Mots-clés : surfactants, catalase
@article{VSGU_2012_9_a19,
author = {O. N. Makurina and S. A. Rozina},
title = {Effects of pollutants on enzyme activities in water submerged plant {Ceratophyllum} demersum},
journal = {Vestnik Samarskogo universiteta. Estestvennonau\v{c}na\^a seri\^a},
pages = {200--210},
year = {2012},
number = {9},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/VSGU_2012_9_a19/}
}
TY - JOUR AU - O. N. Makurina AU - S. A. Rozina TI - Effects of pollutants on enzyme activities in water submerged plant Ceratophyllum demersum JO - Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ PY - 2012 SP - 200 EP - 210 IS - 9 UR - http://geodesic.mathdoc.fr/item/VSGU_2012_9_a19/ LA - ru ID - VSGU_2012_9_a19 ER -
%0 Journal Article %A O. N. Makurina %A S. A. Rozina %T Effects of pollutants on enzyme activities in water submerged plant Ceratophyllum demersum %J Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ %D 2012 %P 200-210 %N 9 %U http://geodesic.mathdoc.fr/item/VSGU_2012_9_a19/ %G ru %F VSGU_2012_9_a19
O. N. Makurina; S. A. Rozina. Effects of pollutants on enzyme activities in water submerged plant Ceratophyllum demersum. Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ, no. 9 (2012), pp. 200-210. http://geodesic.mathdoc.fr/item/VSGU_2012_9_a19/
[1] Antosiewicz D. M., “Adaptation of plants to an environment polluted with heavy metals”, Act. Soc. Bot. Pol., 61 (1992), 281–299 | DOI
[2] S. S. Stavskaya i dr., Mikrobiologicheskaya ochistka vody ot poverkhnostno-aktivnykh veschestv, Naukova dumka, Kiev, 1988, 184 pp.
[3] K. Kholmberg i dr., Poverkhnostno-aktivnye veschestva i polimery v vodnykh rastvorakh, BINOM, Laboratoriya znanii, M., 2007, 528 pp.
[4] Aizdaicher N. A., Markina Zh. V., “Toksicheskoe deistvie detergentov na vodorosl Plagioselmis prolonga (Cryptophyta)”, Biol. morya, 32:1 (2006), 50–54
[5] “The relationship between the interfacial properties of surfactants and their toxicity to aquatic organisms”, M. J. Rosen et al., 35:5 (2001), 954–959
[6] Ying G. G., “Fate, behavior and effects of surfactants and their degradation products in the environment”, Environ. Int., 32:3 (2006), 417–431 | DOI
[7] Mohd M., Taqi A. K., Firoz M., “Role of nitric oxide in regulation of H$_2$O$_2$ mediating tolerance of plants to abiotic stress: A synergistic signaling approach”, J. Stress Physiol. Biochem., 7:2 (2011), 34–74
[8] Reactive oxygen species in plant signaling, ed. L. A. Rio, A. Puppo, Springer, Berlin, 2009, 245 pp.
[9] Bhattacharjee S., “Reactive oxygen species and oxidative burst: Roles in stress, senescence and signal transduction in plants”, Curr. Sci., 89:7 (2005), 1113–1121
[10] Dubey R. S., “Metal toxicity, oxidative stress and antioxidative defense system in plants”, Reactive oxygen species and antioxidants in higher plants, ed. S. Dutta Gupta, Science Publishers, Enfield, 2010, 177–203 | DOI
[11] Zhizn rastenii. Ch. 1. Tsvetkovye rasteniya, v. 5, ed. A. L. Takhtadzhyan, Prosveschenie, M., 1980, v 6 t.
[12] M. A. Korolyuk i dr., “Metod opredeleniya aktivnosti katalazy”, Lab. delo, 1988, no. 1, 16–19
[13] Boyarkin A. N., “Bystryi metod opredeleniya aktivnosti peroksidazy”, Biokhimiya, 16:4 (1951), 352–355
[14] Asamov D. K., Rakhimova S. T., “K metodike opredeleniya aktivnosti askorbatoksidazy, polifenoloksidazy i peroksidazy”, Aktualnye voprosy fiziologii, biokhimii i biotekhnologii, Izd-vo TGU, Tashkent, 1991, 122–126
[15] A. I. Ermakov i dr., “Metody biokhimicheskogo issledovaniya rastenii”, Agropromizdat, L., 1987, 43–44
[16] Bradford M. M., “A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding”, Anal. Biochem., 72 (1976), 248–254 | DOI
[17] Swain T., Hillis W. E., “The phenolic constituents of Prunus domestica. I: The quantitative analysis of phenolic constituents”, J. Sci. Food Agric., 10:1 (1959), 63–68 | DOI
[18] Lukatkin A. S., Golovanova V. S., “Intensivnost perekisnogo okisleniya lipidov v okhlazhdennykh listyakh teplolyubivykh rastenii”, Fiziologiya rastenii, 35:4 (1988), 773–780
[19] Jouili H., Bouazizi H., Ferjani E. E., “Plant peroxidases: Biomarkers of metallic stress”, Acta Physiol. Plant., 33 (2011), 2075–2082 | DOI
[20] Prokhorova N. V., Matveev N. M., Pavlovskii V. A., Akkumulyatsiya tyazhelykh metallov dikorastuschimi i kulturnymi rasteniyami v lesostepnom i stepnom Povolzhe, Izd-vo Samar. un-ta, Samara, 1998, 131 pp.
[21] Schützendübel A., Polle A., “Plant responses to abiotic stresses: Heavy metal-induced oxidative stress and protection by mycorrhization”, J. Exp. Bot., 53:372 (2002), 1351–1365 | DOI
[22] Voronkov L. A., Zhivopistseva I. V., “Izuchenie kataliticheskikh svoistv peroksidazy khloroplastov”, Fiziologiya i biokhimiya zdorovogo i bolnogo rasteniya, Izd-vo MGU, M., 1970, 305–311
[23] Plesnicar M., Bonner W. D., Storey B. T., “Peroxidase associated with higher plant mitochondria”, Plant Physiol., 42:3 (1967), 366–370 | DOI
[24] A. I. Davletshin i dr., “Vliyanie poverkhnostno-aktivnykh veschestv na aktivnost peroksidazy. II: Vliyanie kationnykh PAV”, Bioorgan. khimiya, 24:6 (1998), 430–432
[25] A. I. Davletshin i dr., “Vliyanie PAV razlichnoi prirody na aktivnost peroksidazy i tripsina”, Vestn. Mosk. un-ta. Ser. 2. Khimiya, 39:4 (1998), 272–275
[26] G. Hanke et al., “Proteoliposomes and plant transport proteins”, J. Exp. Bot., 50:341 (1999), 1715–1726
[27] Helenius A., Simons K., “Solubilization of membranes by detergents”, Biochim. Biophys. Acta, 415 (1975), 29–79 | DOI
[28] Seddon A. M., Curnow P., Booth P. J., “Membrane proteins, lipids and detergents: not just a soap opera”, Biochim. Biophys. Acta, 1666 (2004), 105–117 | DOI
[29] Rinallo C., Bennici A., Cenni E., “Effects of two surfactants on Triticum durum Desf. plantlets”, Env. Exp. Bot., 28:4 (1988), 367–374 | DOI
[30] Blazhei A., Shutyi L., Fenolnye soedineniya rastitelnogo proiskhozhdeniya, Mir, M., 1977, 120
[31] “Oxidative signals in tobacco increase cytosolic calcium”, A. H. Price et al., 6:9 (1994), 1301–1310