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Дата изменения: Tue Aug 24 20:00:32 1999
Дата индексирования: Mon Oct 1 22:08:09 2012
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Research Group
"Metalloenzymes: mechanism of action and application"

Selected Publications 1994-1998

  1. Gazaryan, I.G., Chubar, T.A., Ignatenko, O.V., Mareeva, E.A., Orlova, M.A., Kapeliuch, Yu.L., Savitsky, P.A., Rojkova A.M. & Tishkov, V.I. Tryptophanless recombinant horseradish peroxidase: stability and catalytuc properties. Biochem.Biohys.Res.Commun. - 1999, v. 262, N1, p.297-301
  2. Savitsky, P.A., Gazaryan, I.G., Tishkov, V.I., Lagrimini, L.M., Ruzgas, T. & Gorton, L. Oxidation of indole-3-acetic acid by dioxygen catalysed by plant peroxidases: specificity for the enzyme structure. Biochem.J. - 1999, v.340, p.579-583.
  3. Gazarian, I.G., Lagrimini, L.M., Mellon, F.A., Naldrett, M.J., Ashby, G.A., et al. Identification of skatolyl hydroperoxide and its role in the peroxidase-catalysed oxidation of indol-3-yl acetic acid.  Biochem.J. 1998;333:223-232.
  4. Gazarian I.G., Lagrimini L.M. Anaerobic stopped-flow studies of indole-3-acetic acid oxidation by dioxygen catalysed by horseradish C and anionic tobacco peroxidase at neutral pH: catalase effect.  Biophys.Chem. 1998;72:231-237.
  5. Gazaryan I.G., Rubtsova M.Y., Kapeliuch Y.L., Rodriguezlopez J.N., Lagrimini L.M., et al. Luminol oxidation by hydrogen peroxide catalyzed by tobacco anionic peroxidase: Steady-state luminescent and transient kinetic studies.  Photochem.Photobiol. 1998;67:106-110.
  6. Munteanu F.D., Lindgren A., Emneus J., Gorton L., Ruzgas T., Gazaryan I.G. Bioelectrochemical monitoring of phenols and aromatic amines in flow injection using novel plant peroxidases.  Anal.Chem. 1998;70:2596-2600.
  7. Savitsky PA, Rojkova AM, Tishkov V.I., Ouporov I.V., Rudenskaya G.N., Gazaryan I.G. Evidence for indole-3-acetic acid binding site in plant peroxidases. Structural similarity between peroxidases and auxin-binding proteins.  Biochemistry-Engl.Tr. 1998;63:629-633.
  8. Gazaryan I.G., Klyachko N.L., Dulkis Y.K., Ouporov I.V., Levashov A.V. Formation and properties of dimeric recombinant horseradish peroxidase in a system of reversed micelles.  Biochem.J. 1997;328:643-647.
  9. Gazarian I.G., Lagrimini L.M., George S.J., Thorneley R.F. Anionic tobacco peroxidase is active at extremely low pH: Veratryl alcohol oxidation with a pH optimum of 1.8.  Biochem.J. 1996;320:369-372.
  10. Gazaryan I.G., Lagrimini L.M. Purification and unusual kinetic properties of a tobacco anionic peroxidase.  Phytochemistry 1996;41:1029-1034.
  11. Gazaryan I.G., Lagrimini L.M., Ashby G.A., Thorneley R.F. Mechanism of indole-3-acetic acid oxidation by plant peroxidases: Anaerobic stopped-flow spectrophotometric studies on horseradish and tobacco peroxidases.  Biochem.J. 1996;313:841-847.
  12. Gazaryan I.G., Lagrimini L.M. Tobacco anionic peroxidase overexpressed in transgenic plants: Aerobic oxidation of indole-3-acetic acid.  Phytochemistry 1996;42:1271-1278.
  13. Mareeva E.A., Orlova M.A., Doseeva V.V., Loginov D.B., Galkin A.G., Tishkov V.I., Gazaryan, I.G. Wild-type and mutant forms of recombinant horseradish peroxidase C expressed in Escherichia coli: Substrate specificity and stability under irradiation.  Appl.Biochem.Biotechnol. 1996;61:13-23.
  14. Whitwam R.E., Gazarian I.G., Tien M. Expression of fungal Mn peroxidase in E-coli and refolding yield active enzyme.  Biochem.Biophys.Res.Commun. 1995;216:1013-1017.
  15. Gazaryan I.G., Doseeva V.V., Galkin A.G., Tishkov V.I. Effect of single-point mutations Phe(41)->His and Phe(143)- >Glu on folding and catalytic properties of recombinant horseradish peroxidase expressed in E.coli.  FEBS Lett. 1994;354:248-250.