THE ACTIONS OF BIOLOGICAL ACTIVE SUBSTANCES TO EXPERIMENTAL MODELS OF FIRST LIVING OBJECTS
Abstract and keywords
Abstract (English):
The re-understand of the probabilistic possibilities of creating pre-biotic and biotic processes, resulting in initiation, further development and adaptation to environment of predecessors of living subjects are presented at this work. For these purposes the certain data were obtained, when studying the actions of biologically active substance (BAS) with engagement of modern experimental models and bio-objects. The experimental objects used consistently as of complicating of their structural properties and respectively of emergence of functional properties. The liposomes, which are formed, from artificial individual phospholipid, and from mixture of nature phospholipids, were used as the experimental objects for structural studies of lipid-lipid interactions. To identify of structural rearrangements, which involved of the protein-lipid interactions, the erythrocyte ghost and the insulated erythrocytes were used. The investigations of BAS influences on cells functioning were provided with study of calcium signalizations ways of the transformed with uncontrolled growth cells of ascetic Ehrlich carcinoma, and of the normal cells - thymocytes and lymphocytes. For inspection of actions of BAS as the modifiers of structures and functions of model and bio-objects, we used hydrophilic substances: the plant growth regulator melafen, the antioxidant phenoksan, and the hydrophobe antioxidants - IHFANs. So has managed to trace influence BAS, as probable factors of natural selection of different nature on increasingly becoming complicated on its organization the objects, simulating the development stages at an earlier stages of life-history. BAS may be regarded, as the factors of evolution. BAS may be factors for elimination of instable structures. And BAS may be also as strong factors for emergence of new subjects or updating of existence subjects due to BAS incorporating to its structures. The .obtained data could help also to performance analysis of predecessors of modern cellular structures.

Keywords:
membranes, erythrocyte, biologically active substances, differential scanning microcalorymetry, hemolysis
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References

1. Chetverin A.B. Molecular colonies: a plausible form of compartmentalization in the RNA world. Sb. tezisov Mezhdunar. konf. «Problema proishozhdeniya zhizni» i associirovannoy s ney Molodezhnaya nauchnaya shkola «Molekulyarnye i kletochnye osnovy ranney evolyucii zhizni», 22-26 sent. 2014, Moskva, s. 8-9. [Chetverin A.B. Proceedings of the International conference «Problems of life origination» September 22-26 2014, Moscow, pp. 8-9.]

2. Antonov V.F., Smirnova E.Yu., Shevchenko E.V. Lipidnye membrany pri fazovyh prevrascheniyah. Moskva: Nauka, 1992, 125 s. [Antonov V.F., Smirnova E.Yu., Shevchenko E.V. Lipids membranes when phase transitions. Moscow: Nauka, 1992, 125 p. (In Russ.)]

3. Wanunu M., Bhattacharya S., Xie Y., Tor Y., Aksimentiev A., Drndic M. Nanopore analysis of individual RNA/antibiotic complexes. ACS Nano, 2011, vol. 5, no. 12, pp. 9345-53.

4. Fahy E., Subramaniam S., Brown H.A., Glass C.K., Merill A.H., Jr., Murphy R.C., Raetz C.R., Russell D.W., Seyama Y., Shaw W., Shimizu T., Spener F., van Meer G., VanNieuwenhze M.S., White S., Witztum J.L., Dennis E.A. A comprehensive classification system for lipids. J. Lipid Res., 2005, vol. 46, pp. 839-861.

5. Tarahovskiy Yu.S., Kuznecova S.M., Vasil'eva N.A., Egorochkin M.A., Kim Yu.A. Vzaimodeystvie taksifolina (digidrokvercitina) s mul'tilamellyarnymi liposomami iz dimiristoilfosfatidilholina. Biofizika, 2008, t. 53, № 1, s. 78-84. [Tarachovsky Yu.S., Vasilieva N.A., Egorochkin M.A., Kim Yu.A. Interrelationship of taxipholine (digidrokvercitine) with multilammelar liposomes formed from dimyristoilphosphatidylcholine. Biophysics, 2008, vol. 53, no. 1, pp. 78-84. (In Russ.)]

6. Alekseeva O.M., Krivandin A.V., Shatalova O.V., Rykov V.A., Fattahov S.G., Burlakova E.B., Konovalov A.I. Issledovanie vzaimodeystviya melafena s fosfolipidnymi membranami. Doklady akademii nauk, 2009, t. 427, № 6, c. 837-839. [Alekseeva O.M., Krivandin A.V., Shatalova O.V., Rykov V.A., Fattakhov S.G., Burlakova E.B., Konovalov A.I. The Melafen-Lipid- interaction Determination in phospholipid membranes. Reports of Russian Academy of Sciences, 2009, vol. 427, no. 6, pp. 837-839. (In Russ.)]

7. Fattahov S.G., Reznik V.S., Konovalov A.I. Melaminovaya sol' bis(oksimetil)fosfinovoy kisloty (melafen) kak regulyator rosta i razvitiya rasteniy novogo pokoleniya. Sbornik dokladov 13-oy Mezhdunarodnoy konferencii po himii soedineniy fosfora, Sankt-Peterburg, 2002, s. 80. [Fattachov S.G., Reznik V.S., Konovalov A.I. Proceedings of 13 International conference on chemistry of phosphorus compounds, St. Petersburg, 2002, p. 80. (In Russ.)]

8. Ershov V.V., Nikiforov G.A., Volod'kin A.A. Prostranstvenno-zatrudnennye fenoly. M.: Himiya, 1972, 352 s. [Ershov V.V., Nikiforov G.A., Volod'kin A.A. Space hampered phenols. Moscow: Chemistry, 1972, 352 p. (in Russ.)]

9. Gendel' L.Ya., Kim L.V., Luneva O.G., Fedin V.A., Kruglyakova K.E. Izmeneniya poverhnostnoy arhitektoniki eritrocitov pod vliyaniem sinteticheskogo antioksidanta fenozana-1. Izvestiya RAN. Ser. Biol., 1996, № 4, c. 508-512. [Gendel L.J., Kim L.V., Luneva O.G., Fedin V.A., Kruglakova K.E. Changes of cursory architectonics of erythrocytes under the impact of synthetic antioxidant Fenosan-1. Reports of Russian Academy of Science. Series Biol., 1996, vol. 4, pp. 508-512. (In Russ.)]

10. Burlakova E.B., Molochkina E.M., Nikiforov G.A. Hybrid antioxidants. Chemistry and Chemical Technology, 2008, vol. 2, no. 3, pp. 163-171.

11. Arhipova G.V., Burlakova E.B., Krivandin A.V., Pogoreckaya I.L. Vliyanie fenozana na strukturu fosfolipidnyh membran. Neyrohimiya, 1996, t. 13, s. 128-132. [Archipova G.V., Burlakova, E.B., Krivandin, A.V., Pogoretskaya I.L. Phenosan-acid influence to phospholipid membrane. Neurochemistry, 1996, vol. 13, pp. 128-132. (In Russ.)]

12. Krivandin A.V., Fatkullina L.D. Issledovanie vstraivaniya antioksidanta IHFAN v liposomy metodom malouglovogo rentgenovskogo rasseyaniya. Himicheskaya fizika, 2013, t. 32, № 5, s. 91-96. [Krivandin A.V., Fatkullina L.D. Investigation of antioxidant IHFAN incorporation to liposomes by method of small angle roentgen scattering. Chemical physics, 2013, vol. 32, no. 5, pp. 91-96. (In Russ.)]

13. Sato Y., Yamakose H., Suzuki Ya. Mechanism of hypotonic hemolysis of human erythrocytes. Biol. Pharm. Bull., 1993, vol. 16, no. 5, pp. 506-512.

14. Jackson W.M., Kostyla J., Nordin J.H., Brandts J.F. Calorimetric study of protein transitions in human erythrocyte ghosts. Biochemistry, 1973, vol. 12, pp. 3662-3667.

15. Goloschapov A.N., Burlakova E.B. Issledovaniya mikrovyazkosti i strukturnyh perehodov v lipidah i belkah kletochnyh membran metodom spinovyh zondov. Biofizika, 1975, t. 20, № 5, s. 816-821. [Goloshchapov A.N., Burlakova E.B. Microviscosity definition and structural transitions into lipids and proteins of cell membranes by the method of spin probes. Biophysics, 1975, vol. 20, no. 5, pp. 816-821. (in Russ.)]

16. Vekshina (Alekseeva) O.M., Fatkullina L.D., Kim Yu.A., Burlakova E.B. Izmeneniya struktury i funkciy membran eritrocitov i kletok ascitnoy karcinomy Erliha pri deystvii gibridnogo antioksidanta novogo pokoleniya IHFAN-10. Byulleten' eksperimental'noy biologii i mediciny, 2007, № 4, c. 402-406. [Vekshina (Alekseeva) O.M., Fatkullina L.D., Kim Yu.A., Burlakova E.B. Bulletin of experimental biology and medicine, 2007, no. 4, pp. 402-406. (In Russ.)]

17. Alekseeva O.M., Fatkullina L.D., Kim Yu.A., Zaikov G.E. The melafen influence to the erythrocyte’s proteins and lipids. Vestnik Kazanskogo tehnologicheskogo Universiteta, 2014, t. 17, vyp. 9, s. 176-181. [Alekseeva O.M., Fatkullina L.D., Kim Yu.A., Zaikov G.E. The melafen influence to the erythrocyte’s proteins and lipids. Digest of Kazan Technology University, vol. 17, iss. 9, pp. 176-181. (In Russ.)]

18. Kim Yu.A., Elemesov R.E., Akoev V.R. Giperosmoticheskiy gemoliz eritrocitov i antigemoliticheskaya aktivnost' frakcii saponinov i triterpenovyh glikozidov iz Panax Ginseng C.A. Meyer. Biologicheskie membrany, 2000, t. 17, № 2, s. 15-26. [Kim Yu.A., Elemesov R.E., Akoev V.R. Hyper osmotic hemolysis of erythrocytes and antihemolytic activity of saponins faction and triterpens glycosides from Panax Ginseng C.A. Meyer. Biological Membrane, 2000, vol. 17, no. 2, pp. 15-26. (In Russ.)]

19. Alekseeva O.M., Kim Yu.A., Zaikov G.E. The interactions melafen and ihfans with animal’s soluble protein. Vestnik Kazanskogo tehnologicheskogo Universiteta, 2014, t. 17, vyp. 7, s. 167-170. [Alekseeva O.M., Kim Yu.A., Zaikov G.E. The interactions melafen and ihfans with animal’s soluble protein. Digest of Kazan Technology University, vol. 17, iss. 7, pp. 167-170. (In Russ.)]

20. Binyukov V.I., Alekseeva O.M., Mil' E.M., Albantova A.A., Fattahov S.G., Goloschapov A.N., Burlakova E.B., Konovalov A.I. Izuchenie vliyaniya fenozana, IHFAN-10 i melafena na eritrocity in vivo metodom ASM. DAN. Ser. Biol., 2011, t. 441, № 1, s. 114-117. [Binukov V.I., Alekseeva O.M., Mill E.M., Albantova A.A., Fattachov S.G., Konovalov A.I. Reports of Russian Academy of Science. Series. Biol., 2011, vol. 441, no. 1, pp. 114-117. (In Russ.)]

21. Alekseeva O.M. Melafen - Plant Growth Regulator and Pathways of cells. Polymers Research Journal, 2013, vol. 7, no. 1, pp. 117-128.

22. Ryzhkina I.S., Murtazina L.I., Timosheva A.P., Shagidullin P.P., Chernova A.V., Avvakumova Zh.B., Fattahov S.G., Konovalov A.I. Supramolekulyarnye struktury na baze gidrofil'nogo proizvodnogo melamina i bis(oksimetil)fosfinovoy kisloty (melafen) i poverhnostno aktivnye veschestva. Struktura i samoassociaciya Melafena v vode i hloroforme. Izvestiya akademii nauk. Ser. Biol., 2008, № 6, c. 1207-1214.

23. Ryzhkina I.S., Murtazina L.I., Kiseleva Yu.V., Manzhukova D.N, Timosheva A.P., Pal'mina N.P., Konovalov A.I. Svoystva supramolekulyarnyh nanoassociatov, obrazuyuschihsya v vodnyh rastvorah nizkih i sverhnizkih koncentraciy biologicheski aktivnyh veschestv. DAN. Ser. Biol., 2009, t. 428, № 4, s. 487-491. [Ryshkina I.S., Murtasina L.I., Kiseleva Yu.V., Mangukova D.P., Timosheva A.P., Palmina N.P., Konovalov A.I. Reports of Russian Academy of Science. Series. Biol., 2009, vol. 428, no. 4, pp. 487-491. (in Russ.)]

24. Gavrilov L.R. Fizicheskie osnovy processov ul'trazvukovoy tehnologii. M.: Nauka, red. L.D. Rozenberg, 1970, s. 395-426. [Gavrilov L.R. Physical bases of ultrasonic technology. Moscow: Nauka, ed. L.D. Rosenberg, 1970, pp. 395-426. (In Russ.)]

25. Sirotyuk M.G. Vliyanie temperatury i gazosoderzhaniya zhidkosti na kavitacionnye processy. Akustich. Zhurnal, 1966, t. 12, № 1, s. 87-92. [Sirotuk M.G. Influence of liquids temperature and gas composition on cavitation process. Acoustic Journal, 1966, vol. 12, no. 1, pp. 87-92. (In Russ.)]


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