An overview of the currently existing methods of microorganisms and enzymes immobilization.
микроорганизм, фермент, иммобилизация, microorganism, enzyme, immobilization
1. E.N. Efremenko. Avtoref. diss. dokt. biol. nauk, Inst. biohim. fiziki im. N.M. Emanuelya RAN, Moskva, 2009.53 s.
2. U. Beshay, H. El-Enshasy, I.M.K. Ismail, H. Moawad, S. ABD-El-Ghany, Pol. J. Microbiol., 60, 2, 133-138 (2011).
3. O.V. Koptilova, N.M. Filatova, L.D. Asulyan, Uspehi sovremennogo estestvoznaniya, 2011. №8. S. 44-45.
4. C. Almeida, T. Branyik, P. Moradas-Ferreira, J. Teixeira, J. Biosci. Bioeng., 96, 6, 513-518 (2003).
5. T. Nakari-Setälä, J. Azeredo, M. Henriques, R. Oliveira, J. Teixeira, M. Linder, M. Penttilä, Appl. Environm. Microbiol., 68, 7, 3385-3391 (2002).
6. S. Liu, K. Kylä-Nikkilä, P.E.J. Saris, Bioeng. Bugs, 2, 3, 160-162 (2011).
7. A.V. Babchenko, N.B. Mіtіna, G.І. Naumenko, O.P. Kulik, IV Mіzhnarodna naukovo-praktichna konferencіya «Bіotehnologіya. Nauka. Osvіta. Praktika» (Dnіpropetrovs'k, 11-13 listopada, 2008). Dnіpropetrovs'k, 2008. S. 7.
8. A.L. Panasyuk, L.I. Rozina, L.A. Pelih, I.M. Shur, Vserossiyskiy nauchno-issledovatel'skiy institut pivovarennoy, bezalkogol'noy i vinodel'cheskoy promyshlennosti. 2012 (http://eurowine.com.ua/).
9. B.L. Shaskol'skiy. Avtoref. diss. kand. him. nauk, RHTU im. D.I. Mendeleeva, Moskva, 2009. 22 s.
10. O.A. Pisarev, N.M. Ezhova, Sorbcionnye i hromatograficheskie processy, 8, 4, 535-552 (2008).
11. Y. Kourkoutas, A. Bekatorou, I.M. Banat, R. Marchant, A.A. Koutinas, Food Microbiol., 21, 377-397 (2004).
12. M. Ikonomopoulou, M. Kanellaki, M. Soupioni, A.A. Koutinas, Appl. Biochem. Biotechnol., 104, 1, 23-36 (2003).
13. M. Navrátil, P. Gemeiner, J. Klein, E. Sturdik, A. Malovikova, J. Nahalka, A. Vikartovska, Z. Dömény, D. Šmogroviyova, Artif. Cells Blood Substit. Immobil. Biotechnol., 30, 5-6, 199-218 (2002).
14. A. Bekatorou, M.J. Soupioni, A.A. Koutinas, M.E. Kanellaki, Appl. Biochem. Biotechnol.,97, 2,105-121 (2002).
15. V. Nedović, R. Willaert, Applications of Cell Immobilisation Biotechnology. Springer, 2005.573 p.
16. T. Brányik, A.A. Vicente, J.M. Machado Cruz, J.A. Teixeira, J. Inst. Brew., 108, 410-415 (2002).
17. M.V. Harina, R.T. Valeeva, S.G. Muhachev, V.M. Emel'yanov, Vestn. Kaz. Tehn. Un-ta, 13, 210-212 (2012).
18. R.M. Nurtdinov, R.T. Valeeva, V.M. Emel'yanov, S.G. Muhachev, M.V. Harina, Vestn. Kaz. Tehn. Un-ta, 14, 211-214 (2011).
19. L.V. Potapova, I.V. Vladimceva, O.V. Kolotova, Sovremennye naukoemkie tehnologii, 2005. № 9. S 69-70.
20. F. Gritti, W. Piatkowski, G. Guiochon, J. Chromatogr. A., 983,1, 51-71 (2003).
21. N.A. Stepanov. Avtoref. diss. kand. tehn. nauk, Mosk. gos. univ. pisch. proizv., Moskva, 2007. 27 s.
22. V.I. Lozinsky, L.G. Damshkaln, I.N. Kurochkin, I.I. Kurochkin, Colloid J., 70, 2, 189-198 (2008).
23. V.V. Volkov, A.G. Fadeev, B.C. Hotimskiy, O.I. Buzin, M.V. Codikov, F.A. Yandieva, I.I. Moiseev, Ros. him. zh. (Zh. Ros. him. ob-va im. Mendeleeva), XLVII, 6, 71-82 (2003).
24. L.D. Asulyan, Izv. TulGU. Ser. Himiya, 6,137-144 (2006).
25. G. Szymanska, B. Sobierajski, A. Chmiel, Pol. J. Microbiol., 60,2, 105-112 (2011).
26. J.L. Gosse, B.J. Engel, F.E. Rey, C.S. Harwood, L.E. Scriven, M.C. Flickinger, Biotechnol. Prog., 23, 1, 124-130 (2007).
27. M.C. Flickinger, J.L. Schottel, D.R. Bond, A. Aksan, L.E. Scriven, Biotechnol. Prog., 23, 1, 2-17 (2007).
28. R.C. Wagner, S. Porter-Gill, B.E. Logan, AMB Express., 2, 2, 1-6 (2012).
29. H.Y. Kawaguti, P.H. Carvalho, J.A. Figueira, H.H. Sato, SAGE-Hindawi Access to Research, Enzyme Research, Article ID 791269, 8 p. (2011).
30. J. Synowiecki, S. Wolosowska, Enzyme Microb Technol., 39, 7, 1417-1422 (2006).
31. J. Tominaga, N. Kamiya, S. Doi, H. Ichinose, M. Goto. Enzyme Microb Technol., 35, 6-7, 613-618 (2004).
32. I.V. Shkutina, O.F. Stoyanova, V.V. Lunina, Sorbcionnye i hromatograficheskie processy, 9, 2, 247-253 (2009).
33. I. Kusters, N. Mukherjee, M.R. de Jong, S.J. Tans, A. Koçer, A.J.M. Driessen, PLoS One, 6, e20435, 1-8 (2011).
34. S.I. Hmel'nickiy, D.E. Lesovoy, Medicina segodnya, 234, 3, 38-44 (2008).
35. A. Brizard, M. Stuart, K. van Bommel, A. Friggeri, M. de Jong, J. van Esch, Angew. Chem. Int. Ed. Engl., 47, 11, 2063-2066 (2008).
36. T. Adachi, E. Isobe, J. Chromatogr., 1036, 1, 33-44 (2004).
37. D.A. Spivak, Adv. Drug Deliv. Rev., 57, 10, 1779-1794 (2005).
38. J.L. Urraca, M.D. Marazuela, E.R. Merino, G. Orellana, M.C. Moreno-Bondi, J. Chromatogr., 1117, 1, 74-80 (2006).
39. S.D. Varfolomeev, Himicheskaya enzimologiya. Akademiya, Moskva, 2005. 480 s.
40. F. Arslan, S. Ustabaş, H. Arslan, Sensors, 11, 8, 8152-8163 (2011).
41. S.D. Varfolomeev, Sorovskiy obrazovatel'nyy zhurnal. Himiya, 1,45-49 (1997).
42. R.E. Habibullin, H.R. Husainova, E.I. Minivaleeva, O.A. Reshetnik, Vestn. Kaz. Tehn. Un-ta, 16, 187-194 (2011).
43. V.Ya. Ponomarev, Vestn. Kaz. Tehn. Un-ta, 9, 616-620 (2010).
44. E.H. Yoo, S.Y. Lee, Sensors,10, 5, 4558-4576 (2010).
45. P. Norouzi, F. Faridbod, B. Larijani, M.R. Ganjali, Int. J. Electrochem. Sci., 5, 1213-1224 (2010).
46. I.A. Husainov, A.V. Kanarskiy, Z.A. Kanarskaya, M.A. Polivanov, Vestn. Kaz. Tehn. Un-ta, 3,174-179 (2011).
