk. — M — 1972. — P. 22.

24. Lerner LE Biological activity mikofilnyh fungi and their interaction with fungi in culture : Author. diss. Candidate. biol. Sciences. — M — 1977. — P. 22.

25. Lurie LM Bartashevich JE, Levites MM Some features of the cephalosporin C biosynthetic pathway in a synthetic medium. / / Antibiotics , 1980. — № 5. — P. 3 — 8.

26. Maximova R.A., Huratova B.G. , Srength A.B. Study biosynthetic features when changing ratios of carbon and nitrogen supply. // Nauch.dokl. High. school. Ser. water se. Science , 1969. — № 6. — P. 97 — 101.

27. Maximova R.A. , Strength A.B., Palm N.P. Biologists — cal features imperfect fungus Trichothecium goseum — Trichothecene producer. // In Sat : "Antibiotics and their producers ," M. — 1975. P. 232 — 236.

28. Maximova R.A., Huratova B.G., Petrykin E.I. Leikina M.I., Synthesis seksviterpenovyh metabolites in the culture Trichothecium goseum LK. Ex.Fr. // Nauchn.dokl. vysh. school , sir. biol. Science, 1985. — № 6. — P. 96 — 99.

29. Markovich HA, Kononov GL Trichoderma lytic enzymes and their role in protecting plants from fungal diseases ( review) // Applied biochem. and micro- Robiola, 2003. — T. 39. — № 4. — P. 389 — 400.

30. Macha E.G. Cultivation Trichoderma fungi on lignouglevod -tion substrates and production of biological preparations : Author. diss. Candidate. biol. Sciences. — Krasnoyarsk , 1977. — P. 22.

31. Minayeva T.A., Maximova R.A. Influence of age and phase of seed mitse forces for growth and biosynthetic activity of the fungus Trichothecium goseum. // Prikl.biohim. and microbiology. , 1982. — T.18. — issue 2. — P.186 — 190.

32. Michal I.I., Buchinova A.K. Distribution, ecology and taxonomic notes on the species and genera Hypomyces Nectinia (Hypocreales) in Slovakia. // Micol. and fitopatol. , 2007. — V. 41 , № 3. — P. 242 — 251.

33. Negrutskii S.Y. Using mushroom Reniophora gigantia mass. for the biological protection of plants Fomitopsis annosa (Fr) Karst — pathogen roots. sponge. / / Micol. and phytopathogenic. , 1975. — V. 9. — № 3. — P. 231 — 235.

34. Rudakov O.L. Mikofilnye fungi, their biology and practical significance. Nauka, Moscow , 1981. — 158 p.

35. Sidorov I.I. Fungi of the genus Tgichoderma Link. and they form an anti- biotic substances: Author. kand.diss. M. , 1964. — 24 p.

36. Sidorov I.I. Biological methods of dealing with harmful fungi. // Results in science and technology VINITI. Def. stretch. , 1980. — V. 7. — P. 116 — 157.

37. Sidorov I.I., Lerner L.E., Makarova M.O. Biologically active substance mikofilnyh fungi Nuromuses. // Micol. and phytopathogenic. — 1977. — T. 2. — № 4.- P.315 — 320.

38. Stepanova E.V., Koroleva O.V., Vasil'chenko L.G., Karapetyan K.N., Landesman E.O., Yavmetdinov I.S., Kozlov Y.P., Rabinovich M.L. Oat straw decomposition in the liquid phase and solid phase cultivation. // Butt. biochem. and microbiol., 2003. — T. 39. — № 1. — P. 74 — 84.

39. Stolbov K.A. Protivorzhavchinnaya antibiotic activity strains Cladobotryum varium. // Micol. and phytopathogenic. , 1983. — T. 17. — № 4. — P. 343 — 344.

40. Stolbov K.A. Mikofilny mushroom Cladobotryum varium. and the possibility of its use in controlling wheat stem rust : Author. diss. Candidate. biol.nauk. — M — 1985. — 22 p.

41. Suprun C.M., Zakordonets L.A., Bogomolov L.A, Gorbik LT, Pustovalov Islands LI Formation of biologically active substances Fusarium LK.ex.Fr. // Filamentous fungi : physiology , biochemistry and biotechnology : Mater. Ail — conf. — Pushchino , 1983. — P. 12- 13.

42. Titov Y.A., Novikov I.I., Khlopunova L.B. , Korshunov D. Trihodermin based on secondary waste bioconversion and its efficacy against cucumber diseases. // Micol. and phytopathogenic, 2002. — T. 36. — №. 4. — P. 76 — 80.

43. Tiunova N.L., Phoenix R.V. Kobzev N. Rodionova N.A. Some extracellular hydrolytic enzymes, bacteria and fungi. // J. Appl. biochemical and microbiological mia, 1973. — T. 9 , №. 2. — P. 198 — 203.

44. Tiunova N.A., N.Y. Kobzev Enzymatic digestion of cell ste knock yeast in different phases of growth. / / Microbiology , 1976. — T. 45. — № 5. — P. 781 — 786.

45. Tiunova N.A., Sidorov I.I. Extracellular hydrolytic enzymes ments mikofilnyh mushrooms. // Micol. and fitopatol. 1980. — T.14. — № 6. — P.496 — 499.

46. Tiunova N.A., Goon N.M., Sidorov I.I. Education ? — and ? — Gluck called chitinase and at deep cultivation mikofilnyh fungi. / / Micol. and fitopatol. , 1982. — T. 16. — № 4. P. 330 — 334.

47. Tiunova N.A. Chitinolytic 30. T. enzymes of microorganisms. // Success water se. Science , 1989. — P. 199 — 219.

48. Tiunova N.A., Goon N.M., Zaykina I.V., Kobzev N.Y. Bioconversion grow tional materials. — Moscow: Nauka , 1984. — P. 57 — 59.

49. Toropova E.G., Egorov N.S., Lepihova R. Effect of pH and aeration on growth. APT. spheroids and novobiocin biosynthesis. // Nauch.doklady vyssh. wk. , se Riya water se. Science , 1969. — № 2. — P. 90 — 94.

50. Toropova E.G., Egorov N.S., Beresneva G.G. Piskunkova NF Burakaeva AD Education and antibiotics exoproteases mikofilnymi mushrooms. // Filamentous fungi : physiology , biochemistry and biotechnology : Mater. Ail yuzn. conf. — Pushchino , 1983. — P. 151.

51. Toropova E.G. Landau N.S., Sidorov I.I. , N.S. Egorov GG Beresneva Mikofilnye mushrooms — some producers of biologically active substances. Micol. and fitopatol. , 1983. — v.17. — № 3. — P. 195 — 199.

52. Toropova E.G., Egorov N.S. Sidorov I.I. , Beresneva G.G., Piskunkova N.F. Hypomyces rosellus strain 94/77 — producing protease complex and preparation of antibacterial and fungicidal spectrum of action. Avt.svid. USSR number 113189. — Publ. 30.08.85. — Bull. Number 32.

53. Toropova EG, Piskunkova N.F., Burakaeva A.D. Influence of composition and pH on the biosynthesis of the antibiotic in Hypomyces rosellus. // Physiology , biochemical mia, organization of microorganisms : Mater. Proc. Microbiology. Congress. — A- Ata. — 1985. — P. 147.

54. Toropova E.G. Mardamshina ( Burakaeva ) A.D., Piskunkova N.F., Antos M.s Study conditions biosynthesis , isolation and purification of antibiotic Hypomyces rosellus. // Ways to improve the microbial pest control and bo Leznov plants: Mater. Proc. conf. — Velegozh , 1986. — P.171.

55. Toropova E.G., Maksimov V.N., Beresneva G.G. Egorov N.S., Burakaeva A.D. Optimization of medium composition for the biosynthesis of the antibiotic , proteases and pig ments mikofilnym fungus Hypomyces rosellus using the mathematical strategic planning of the experiment. // Antibiotics and medits. biotechnology. , 1986. — № 6. — P. 408 — 411.

56. Toropova E.G., Mardamshina ( Burakaeva ) A.D., Piskunkova N.F. Selection of seed medium , age and number of seed mycelium , providing simultaneous antibiotic biosynthesis and pigment in the fungus Hypomyces. rosellus // Antibiotics and chemotherapy. — M. , 1988. — № 2. — P. 96 — 99.

57. Toropova E.G.,.Maksimov V.N, Mardamshina ( Burakaeva ) A.D., Piskunko N.F. Island Effect of some metal cations on the formation of antibiotics and pigment mikofilnym fungus Hypomyces.rosellus // Sci. of reports. High. wk. , Ser. Biological. science. — M. , 1989. — № 4 — P.84 — 88.

58. Fedorinchik N.S., Tarunin T.A. ,. Runkovskaya L.Y. Profound way of growing the fungus Trichoderma lignorum Harz / / Tr. WALS , 1975. — № 2. — P. 151-160.

59. Huratova B.G. Terms of antibiotic biosynthesis Trichothecene : Author. diss. Doctor. biol. Sciences. — M — 1977. — 24 p.

60. Huratova B.G. Study conditions Trichothecene biosynthesis. // Vestn. Moscow State University, Ser. water se. , 1973. — № 3. — P. 121 — 122.

61. Huratova B.G., Maximova R.A., Strength A.B. The use of different carbon sources fungus Trichothecium goseum Trichothecene synthesis and proteases. / / Science. of reports. vyssh. school. water se. Science , 1978. — № 4. — P. 111 — 113.

62. Seagull M.N., Sidorov I.I.Effect of cultivation conditions on the development of the fungus ment mikofilnogo Darcula film. / / Science of the reports. vyssh. wk. , 1977 — № 7. — P. 86 — 89.

63. Shuvalov I..A, Bartosiewicz Y.E. Adjusting the various sources of carbon and nitrogen synthesis alkali exoproteases and cephalosporin C in Acremonium chrisogenum. // Antibiotics , 1981. — № 3. — P.83 — 88.

64. Yakymenko E.E., Grodnitsky I. D. Effect of Trichoderma fungi on soil fungi are causing infectious conifer seedlings lodging tion in forest nurseries Siberia / / Microbiology , 2000. — T. 69 , № 6. — P. 850 — 854.

65. Andhia TK, Russel DW Enitiation prodaction by Fusarium sambucinum primary, secondaray and unitary metabolism. / / J. Gen. Microbiol., 1975. — V. 86. — № 4 — P. 328 — 331.

66. Argoudelis A.D., Johnson L.E. Emerimicins II, III and IY, antibiotics produced by Emericellopsis microspora in media supplemented with trans-4n-propul-L-proline. / / J. Antibiot., 1974. — V. 27. — № 4. — P. 274 — 282.

67. Ayer W.A., Lee S.P., Tsuneda A., Hiratsuka V. The isolation, identification and bioassay of the antifungal metabolites produced by Monocillium nardinii. / / Can. of Microbiol. — 1980. — V. 26. — № 7. — P. 766 — 773.

68. Aueg WA, Rodrigues BP, Vederas J. Identification of sterigmatocystin as a metabolite of Monocillium nordinii. / / Car. J. of Microbiol., 1981. — V.27. — № 8. — P. 846 — 847.

69. Varnett H.L. The nature of mycoparasitism by Fungy, 1963. — V. 17. — № 1. — P. 1 — 17.

70. Brewer D., Araenault GP, Wright JL, Vining LC Prodaction of bikaverin by Fusarium oxysporium and its identity with lycopersin. // Antibiot., 1973. — V. 26. — P. 778 — 781.

71. Brewer D., Jen W.C., Jones G.A., Taylor A. The antibacterial activity of some naturally occurring 2,5-dihydroxy- 1 ,4-benzaquinones. // Can. J. Microbiol., 1984. — V. 30. — P. 1068 — 1072.

72. Briichner H., Graf H. Paracelsin, a peptide antibiotic containing ? — aminoisobutyric acid, isolation from Trichoderma reesei simmons. // Experientia, 1983. — V. 39 , № 5. — P. 528 — 530.

73. Bu, Lock J.D. Secondary metabolism in fungi and its relationship to growth and development. In: The filamentous fungi, 1975. — V. 1. — P. 33 — 58.

74. Cameron D. W., Crassley M.J. Synthesis of emodin methylethem. // Austr. J. Chem., 1977. — V. 30. — P. 1161 — 1165.

75. Deffieux G., Baute R., Filleau M.J. Prodaction de metabolites antibiotiques nouveaux par une souche du champignon Epicoccum nigrum Link (adelomyces) -. II. Determination de la strucrure des epicorazines A et B. Bull. // Soc. Pharm. Bordeaux, 1981. — V. 120 — № 1 — 2. — P. 23 — 32.

76. Demain A.G. Cellular and environmental factors affecting the synthesis and exeretion of metabolites. // J. App. Chem.Biotechnol., 1972 — № 22. — P. 345 — 349.

77. Demain A.G., Kennel I.M. Resting- intraoperatively studies on carbon souce regulation of Lactan Anibiotic Biosynthesis. / / J. Ferment. Technol., 1978. — № 4. — P. 323 — 328.

78. Dennis C., Webster J. Antogonistic properties of species groups of Trichoderma. // J. Production of neu-volatile antibioties. Trans. Brit. Mycol. Soc., 1971. — V. 57. — № 1. — P. 25 — 39.

79. Floyd S.H.M , Tietz A. Defined media strategies for the biosynthesis of cephalosporin. / / J. Biotechnol. Lett. — 1983. — V. 5 , № 6. — P. 385 — 390.

80. Gams P., Young T.W.K. Interfundal parasitic relationship. Wallingford, Oxon: CAB // Internationd, 1999. — P. 296.

81. Gams W., Diederich P., Poldmaa K., Eds G.M. Mueller et.al. Fungicolous fungi. Biodeversity of fungi, inventory and monitoring // Burlington: Elsevier Acad.Press., 2004. — P. 343 — 392.

82. Garcia I., Lora JM, Cruz J. De La, Benitez T., Llobell A., Pintor-Toro JA Cloning and characterization of a chitinase (CHIT42) cDNA from the mycoparasitic fungus Trichoderma harzianum // Curr. Genet., 1994. — V. 27. — № 1. — P. 83 — 89.

83. Haab D., Hagspiel K., Szakmary K., Kubicek P. Formation of the extracellular proteases from Trichoderma reesi QM 9414 involved in cellulase degradation / / J. of Biotechnol., 1990. — V. 16. — P. 187 — 198 ;

84. Hanlin R.T. Morphology of Hypomyces lactifluorum. / Bot. Gaz., 1963. — V. — 124. — P. 395.

85. Harman G.E., Jin X, Stasz T.E., Peruzzotti G., Leopold A.C., Taylor A.G. Production of conidial biomass of Trichoderma harzianum for biological control. / / Biological. control., 1991. — V. 1. — P. 23 — 28.

86. Harman G.E. Controlling plant pathogens and improving plant growth and productivity with biologicals. // Predicting Field Performance in Crop Protection: British Crop Protection Council Symposium Proceeding, 2000. — № 74. — P. 101-110.

87. Harman G.E., Donzelli B.G.G. Enhancing Crop Performance and Pest Resistance with genes from biocontrol agents // In Enhancing Biocontrol Agents and Handling Risks. IOC Press Amsterdam, 2001. — P. 114 — 125.

88. Hatfield G.M., Slagle D.C. Isolation of skyrin from Hypomyces lactifluorum. / / Lloydia, 1973. — V. 36.- № 3. — P. 354 — 356.

89. Hin-Ching W., Koehler P.L. Production and isolation of antidiotic from Monascus purpureus and its Relationship to pigment prodaction. // J.of Food Scaiens, 1981. — V. 46. — P. 589 — 592.

90. Hostales Z., Catabolic regulation of antibiotic biosynthesis. / / Folia microbial, 1980. — V. 25. — P. 445 — 450.

91. Kuhlman E.G., Matthews F.R., Tillerso H.P. Efficacy of Darlucafilum for biological-control of Cronartium fusiforme and Cronartium srtobilium. // Phytopatology, 1978. — V. 68. — № 3. — P. 507 — 511.

92. Lorito M. Pseudomonas lipodepsipeptides (LPDs) and Trichoderma cell wall-degrading enzymes are synergistic in the inhibition of fungal growth // 5th Congress of the European Foundation for Plant Pathology, Taormina. Italy, 2000. — P. 91.

93. Linberg J.D. An antibiotic lethal to fungi. // Plant Disease, 1981. — V. 65 , № 8. — P. 680 — 683.

94. Nair M.S.R., Carey S.T. Metabolites of pyrenomycetes. II. Necttriapyrone an antibiotic monoterpenoid. // Tetrahedron Letters, 1975. — № 19. — P. 1655 — 1658.

95. Nair M.S.R. Biogenesis and revised structure of rosellisin; structure of rosellisin aldehyde. // Phytochem., 1976. — V. 15. — P 1090 — 1091.

96. Nair M.S.R., Carey S.T. Metabolites of Pycenomycetes XIII: Structure of (+) Hypomycin, an antibiotic macrolide from Hypomyces trichothecoides. // Tetrahedron Letters., 1980. — V..21. — P. 2011 — 2012.

97. Saha C., Singh S.K., Sengupta P. Optimum conditions for the biosynthesis of an antibiotic by Aspergillus terreus var. africanus. // Science and Culture, 1981. — V. 47 , № 9. — P. 337 — 339.

98. Schindler I. Terpenoids by microbial fermentation. // Ind. and Eng. Chem. Prod. Res. and Develop., 1982. — V.21. — № 4. — P. 537 — 539.

99. Wilsinger D., Gubler H.U., Haefliger W., Hauser D. Antiinflammatory activity of the mould metabolite 11 -desace-toxy-wortmannin and of some of its derivatives. // Experientia, 1974. — V. 30 , № 2. — P. 135 — 136.


About this article

Author: Burakaeva A.D.

Year: 2014


Editor-in-chief
Sergey Aleksandrovich
MIROSHNIKOV

Crossref
Cyberleninka
Doi
Europeanlibrary
Googleacademy
scienceindex
worldcat
© Электронное периодическое издание: ВЕСТНИК ОГУ on-line (VESTNIK OSU on-line), ISSN on-line 1814-6465
Зарегистрировано в Федеральной службе по надзору в сфере связи, информационных технологий и массовых коммуникаций
Свидетельство о регистрации СМИ: Эл № ФС77-37678 от 29 сентября 2009 г.
Учредитель: Оренбургский государственный университет (ОГУ)
Главный редактор: С.А. Мирошников
Адрес редакции: 460018, г. Оренбург, проспект Победы, д. 13, к. 2335
Тел./факс: (3532)37-27-78 E-mail: vestnik@mail.osu.ru
1999–2024 © CIT OSU