ОСОБЕННОСТИ КАТАЛИТИЧЕСКОГО ДЕЙСТВИЯ ЦИТОХРОМОВ Р450 СЕМЕЙСТВА CYP74

1. Leon, J. Wound signalling in plants / J. Leon, E. Rojo, J.J. Sanchez-Serrano // J Exp Bot. 2001. Vol. 52. N.354. P. 1-9.

2. Noordermeer, M.A. Fatty acid hydroperoxide lyase: a plant cytochrome P450 enzyme involved in wound healing and pest resistance / M.A. Noordermeer, G.A. Veldink, J.F. Vliegenthart // Chem Bio Chem. 2001. Vol. 2. N.7-8. P. 494-504.

3. Grechkin, A.N. Recent developments in biochemistry of the plant lipoxygenase pathway / Prog Lipid Res. 1998. Vol. 37. N.5. P. 317-352.

4. Brash, A.R. Mechanistic aspects of CYP74 allene oxide synthases and related cytochrome P450 enzymes / Phytochemistry. 2009. Vol. 70. N.13-14. P. 1522-1531.

5. Browse, J. Jasmonate: an oxylipin signal with many roles in plants / Vitam Horm. 2005. Vol. 72. P. 431-456.

6. Savchenko T.V. Oxylipins and plant abiotic stress resistance / T.V. Savchenko, O.M. Zastrijnaja, V.V. Klimov //Biochemistry (Mosc) 2014. Vol. 79(4). P. 362-375.

7. Prost, I. Evaluation of the antimicrobial activities of plant oxylipins supports their involvement in defense against pathogens / I. Prost, S. Dhondt, G. Rothe, J. Vi 164 cente, M.J. Rodriguez, N. Kift, F. Carbonne, G. Giffiths, M. T. Esquerre-Tugaye, S. Rosahl, C. Castresana, M. Hamberg, J. Fournier // Plant Physiol. 2005. Vol. 139. N. 4. P. 1902-1913.

8. Gorina, S.S. Oxylipin biosynthesis in spike moss Selaginella moellendorffii: Molecular cloning and identification of divinyl ether synthases CYP74M1 and CYP74M3. / S.S. Gorina, Y.Y. Toporkova, L.S. Mukhtarova, E.O. Smirnova, I.R. Chechetkin, B.I. Khairutdinov, Y.V. Gogolev, A.N. Grechkin // BiochimBiophysActa. (BBA). 2016. V.1861(4). P. 301-309.

9. Toporkova Y.Y. Epoxyalcohol synthase RjEAS (CYP74A88) from the japanese buttercup (Ranunculus japonicus): Cloning and characterization of catalytic properties / Y.Y. Toporkova, V.S. Fatykhova, S.S. Gorina, L.S. Mukhtarova, A.N. Grechkin.

10. Toporkova Y.Y. Detection of the first higher plant epoxyalcohol synthase: Molecular cloning and characterisation of the CYP74M2 enzyme of spike moss Selaginella moellendorffii / Y.Y. Toporkova, E.O. Smirnova, S.S. Gorina, L.S. Mukhtarova, A.N. Grechkin // Phytochemistry 2018. Vol. 156. P.73-82.

11. Toporkova Y.Y. Double function hydroperoxidelyases/epoxyalcohol synthases (CYP74C) of higher plants: identification and conversion into allene oxide synthases by site-directed mutagenesis / Y.Y. Toporkova, S.S. Gorina, E.K. Bessolitsyna, E.O. Smirnova, V.S. Fatykhova, F. Brühlmann, T.M. Ilyina, L.S. Mukhtarova, A.N. Grechkin // BiochimBiophysActaMol Cell Biol Lipids. 2018. Vol. 1863(4). P. 369-378.

12. Schaller A. Enzymes in jasmonate biosynthesis: structure, function, regulation / A. Schaller, A. Stintzi // Phytochemistry 2009. Vol. 70. P. 1532-1538.

13. Wasternack, C. The wound response in tomato-role of jasmonic acid / C. Wasternack, I. Stenzel, B. Hause, G. Hause, C. Kutter, H. Maucher, J. Neumerkel, I. Feussner, O. Miersch // J Plant Physiol. 2006. Vol. 163. N.3. P. 297-306.