Influence of a method of peroxidase immobilization on the activity of biocatalysts in oxidation of trimethylphenol

We have studied the activity of biocatalysts based on peroxidase immobilizedon Al2O3, SiO2, and on magnetic nanoparticles Fe3O4, the use ofwhich is a promising direction in biotechnology. Activity of these biocatalystswas studied in the catalytic oxidation of 2,3,6-trimethylphenol(TMP) to 2,3,5-trimethylhydroquinone (TMHQ), which is an intermediatein the synthesis of vitamin E. The paper shows the advantages of magneticnanoparticles in the immobilization of peroxidase for the catalyticsynthesis of TMHQ. The optimal conditions for the reaction were foundto be pH = 7,2 and temperature of 50 °C. The methods for the synthesisof magnetic nanoparticles Fe3O4 from inexpensive raw materials and forthe catalytic oxidation of TMP can be recommended as an alternative tothe standard industrial method for producing TMHQ.

peroxidase, immobilization, magnetic nanoparticles, oxidation, 2, 3, 6-trimethylphenol, 2, 3, 5-trimethylhydroquinone

1. Pramparo L., Stuber F, Font J, Fortuny A., Fabregat A., Bengoa C. // J. Hazard. Mater. 117. 2010. P. 990–1000.

2. Monier M., Ayad D.M., Wei Y., Sarhan A.A. // Int. J. Biol. Macromolec. 46. 2010. P. 324–330.

3. Шнайдман Л.О. // Производство витаминов. М.: Пищевая промышленность, 1973.

4. Заломаева О.В., Иванчикова И.Д., Холдеева О.А., Сорокин А.Б. // Рос. хим. ж. 2008. № 1. С. 57–66.

5. Kholdeeva O.A., Ivanchikova I.D., Guidotti M., Ravasio N. // Green Chem. 9. 2007. P. 731–733.

6. Холдеева О.А. // Дис. док. хим. наук. ИК СО РАН. 2006 .

7. Li Y., Liu W., Wu M., Yi Z., Zhang J. // J. Mol. Catal. A - Chemical 261. 2007. P. 73–78.

8. Guan W., Wang C., Yun X., Hu X., Wang Y., Li H. // Catal. Commun 9. 2008. P. 1979–1981.

9. Ma M., Zhang Y., Yu W., Shen H., Zhang H., Gu N. // Colloids Surf. A. 212. 2003. P. 219–226.

10. Веселова И.А., Кирейко А.В., Шеховцова Т.Н. // Appl. Biochem. Microbiol. № 2. Т. 45. 2009. С. 142–148.

11. Caseli L., D.S. dos Santos, R.F. Aroca and O.N. Oliveira // Mater sci. eng. 2009. 29(5) P. 1687-1690.

12. Варфоломеев С.Д. // Химическая энзимология. М.: Academia. 2005.

13. Березин И.В.,.Клячко Н.Л., Левашов А.В., Мартинек К., Можаев В.В., Хмельницкий Ю.Л. // Иммобилизованные ферменты. М: Высшая школа. 1987.

14. Corgie S.C., Kahawong P., Duan X., Bowser D., Edward J. B., Walker L. P.// Adv. Funct. Mater. 22. 2012. P. 1940–195.

15. Roach P., Farrar D., Perry C.C. // J. Am. Chem. Soc. 2006. 128 (12) Р. 3939– 3945.

16. Yu. F., Huang Y., Cole A. J., Yang C.// Biomaterials 30. 2009. P. 4716–4722.

17. Polshettiwar V., Luque R., Fihri A., Zhu H., Bouhrara M., and Basset J.M. // J. Chem. Rev. Vol. 111. 2011. P. 3036–3075.

18. Губин С.П., Кокшаров Ю.А., Хомутов Г.Б., Юрков Г.Ю. // Успехи химии. 74 (6). 2005. С. 539–574.

19. Chance B. and Maehly A.C. // Method. Enzymol. Vol. 2. 1955. Р. 773–775.