Aluminium induced oxidative stress and DNA damage in root cells of Allium cepa L.

Ecotoxicology and Environmental Safety

Volumn 70, Issue 2, 2008, Pages 300-310

  Mohan Murali Achary, V ^a   Jena, Suprava ^a   Panda, Kamal K ^a   Panda, Brahma B ^a  

^a BERHAMPUR UNIVERSITY   (India)

Author keywords

Allium cepa L.; Aluminium; Antioxidant enzymes; Cell death; Comet assay; Lipid peroxidation; Oxidative burst; Protein oxidation; ROI

Indexed keywords

ALUMINUM; ALUMINUM CHLORIDE; CATALASE; GUAIACOL; MESYLIC ACID ETHYL ESTER; SUPEROXIDE DISMUTASE;

ALUMINUM COMPOUND; BIOASSAY; DNA; DOSE-RESPONSE RELATIONSHIP; ENZYME ACTIVITY; EXPERIMENTAL STUDY; INHIBITOR; LIPID; MUTAGENICITY; OXIDATION; PROTEIN; ROOT SYSTEM; ROOT VEGETABLE;

ARTICLE; BIOTIC STRESS; CELL DEATH; DNA DAMAGE; LIPID PEROXIDATION; ONION; OXIDATIVE STRESS; PLANT ROOT; RESPIRATORY BURST;

ALUMINUM; ANTIOXIDANTS; CATALASE; CELL DEATH; DNA DAMAGE; LIPID PEROXIDATION; ONIONS; OXIDATION-REDUCTION; OXIDATIVE STRESS; PEROXIDASE; PEROXIDASES; PLANT PROTEINS; PLANT ROOTS; REACTIVE OXYGEN SPECIES; SOIL POLLUTANTS; SUPEROXIDE DISMUTASE;

ALLIUM CEPA;

EID: 42049115707     PISSN: 01476513     EISSN: 10902414     Source Type: Journal    
DOI: 10.1016/j.ecoenv.2007.10.022     Document Type: Article

References (67)

1. Aebi H. Catalase in vitro. Methods Enzymol. 105 (1983) 121-126
2. Alscher R.G., Erturk N., and Heath L.S. Role of superoxide dismutases (SODs) in controlling oxidative stress in plants. J. Exp. Bot. 53 (2002) 1331-1341
3. Apel K., and Hirt H. Reactive oxygen species: metabolism, oxidative stress, and signal transduction. Annu. Rev. Plant. Biol. 55 (2004) 373-399
4. 2 by Phytophthora elicitor-stimulated rose cells. Plant Physiol. 107 (1995) 1241-1247
5. Baker C.J., and Mock N.M. An improved method for monitoring cell death in cell suspension and leaf disc assays using Evan's blue. Plant Cell. Tissue Organ Cult. 39 (1994) 7-12
6. {radical dot}- generating step of plant peroxidases?. FEBS Lett. 462 (1999) 254-256
7. Beauchamp C., and Fridovich I. Superoxide dismuatse: improved assays and an assay applicable to acrylamide gels. Anal. Biochem. 44 (1971) 276-287
8. Bindschedler L.V., Dewdney J., Blee K.A., Stone J.M., Asai T., Plotnikov J., Denoux C., Hayes T., Gerrish C., Davies D.R., Ausubel F.M., and Bolwell G.P. Peroxidase-dependent apoplastic oxidative burst in Arabidopsis required for pathogen resistance. Plant J. 47 (2006) 851-863
9. Boscolo P.R., Menossi M., and Jorge R.A. Aluminum-induced oxidative stress in maize. Phytochemistry 62 (2003) 181-189
10. Bradford M.M. A rapid and sensitive method for quantification of microgram quantities of protein utilizing the principle of protein dye-binding. Anal. Biochem. 72 (1976) 248-254
11. Braen S.N., and Weinstein L.H. Uptake of fluoride and aluminium by plant grown in contaminated soil. Water, Air Soil Pollut. 24 (1985) 215-223
12. Cakmak I., and Horst W.J. Effect of aluminium on lipid peroxidation, superoxide dismutase, catalase and peroxidase activities in root tips of soybean (Glycine max). Physiol. Plant. 83 (1991) 463-468
13. Cerda H., Delincee H., Haine H., and Rupp H. The DNA 'comet assay' as a rapid screening technique to control irradiated food. Mutat. Res. 375 (1997) 167-181
14. Chang H.-B., Lin C.-W., and Huang H.-J. Zinc induced cell death in rice (Oryza sativa L.) roots. Plant Growth Regul. 46 (2005) 261-266
15. Chen S., and Schopfer P. Hydroxyl-radical production in physiological reactions. A novel function of peroxidase. Eur. J. Biochem. 260 (1999) 726-735
16. Darkó E., Ambrus H., Stefanovits-Bányai E., Fodor J., Bakos F., and Barnabás B. Aluminium toxicity, Al tolerance and oxidative stress in an Al-sensitive wheat genotype and in Al-tolerant lines developed by in vitro microspore selection. Plant Sci. 166 (2004) 583-591
17. Delhaize E., and Ryan P.R. Aluminum toxicity and tolerance in plants. Plant Physiol. 107 (1995) 315-321
18. Dhindsa R.S., Plumb-Dhindsa P., and Thorpe T.A. Leaf senescence: correlated with increased levels of membrane permeability and lipid peroxidation, and decreased levels of superoxide dismutase and catalase. J. Exp. Bot. 32 (1981) 93-101
19. Dipierro N., Mondelli D., Paciolla C., Brunetti G., and Dipierro S. Changes in the ascorbate system in the response of pumpkin (Cucurbita pepo L.) roots to aluminium stress. J. Plant Physiol. 162 (2005) 529-536
20. Exley C. The pro-oxidant activity of aluminum. Free Radic. Biol. Med. 36 (2004) 380-387
21. Ezaki B., Suzuki M., Motoda H., Kawamura M., Nakashima S., and Matsumoto H. Mechanism of gene expression of Arabidopsis glutathione-s-transferase, AtGST1, and AtGST11 in response to Aluminum stress. Plant Physiol. 134 (2004) 1672-1682
22. Fielding J.L., and Hall J.L. A biochemical and cytochemical study of peroxodase activity in roots of Pisum sativum. 1. A comparison of DAB-peroxidase and guaiacol-peroxidase with particular emphasis on the properties of cell wall activity. J. Exp. Bot. 29 (1978) 969-981
23. García O., Mandina T., Lamadrid A.I., Diaz A., Remigio A., Gonzalezd Y., Piloto J., Gonzalez J.E., and Alvarez A. Sensitivity and variability of visual scoring in the comet assay. Results of an inter-laboratory scoring exercise with the use of silver staining. Mutat. Res. 556 (2004) 25-34
24. Gomez K.A., and Gomez A.A. Statistical Procedures for Agricultural Research (1984), Wiley, New York
25. Halliwell B. Lignin synthesis: the generation of hydrogen peroxide and superoxide by horseradish peroxidase and its stimulation by manganese(II) and phenols. Planta 140 (1978) 81-88
26. Halliwell B., Gutteridge J.M.C., and Aruoma O. The deoxyribose method: a simple 'test tube' assay for determination of rate constants for reactions of hydroxyl radicals. Anal. Biochem. 165 (1987) 215-219
27. Hamel F., Breton C., and Houde M. Isolation and characterization of wheat aluminum-regulated genes: possible involvement of aluminum as a pathogenesis response elicitor. Planta 205 (1998) 531-538
28. Hede A.R., Skovmand B., and Lopez-Csati J. Acid soils and aluminium toxicity. In: Reynolds M.P., Ortiz-Monaterio J.I., and McNab A. (Eds). Application of Physiology in Wheat Breeding (2001), D.F. CIMMYT, Mexico 172-182
29. Hung W.-C., Huang D.-D., Chein P.-S., Yeh C.-M., Chen P.-Y., Chi W.-C., and Huang H.-J. Protein tyrosine dephosphorylation during copper-induced cell death in rice roots. Chemosphere 69 (2007) 55-62
30. Ishida A., Ookubo K., and Ono K. Formation of hydrogen peroxide by NAD(P)H oxidation with isolated cell wall-associated peroxidase from cultured liverwort cells Marchantia polymorpha L. Plant Cell Physiol. 28 (1987) 723-726
31. Jones D.L., Blancaflor E.B., Kochian L.V., and Gilroy S. Spatial coordination of aluminium uptake, production of reactive oxygen species, callose production and wall rigidification in maize roots. Plant Cell Environ. 29 (2006) 1309-1318
32. Kiba A., Miyake C., Toyoda K., Ichinose Y., Yamada T., and Shiraishi T. Superoxide generation in extracts from isolated plant cell walls is regulated by fungal signal molecules. Phytopathology 87 (1997) 846-852
33. Kochian L.V. Cellular mechanisms of aluminium toxicity and resistance in plants. Annu. Rev. Plant Physiol. Plant Mol. Biol. 46 (1995) 237-260
34. Laemmli U.K. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227 (1970) 680-685
35. Lankoff A., Banasik A., Duma A., Ochniak E., Lisowska H., Kuszewski T., Gozdz S., and Wojcik A. A comet assay study reveals that aluminium induces DNA damage and inhibits the repair of radiation-induced lesions in human peripheral blood lymphocytes. Toxicol. Lett. 161 (2006) 27-36
36. Levine R.L., Willams J.A., Stadtman E.R., and Shacter E. Carbonyl assay for determination of oxidatively modified proteins. Methods Enzymol. 233 (1994) 346-363
37. Liszkay A., Kenk B., and Schopfer P. Evidence for the involvement of cell wall peroxidase in the generation of hydroxyl radicals mediating extension growth. Planta 217 (2003) 658-667
38. 2 production and antioxidant responses in seeds and early seedlings of two different rice varieties exposed to aluminum. Plant Growth Regul. 52 (2007) 91-100
39. Mäder H., and Amberg-Fisher V. Role of peroxidase in lignification of tobacco cells 1. Oxidation of nicotinamide adenine dinucleotide and formation of peroxidase by cell wall peroxidases. Plant Physiol. 70 (1982) 1128-1131
40. Mancini A., Buschini A., Restivo F.M., Rossi C., and Poli P. Oxidative stress as DNA damage in different transgenic tobacco plants. Plant Sci. 170 (2006) 845-852
41. Martinez C., Montillet J.L., Bresson E., Agnel J.P., Dai G.H.J., Daniel J.F., Geiger J.P., and Nicole M. Apoplastic peroxidase generates superoxide anions in cells of cotton cotyledons undergoing the hypersensitive reaction to Xanthomonas campestris pv. malvacearum Race 18. Mol. Plant-Microbe Interact. 11 (1998) 1038-1047
42. Meriga B., Reddy B.K., Rao K.R., Reddy L.A., and Kavi Kishor P.B. Aluminium-induced production of oxygen radicals, lipid peroxidation and DNA damage in seedlings of rice (Oryza sativa). J. Plant Physiol. 161 (2004) 63-68
43. Mittler R., and Zilinskas B.A. Detection of ascorbate peroxidase activity in native gels by inhibition of the ascorbate dependent reduction of nitroblue tetrazolium. Anal. Biochem. 212 (1993) 540-546
44. Mohanty S., Das A.B., Das P., and Mohanty P. Effect of a low dose of aluminum on mitotic and meiotic activity, 4C DNA content, and pollen sterility in rice, Oryza sativa L. cv. Lalat. Ecotoxicol. Environ. Safe. 54 (2004) 70-75
45. Mossor-Pietraszewska T. Effect of aluminium on plant growth and metabolism. Acta Biochem. Pol. 48 (2001) 673-686
46. Nadin S.B., Vagas-Roig L.M., and Ciocca D. A silver staining method for single-cell gel assay. J. Histochem. Cytochem. 49 (2001) 1183-1186
47. Nakano Y., and Asada K. Hydrogen peroxide is scavenged by ascorbate-specific peroxidase in spinach chloroplasts. Plant Cell Physiol. 22 (1981) 867-880
48. Ownby J.D. Mechanism of reaction of hematoxylin with aluminium-treated wheat roots. Physiol. Plant. 87 (1993) 371-380
49. Pan J.-W., Zhu M.-Y., and Chen H. Aluminum-induced cell death in root-tip cells of barley. Environ. Exp. Bot. 46 (2001) 71-79
50. Pan J.-W., Zheng K., Ye D., Yi H.-L., Jiang Z.-M., Jing C.-T., Pan W.-H., and Zhu M.-Y. Aluminum-induced ultraweak luminescence changes and sister-chromatid exchanges in root tip cells of barley. Plant Sci. 167 (2004) 1391-1399
51. Panda S.K., Singha L.B., and Khan M.H. Does aluminium phytotoxicity induce oxidative stress in green gram (Vigna radiata)?. Bulg. J. Plant Physiol. 29 (2003) 77-86
52. Patra J., Baisakhi B., Mohapatro M.K., and Panda B.B. Aluminium triggers genotoxic adaptation to methyl mercuric chloride and ethyl methane sulfonate, but not to maleic hydrazide in plant cells in vivo. Mutat. Res. 465 (2000) 1-9
53. Patra J., Sahoo M.K., and Panda B.B. Persistence and prevention of aluminium- and paraquat-induced adaptive response to methyl mercuric chloride in plant cells in vivo. Mutat. Res. 538 (2003) 51-61
54. Patra J., Sahoo M.K., and Panda B.B. Salicylic acid triggers genotoxic adaptation to methyl mercuric chloride and ethyl methane sulfonate, but not to maleic hydrazide in root meristem cells of Allium cepa L. Mutat. Res. 581 (2005) 173-180
55. Poli P., Buschini A., Restivo F.M., Ficarelli A., Cassoni F., Ferrero I., and Rossi C. Comet assay application in environmental monitoring: DNA damage in human leucocytes and plant cells in comparison with bacterial and yeast tests. Mutagenesis 14 (1999) 547-555
56. Richards K.D., Schott E.J., Sharma Y.K., Davis K.R., and Gardner R.C. Aluminium induces oxidative stress genes in Arabidopsis thaliana. Plant Physiol. 116 (1998) 409-418
57. Roy A.K., Sharma A., and Talukder G. A time course study on the effect of aluminium on mitotic cell division in Allium sativum. Mutat. Res. 227 (1989) 221-226
58. Sagi M., and Fluhr R. Superoxide production by plant homologues of the gp91phox NADPH oxidase. Modulation of activity by calcium and by tobacco mosaic virus infection. Plant Physiol. 126 (2001) 1281-1290
59. Sharma P., and Dubey R.S. Involvement of oxidative stress and role of antioxidative defense system in growing rice seedlings exposed to toxic concentrations of aluminum. Plant Cell Rep. 26 (2007) 2027-2038
60. Silva I.R., Smith T.J., Moxley D.F., Carter T.E., Allen N.S., and Rufty T.W. Aluminium accumulation at nuclei of cells in root tip. Fluorescence detection using lumogallion and confocal laser scanning microscopy. Plant Physiol. 123 (2000) 543-552
61. Šimonovicova M., Huttova J., Mistrik I., Siroka B., and Tamas L. Root growth inhibited by aluminium is probable caused by cell death due to peroxidase-mediated hydrogen peroxide production. Protoplasma 224 (2004) 91-98
62. Tamas L., Huttova J., and Mistri{dotless}k I. Inhibition of Al-induced root elongation and enhancement of Al-induced peroxidase activity in Al-sensitive and Al-resistant barley cultivars are positively correlated. Plant Soil 250 (2003) 193-200
63. Tamas L., Budi{dotless}kova S., Huttova J., Mistri{dotless}k I., Simonovicova M., and Siroka B. Aluminum-induced cell death of barley-root border cells is correlated with peroxidase- and oxalate oxidase-mediated hydrogen peroxide production. Plant Cell Rep. 24 (2005) 189-194
64. Woodbury W., Spencer A.K., and Stahmann M.A. An improved procedure using ferricyanide for detecting catalase isozymes. Anal. Biochem. 44 (1971) 301-305
65. Yakimova E.T., Kapchina-Toteva V.M., and Woltering E.J. Signal transduction events in aluminum-induced cell death in tomato suspension cells. J. Plant Physiol. 164 (2007) 702-708
66. Yamamoto Y., Kobayashi Y., and Matsumoto H. Lipid peroxidation is an early symptom triggered by aluminum, but not the primary cause of elongation inhibition in pea root. Plant Physiol. 125 (2001) 199-208
67. Zheng S.J., and Yang J.L. Target sites of aluminium phytotoxicity. Biol. Plant. 49 (2005) 321-331