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Referencias del artículo

GUERRERO-ZUNIGA, L. Angélica  y  RODRIGUEZ-DORANTES, Angélica Ma.. Efecto de la presencia de fenantreno sobre la expresión de proteínas y la actividad enzimática radical de Cyperus hermaphroditus. Polibotánica [online]. 2009, n.27, pp.103-130. ISSN 1405-2768.

    Aceves, J., 1993. GraphPad Software. V.2.03. [ Links ]

    Agency for Toxic Substances and Disease Registry (ATSDR), 1999. Toxicological profile for polycyclic aromatic hydrocarbons (PAHs) (uptdate). ATSDR. Atlanta, G. A. 518 pp. [ Links ]

    Anderson, M.D., T.K. Prasad & C.R. Stewart, 1995. "Changes in isozyme profiles of catalase, peroxidase and glutathione reductase during acclimation to chilling in mesocotyls of maize seedlings". Plant Physiol., 109: 1247–1257. [ Links ]

    Ausubel, T.M., R. Brent, R.E. Kingston, D.D. Moore, J.G. Seidman, J.A. Smith & K. Struhl, 1992. Short Protocols in Molecular Biology (A Compendium of Methods from Current Protocols in Molecular Biology). Section II: electrophoretic separation of proteins. Second Edition. John Willey & Sons. [ Links ]

    Baise, H.P., R. Vepachedu, S. Gilroy, R.M. Callaway & J.M. Vivanco, 2003. Allelopathy and exotics plant invasion: from molecules and genes to species interactions". Science, 301: 1377–1380. [ Links ]

    Binet, P., J.M. Portal & C. Leyval. 2000. "Fate of polycyclic aromatic hydrocarbons (PAH) in the rhizosphere and mycorrhizosphere of ryegrass". Plant Soil, 227:207–213. [ Links ]

    Black, J.A., W.J. Birge, A.G. Westerman & P.C. Francis, 1983. "Comparative aquatic toxicology of aromatic hydrocarbons". Fundam. Appl. Toxicol., 3: 353–358. [ Links ]

    Blumer, M., 1976. "Polycyclic aromatic hydrocarbon in nature". Sci. Am., 234: 34–44. [ Links ]

    Bohnert, H.J., Q. Gong, P. Li & Sh. Ma., 2006. "Unravelling abiotic stress tolerance mechanismsgetting genomics going". Curr.Opin.Plant Biol. 9: 180–188. [ Links ]

    Bradford, M., 1976. "Rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of proteindye binding". Anal.Biochem., 72: 248–254. [ Links ]

    Chiou, C.T., G. Sheng & M. Manes, 2001. " A partition–limited model for the plant uptake of organic contaminants from soil and water". Environ. Sci. Technol. 39: 4864–4870. [ Links ]

    Chroma, L., M. Mackova, P. Kucerova, C. Der Wiesche, J. Burkhard & T. Macek., 2002. "Enzymes in plant metabolism of PCBs and PS". Acta Biotechnol. 22: 35–41. [ Links ]

    Cruz, O.A., V.S. Tomás, , Z.A. Guerrero, & D.A. Rodríguez, 2004. "Detection of an aromatic compound at the roots of Cyperus hermaphroditus by photoacoustic techniques". Int. J. Thermophys., 25: 603–610. [ Links ]

    Danna, C.H., C.G. Bartoli & F. Sacco, 2003. "Thylacoid–bound ascorbate peroxidase mutant exhibits in paired electron and photo synthetic activity". Plant Physiol., 132: 2116–2125. [ Links ]

    Dec, J. & J.M. Bollag, 1994. "Use of plant material for the decontamination of water polluted with phenols". Biotechnol. Bioeng., 44: 1132–1139. [ Links ]

    Didierjean, L., P. Frendo, W. Nasser, G. Genot, J. Marivet & G. Burkard, 1996. "Heavy–metal–responsive genes in maize: identification and comparison of their expression upon various forms of abiotic stress". Planta, 199: 1–8. [ Links ]

    Doulis, A., N. Debian, A.H. Kingston–Smith & C.H. Foyer, 1997. "Characterization of chilling sensitivity in maize. I. Differential localization of antioxidants in maize leaves". Plant Physiol., 114: 1031–1037. [ Links ]

    Duran, N. & E. Esposito, 2000. "Potential applications of oxidative enzymes and phenoloxidase–like compounds in was tewater and soil treatment: a review". Appl. Catal. B., 28: 83–99. [ Links ]

    Duran, N., M.A. Rosa, A.D'Annibale & L. Gianfreda, 2002. "Applications of laccases and tyrosinases (phenoloidases) immobilized on different supports: a review". Enzyme Microbiol. Technol., 31: 907–931. [ Links ]

    Fismes, J., C. Perrin–Ganier, P. Empereur–Bissonnet & J.L. Morel, 2002. "Soilto–root transfer and translocation of polycyclic aromatic hydrocarbons by vegetables grown on industrial contaminated soils". J. Environ.Qual., 31: 1649–1656. [ Links ]

    Flocco, C.G., A. Lobalbo, M.P. Carranza & A.M. Giuletti, 2002. "Removal of phenol by alfalfa (Medicago sativa L.) grown in hydroponics and its effect on some physiological parameters". Acta Biotechnol., 22: 43–54. [ Links ]

    Folsom, B.L. & R.A. Rice, 1991. "A plant bioassay for assessing plant uptake of contaminants from freshwater soils or dredged materials". Plant Toxicity Assess., 2: 172–177. [ Links ]

    Gianfreda, L. & M.A. Rao, 2004. "Potential of extracellular enzymes in remediation of polluted soils: a review". Enzyme Microb. Technol., 35: 339–354. [ Links ]

    González, P.S., C.E. Capuzucca, H.A. Tigier, S.R. Milrad & E. Agostini, 2006. "Phytoremediation of phenol from wastewater, by peroxidases of tomato hairy root cultures". Enzyme Microbiol. Technol., 39: 647–653. [ Links ]

    Gramms, G., K.D. Voigt & B. Kirsche, 1999. "Oxidoreductase enzymes liberated by plant roots and their effects on soil humic material". Chemosphere, 38: 1481–1494. [ Links ]

    Guenther, T., U. Sack, M. Hofrichter & M. Laetz, 1998. "Oxidation of PAH and PAH–derivatives by fungal and plant oxidoreductases". J. Basic Microbiol., 38: 113–122. [ Links ]

    Guerrero, Z.L.A., 2000. Evaluación del efecto de un suelo contaminado por hidrocarburos sobre el crecimiento y metabolismo de tres especies de cyperáceas. Tesis de Maestría, Escuela Nacional de Ciencias Biológicas, IPN, México, DF. [ Links ]

    Guerrero, Z.L.A., 2005. Estabilización y transformación de fenantreno en el sistema radical de Cyperus hermaphroditus. Tesis de Doctorado, Escuela Nacional de Ciencias Biológicas, IPN, México, DF. [ Links ]

    Guerrero, Z.L.A. & D.A. Rodríguez, 2005. "Comparación de la capacidad de remoción de fenantreno y la actividad enzimática radical superficial de cultivos radicales (In toto e In vitro) de Cyperus elegans". Polibotánica, 20: 31–45. [ Links ]

    Guerrero, Z. A. & D. A. Rodríguez, 2006. "Respuesta del crecimiento de tres especies de cyperáceas en un suelo contaminado con hidrocarburos del petróleo". An. esc. Nac. cienc. biol. Méx. (en prensa). [ Links ]

    Hannik, N., S. J. Rosser, C.E. French, A. Basran, J.A.H. Murray, S. Nicklin & M.C. Bruce, 2001. "Phytodetoxification of TNT by transgenic plants expressing a bacterial nitroreductase". Nat. Biotechnol., 19: 1168–1172. [ Links ]

    Harms, H., M. Bokern, M. Kolb & C. Bock, 2003. Phytoremediation transformation and control of contaminants. Willey/Interscience, Hoboken, New Jersey. [ Links ]

    Harvey, P.J., M. Xiang & J. M. Palmer, 2001. "Extra cellular enzymes in the rhizosphere". En: Proceedings of the Inter–Cost Workshop on Soil–Microbe–Root Interactions: maximizing phytoremediation/bioremediation. Grainau, Germany. [ Links ]

    Harvey, P.J., B.F. Campanella, P.M.L. Castro, H. Harms, E. Lichtfouse, A.R. Schaeffener, S. Smrcek & D. Werck–Reichhart, 2002. "Phytoremediation of polyaromatic hydrocarbons, anilines and phenols". Environ. Sci. Pollut. Res. Int., 9: 29–47. [ Links ]

    Hernández, J.A., A. Campillo, A. Jiménez, J.J.J. Alarcón & F. Sevilla, 1999. "Response of antioxidant systems and leaf water relations to NaCl stress in pea". New Phytol., 141: 241–255. [ Links ]

    Hernández, J.A., A. Jiménez, P. Mullineaux & F. Sevilla, 2000. "Tolerance of pea (Pisum sativum L.) to long salt stress associated with induction of antioxidant defenses". Plant Cell Environ., 23: 853–862. [ Links ]

    Herle, T., Z. Michel & P. Christophe, 2002. "Combining proteomic and genetic studies in plants". J. Chromatogr. B., 782: 137–149. [ Links ]

    I.M.P. & UAM–I,1997. Biorremediación de suelos contaminados con hidrocarburos en el Pantano Santa Alejandrina, Minatitllán, Ver. Reporte Técnico, México. [ Links ]

    Jiao, X.C., F.L. Xu, R. Dawson, S.H. Chen & S. Tao, 2007. "Adsorption and absorption of polycyclic aromatic hydrocarbons to rice roots". Environ. Pollut., 148: 230–235. [ Links ]

    Kampfenkel, K., M.V. Montagu & D. Inze, 1995. "Extraction and determination of ascorbate and dehydroascorbate from plant tissue". Anal. Biochem., 225: 165–167. [ Links ]

    Keppler, D., Y. Cui, J. Konig, I. Leier & A. Nies, 1999. "Export pumps for anionic conjugates encoded by MRP genes". Adv. Enzyme Regul., 39: 237–246. [ Links ]

    Klibanov, A.M., B.V. Alberti, E.D. Morris & L.M. Felshin, 1980. "Enzymatic removal of toxic phenols and anilines from wastewaters". J. Appl. Biochem., 2: 414–421. [ Links ]

    Kohlmann, B., 1994. "Algunos aspectos de la taxonomía numérica y sus usos en México". En: Llorente, J. & Luna, I. (eds.) Taxonomía Biológica, F.C.E. México, DF. [ Links ]

    Korte, F., G. Kvesitadze, D. Ugrekhelidze, M. Gordeziani, G. Khatisashvili, O. Buadze & F. Coulston, 2000. "Organic toxicants in plants (Review)". Ecotoxicol. Environ, Saf., 47: 1–26. [ Links ]

    Kraus. J.J., J.Z. Munir, J.P. Mc Eldoon, D.S. Clark & J.S. Dordick, 1999. "Oxidation of polycyclic aromatic hydrocarbons catalyzed by soybean peroxidase". Appl. Biochem. Biotech., 80: 221–230. [ Links ]

    Kush, K.O., 1981. "Comparison of the effects of aromatic hydrocarbons on a laboratory alga and natural phytoplankton". Bot. Mar., 24: 611–613. [ Links ]

    Li, H., G. Sheng, C.T. Chiou & O. Ku, 2005. "Relation of organic contaminant equilibrium sorption and kinetic uptake in plants". Environ. Sci. Technol., 39: 4864–4870. [ Links ]

    Livingstone, D. & B.A. Whitton, 1984. "Water chemistry and phosphatase activity of the blue–green alga Rivularia, in upper teesdale streams". J. Ecol. 72: 405–421. [ Links ]

    Lu, Y.P., Z.S. Li, Y.M. Drozdowicz, S. Hortensteiner & E.P.A. Martinoia, 1998. "AtMRP2, an Arabidopsis ATP binding cassette transporter able to transport glutathione S–conjugates and chlorophyll catabolites: functional comparisons with AtMRP1". Plant Cell., 10: 267–282. [ Links ]

    Lyte, J.S. & T.F. Lyte, 2001. "Use of plants for toxicity assessment of estuarine ecosystems". Environ. Toxicol. Chem., 20: 63–68. [ Links ]

    Macková, M., L. Chroma, P. Kucerová, J. Burkhard, K. Demnerová & T. Macek, 2001. "Some aspects of PCB metabolism by horseradish cell". Inter. J. Phytorem., 3: 401–414. [ Links ]

    Menconi, M., C.L.M. Sgherri, C. Pinzino & F. Navari–Izzo, 1995. "Activated oxygen production and detoxification in wheat plants subjected to a water deficit programme". J. Exp. Bot., 46: 1123–1130. [ Links ]

    Mittler R. E. Lam, V. Shutaev & M. Cohen, 1999. "Signals controlling the expression of cytosilic ascorbate peroxidase during pathogen–induced programmed dell death in tobacco". Plant Mol. Biol., 39: 1025–1035. [ Links ]

    Nakano, Y. & K. Asada, 1981. "Hydrogen peroxide is scavenged by ascorbate specific peroxidase in spinach chloroplasts". Plant Cell Physiol., 22: 867–880. [ Links ]

    Narro, M.L., C.E. Cerniglia, C. Van Baalen & D.T. Gibson, 1992. "Metabolism of phenanthrene by the marine cyanobacterium Agmenellum quadruplicatum PR–6". Appl. Environ. Microbiol., 58: 1351–1359. [ Links ]

    Nielsen, B.L. & L.R. Brown, 1984. "The basis for colored silver–protein complex formation in stained polyacrylamide gels". Anal. Biochem., 141: 311–315. [ Links ]

    Noat, G., M. Crasiner & J. Ricard, 1980. "Ionic control of acid phosphatase activity in plant cell wall". Plant Cell Environ., 3: 225–229. [ Links ]

    Olivares, S.E., 1989. Paquete de diseños experimentales FAUNL. Versión 1.4. Facultad de Agronomía UANL. Marín, N.L. México. [ Links ]

    Park, S.Y., S.H. Ryu & L.C. Jang, 2004. "Molecular cloning of a cytosolic ascorbate peroxidase cDNA from cell cultures of sweet potato and its expression in response to stress". Mol. Gen. Genomics, 271: 339–346. [ Links ]

    Pearse, I.S., K.D. Heath & J. M. Cheeseman, 2005. "Biochemical and ecological characterization of two peroxidase isoenzymes from the mangrove, Rhizophora mangle". Plant Cell Environ., 28: 612–622. [ Links ]

    Pelkonen, O. & D.W. Nebert, 1982. "Metabolism of polycyclic hydrocarbon: etiologic role in carcinogenesis". Pharmacol. Rev., 34: 189–222. [ Links ]

    Pflugmacher, S., K. Geissler & C. Steinberg, 1999. "Activity of Phase I and Phase II detoxification enzymes in different cormus parts of Phragmites australis". Ecotox. Environ. Safe., 42: 62–66. [ Links ]

    Rodríguez D.A., 1998. Estudio de la variación molecular de algunos representantes de las familias: Caricaceae, Fouquieriaceae y Passifloraceae. Tesis de Maestría, Escuela Nacional de Ciencias Biológicas, IPN, México, DF. [ Links ]

    Rodríguez D.A. & M.T.G. Castañeda, 1998. "Caracterización espectrofotométrica y electroforética de los componentes polipeptídicos de ficobilisomas de ocho cepas de cianobacterias". An. esc. Nac. cienc. biol. Méx., 44: 117–125. [ Links ]

    Rohlf, J., 2004. NTSYS–PC Version 2.11T. Numerical Taxonomy and Multivariate Analysis System. Applied Bioestastistics, Inc. [ Links ]

    Ruggaber, T.P., M. Asce, J.W. Talley & M. Asce, 2006. "Enhancing biore–mediation with enzymatic processes: a review. Pract. Periodical of Haz". Toxic and Radioactive Waste Mgmt., 10: 73–85. [ Links ]

    Sairam, R.K. & D.C. Saxena, 2000. "Oxidative stress and antioxidants in wheat genotypes: possible mechanism of water stress tolerance". J. Agron. Crop Sci., 184: 55–61. [ Links ]

    Sairam, R.K. & G.C. Srivastava, 2001. "Water stress tolerance of wheat (Triticum aestivum L.): variations in hydrogen peroxide accumulation and antioxidant activity in tolerant and susceptible genotypes". J. Agron. Crop Sci., 186: 63–70. [ Links ]

    Sairam, R.K., G.C. Srivastava & D.C. Saxena, 2000. "Increased antioxidant activity under elevate temperature: a mechanism of heat stress tolerance in wheat genotypes". Biol. Plant., 43: 245–251. [ Links ]

    Sairam, R.K., D.V. Singh & G.C. Srivastava, 2004. "Changes in activities of antioxidant enzymes in sunflower leaves of different ages". Biol. Plant., 47: 61–66. [ Links ]

    Salekdeh, G.H., J. Slopongco, L.J. Wade & B. Ghareyazie, 2002. "Proteomic analysis of rice leaves during drought stress and recovery". Proteomics., 2: 1131–1145. [ Links ]

    Sánchez, F.R., T.G. Davies, J.O. Coleman & P.A. Rea, 2001. "The Arabidopsis thaliana ABC protein superfamily: a complete inventory". J. Biol. Chem., 276: 31–44. [ Links ]

    Sandermann, H., 1992. "Plant metabolism of xenobiotics". Trends Biochem. Sci., 17: 82–84. [ Links ]

    Sauvé, D.M., D.T. Ho & M. Roberge, 1995. "Concentration of dilute protein for gel electrophoresis". Anal. Biochem., 226: 382–383. [ Links ]

    Savino, J.F. & L.L. Tanabe, 1989. "Sublethal effects of phenanthrene, nicotine, and pinane on Daphnia pulex". Bull. Environ. Contam. Toxicol., 42: 778–784. [ Links ]

    Scebba, F., L. Sebastián & C. Vitagliano, 1999. "Protective enzymes against activated oxygen species in wheat (Triticum aestivum L. ) seedlings. Response to cold acclimation". J. Plant Physiol., 155: 762–768. [ Links ]

    Schnoor, J.L., L.A. Licht, S.C. McCutcheon, N.L. Wolfe & L.H. Carreira, 1995. "Phytoremediation of organic and nutrient contaminants". Environ. Sci. and Tech., 29: 319–323. [ Links ]

    Schwab, A.P., A.A. Al–Assi & M. K. Banks, 1998. "Adsorption of naphtalene onto plant roots". J. Environ. Qual., 27: 220–224. [ Links ]

    Shand, C.A., A.E.S. Macklon, A.C. Edwards & S. Smith, 1994. "Inorganic and organic P in soil solutions from three upland soils. I. Effect of soil solution extraction conditions, soil type and season". Plant Soil., 159: 255–264. [ Links ]

    Sheng, X.F. & J.X. Gong, 2006. "Increased degradation of phenanthrene in soil by Pseudomonas sp. GF3 in the presence of wheat". Soil Biol. Biochem., 38: 2587–2592. [ Links ]

    Sneath P. H. A. & R. R. Sokal, 1973. Numerical Taxonomy: the principles and practice of numerical classification. Freeman, San Francisco. [ Links ]

    Song, X.Sh., W.H. Hu, W.H. Mao, J.O. Ogweno, Y.H. Zhou & J.Q. Yu, 2005. "Response of ascorbate peroxidase isoenzymes and ascorbate regeneration system to abiotic stresses in Cucumis sativus L." Plant Physiol. and Bioch., 43: 1082–1088. [ Links ]

    Song, W.Y., E.J. Sohn, E. Martinoia, Y.I. Lee, Y.Y. Yang, M. Jasinski, C. Forestier, I. Hwang & Y. Lee, 2003. "Engineering tolerance and accumulation of lead and cadmium in transgenic plants". Nat. Biotechnol., 21: 914–919. [ Links ]

    Su, Y.H. & Y.G., Zhu, 2007. "Transport mechanisms for the uptake of organic compounds by rice (Oryza sativa) roots". Environ. Pollut., 148: 94–100. [ Links ]

    Tikhaya, N.I., T.N. Stekhanova & M.D. Fedorovskaya, 1999. "Variability of acid phosphatases specific for apoplasts of barley root cells?". Fiziologiya rastenii., 46: 726–735. [ Links ]

    Tikhaya, N.I. & M.D. Fedorovskaya, 2000. "Biochemical adaptation of barley root cells to toxic substances. II. Effect of heavy metals on phosphohydrolase activity". Biology Bulletin., 27: 579–584. [ Links ]

    Tommasini, R.E. Vogt, M. Fromenteau, S. Hortensteiner, P. Matile & N, Amrhein, 1998. "An ABC–transporter of Arabidopsis thaliana has both glutathione–conjugate and chlorophyll catabolites transport activity". Plant J., 137: 73–80. [ Links ]

    Triana–Córdova, S. del C., 1994. Efecto de la ceniza en suelo sobre la actividad de fosfatasa ácida en raíces de Acacia cochliacantha, Brachiaria brizantha, Mimosa pigra y Senna uniflora B. Sc. Tesis de Licenciatura, Escuela Nacional de Ciencias Biológicas, IPN, México, DF. [ Links ]

    Turner, B.L. & P.M. Haygarth, 2000. "Phosphorous forms and concentrations in leachate under four grassland soil types". Soil Sci. Soc. Am. J., 64: 1090–1097. [ Links ]

    Turner, B.L., R. Baxter, N.T. Ellwood & B.A. Whitton, 2001. "Characterization of the phosphate activities of mosses in relation to their environment". Plant Cell Environ., 24: 1165–1176. [ Links ]

    Upadhyaya, A., T.D. Davis, M.H. Larsen, R.H. Waker & N. Sankhla, 1990. "Uniconazole–induced thermotolerance in soybean seedling root tissues". Physiol. Plant., 79: 78–84. [ Links ]

    U.S. Environmental Protection agency (USEPA), 2000. "Introduction to phy to remediation". Publication No. 600/R–99/107. Cincinnati. [ Links ]

    Vanier, C., D. Planas & M. Silvestre, 2001. "Equilibrium partition theory applied to PCBs in macrophytes". Environ. Sci. Technol., 35: 4830–4833. [ Links ]

    Wang, M.I. & K.C. Jones, 1994. "Uptake of chlorobenzenes by carrots from spiked and sewage sludge amended soil". Environ. Sci. Technol., 28: 1260–1267. [ Links ]

    Wang, D.F. & S.L. Dawn, 2003. "Heat sensitivity in a bentgrass variant: failure to accumulate a chloroplast heat shock protein isoform implicated in heat tolerance". Plant Physiol., 133: 319–327. [ Links ]

    Wang, G.D., Q.J. Li , B. Luo & X.Y. Chen, 2004. "Ex planta phytoremediation of trichlorophenol and phenolic allelo–chemicals via an engineered secretory laccase". Nature Biotechnol., 22: 893–897. [ Links ]

    Wevar–Oller, A.L., E. Agostini, M.A. Talano, C. Capozucca, S.R. Milrad, H.A. Tigier & M.I. Medina, 2005. "Overexpression of a basic preoxidase in transgenic tomato (Lycopersicon esculentum Mill. C.v. Pera) hairy root increases phytoremediation of phenol". Plant Sci., 169: 1102–1111. [ Links ]

    Yabuta, Y., T. Motoki & K. Yoshimura, 2002. "Thylacoid membrane–bound ascorbate preoxidase is a limiting factor of antioxidative systems under photooxidative stress". Plant J., 32: 915–925. [ Links ]

    Yoshimura, Y., Y. Yabuta, T. Ishikawa & S. Shigeoka, 2000. "Expression of spinach ascorbate peroxidase isoenzymes in response to oxidative stresses". Plant Physiol., 123: 223–233. [ Links ]

    Yun, H.K., S.H. Yu & D. Choi, 1999. "Cloning of a pathogenesis–related protein–1gene from Nicotiana glutinosa L. and its salicylic acid–independent induction by copper and p–aminobutyric acid". J. Plant Physiol., 154: 327–33. [ Links ]

    Zhang, J. & M.B. Kirkham, 1996. "Antioxidant responses to drought in sunflower and sorghum seedlings". New Phytol., 132: 361–373. [ Links ]