Interactive effects of silicon and aluminum on the malondialdehyde (MDA), proline, protein and phenolic compounds in borago officinalis L.

Journal of Medicinal Plant Research

Volumn 5, Issue 24, 2011, Pages 5818-5827

  Shahnaz, Gagoonani ^a   Shekoofeh, Enteshari ^a   Kourosh, Delavar ^b   Moohamadbagher, Behyar ^c  

^a ISLAMIC AZAD UNIVERSITY   (Iran)

^b Azad University   (Iran)

^c Atmospheric Sciences and Metrological Research Center   (Iran)

Author keywords

Aluminum; Borago; Malondialdehyde (MDA); Phenoli compounds; Proline; Protein; Silicon

Indexed keywords

ALDEHYDE; ALUMINUM; LIPID; MALONALDEHYDE; PHENOL DERIVATIVE; PROLINE; SILICON; VEGETABLE PROTEIN;

ALUMINUM TOLERANCE; ARTICLE; BIOCHEMISTRY; BORAGO; CHEMICAL INTERACTION; CHEMICAL STRESS; CONCENTRATION RESPONSE; CONTROLLED STUDY; GREENHOUSE; HYDROPONICS; LIPID PEROXIDATION; NONHUMAN; PHYTOCHEMISTRY; PLANT GROWTH; PLANT LEAF; PLANT PHYSIOLOGY; PLANT STRESS;

EID: 82155203126     PISSN: None     EISSN: 19960875     Source Type: Journal    
DOI: None     Document Type: Article

References (93)

1. Ahmad I, Hellebust A (1988). The relationship between inorganic nitrogen metabolism and proline accumulation in osmoregulatory responses of two euryhaline microalgae. Plant Physiol., 88: 348-354.
2. Alia SPP, Mohanty P (1993). Proline in relation to free radical production in seedlings of Brassica juncea raised under sodium chloride stress. Plant Soil, 155/156: 497-500.
3. Alia SPP, Mohanty P (1997). Involvement of proline in protecting thylakoid membranes against free radical induced photodamage. J. Photochem. Photobiol. B, 38: 253-257.
4. Alia SPP, Mohanty P, Matysik J (2001). Effect of proline on the production of singlet oxygen. Amino Acid, 21: 195-200.
5. Anuradha S, Rao SSR (2003). Application of brassinosteroids to rice seeds (Oryza sativa L.) reduced the impact of salt stress on growth, prevented photosynthetic pigment loss and increased nitrate reductase activity. Plant Growth Regul., 40: 29-32.
6. Archambault DJ, Zhang G, Taylor GJ (1996). A comparison of the kinetics of Aluminum (Al) uptake and distribution in roots of wheat (Triticum aestivum) using different Aluminum sources. A revision of the operational definition of symplastic Al. Physiol. Planetarium, 98: 578-586.
7. Bandaranayake WM (2002). Bioactivities, bioactive compounds and chemical constituents of mangrove plants. Wetlands Ecol. Manag., 10: 421-452.
8. Barcelo J, Guevara P, Poschenrieder C (1993). Silicon amelioration of aluminium toxicity in teosinte (Zea mays L. ssp.Mexicana). Plant Soil, 154: 249-255.
9. Basu U, Basu A, Taylor GJ (1994a). Differential exudation of polypeptides by roots of Aluminum-resistant and Aluminum-sensitive cultivars of Triticum aestivum L. in response to Aluminum stress. Plant Physiol., 106: 151-158.
10. Basu GAG, Taylor GJ (2001). Transgenic Brassica napus plants overexpressing aluminium-induced mitochondrial manganese superoxide dismutase cDNA are resistant to aluminium. Plant Cell Environ., 24: 1269-1278
11. Bates LS, Waldren RP, Teare ID (1973). Rapid determination of free enzyme activities in tomato plants under salt stress. J. Plant Nutr., 27: 2101-2115.
12. Baylis AD, Gragopoulou C, Davidson KJ, Birchall JD (1994). Effect of Silicon on the toxicity of aluminium to soybean. Commun. Soil Sci. Plant Anal., 25: 537-546.
13. Beier RC, Nigg HN (1992). Natural toxicants in foods. In Nigg HN, and Seigler D (eds) Phytochemical Resources for Medicine and Agriculture. Plenum Press, New York, pp. 247-367.
14. Birchall JD (1992). The inter relationship between Silicon and Aluminum in the biological effects of Aluminum. Ciba found. Symp., 169: 50-68.
15. Britez RM, Watanabe T, Jansen S, Reissmann CB, Osaki M (2002). The relationship between aluminium and Silicon accumulation in leaves of Faramea marginata (Rubiaceae). New Phytol., 156: 437-444.
16. Cakmak I, Horst WJ (1991). Effect of aluminium on lipid peroxidation, superoxide dismutase, catalase, and peroxidase activities in root tips of soybean (Glycine max). Physiol. Plant, 93: 463-468.
17. Chaoui A, Mazhoudi S, Ghorbal MH, Ferjani EL (1997). Cadmium and zinc induction of lipid peroxidation and effects on antioxidant enzyme activities in bean (Phaseolus vulgaris L.). Plant Sci., 127: 139-147.
18. Chen J, Russell DC, Cynthia AR, Robert S (2000). Silicon: The estranged medium element. Florida Cooperative extension service, Institute of Food and Agricultural Sciences, University of Florida, USA. Bulletin 341, series of Envi. Hort. Dept.
19. Cocker KM, Evans DE, Hodson MJ (1998). The amelioration of Aluminum toxicity in Higher Plants: Solution Chemistry or an in Planta Mechanism. Physiol. Plant, 104: 608-614.
20. Delhaize E, Tyan PR (1995). Aluminum toxicity and tolerance in plants. Plant Physiol., 107: 315-321.
21. Epstein E (1994). The anomaly of Silicon in plant biology. Proc. Natl. Acad. Sci. U.S.A., 91: 11-17.
22. Epstein E (1999). Silicon. Annu. Rev. Plant Physiol. Plant Mol. Biol., 50: 641-664.
23. Foy CD (1984). Physiological effects of hydrogen, Aluminum and manganese toxicities in acid soil. In: Pearson RW, Adams F (ed.): Soil Acidity and Liming. Wisconsin, 1984. Am. Soc. Agron. pp. 57-97.
24. Galvez L, Clark RB, Gourley LM, Maranville JW (1987). Silicon interaction whit Manganese and Aluminum toxicity In Sorghum. J. Plant Nutr., 10: 1139-1147.
25. Guo TR, Zhang GP, Zhou Mx, Wu FB, Chen JX (2004). Effects of Aluminum and cadmium toxicity on growth and antioxidant enzyme activities of two barley genotypes With Different Al Resistance. Springer Science Business. Media Rev., 258.1: 241-248.
26. Guo TR, Zhang GP, Lu WY, Wu HP, Wu FB, Chen JX, Zhou MX (2003). Effect of Al on dry matter accumulation and Al and nutrients in barleys differing in Al tolerance. Plant Nutr. Fert. Sci., 9: 324-330.
27. Hahlbrock K, Scheel D (1989). Physiology and Molecular Biology of Phenylpropanoid Metabolism. Annu. Rev. Plant Physiol. Plant Mol. Biol., 40: 347-369.
28. Hamilton III EW, Heckathorn SA (2001). Mitochondrial adaptations to NaCl. Complex I is protected by antioxidants and small heat shock proteins, whereas complex II is protected by proline and betaine. Plant Physiol., 126: 1266-1274.
29. Hammond KE, Evans DE, Hodson MJ (1995). Aluminium/Silicon interactions in barley (Hordeum vulgare L.) seedlings. Plant Soil, 173: 89-95.
30. Hare PD, Cress WA (1997). Metabolic implications of stress induced proline accumulation in plants. Plant Growth Regul., 21: 79-102.
31. Heath RL, Pacher L (1969). Photoperoxidation in Isolated Choloroplast. Kinetics and Stoichiometry of Fatty Acid Peroxidation. Arch. Biochem. Biophys., 125: 189-198.
32. Hoagland DR, Arnon DI (1950). The water culture method for growing plants without soil. Calif. Agric. Exp. Stat. Circ., p. 347.
33. Hodson MJ, Evans DE (1995). Aluminum/Silicon interactions in higher plants. J. Exp. Bot., 46: 161-171.
34. Hodson MJ, Sangster AG (1999). Aluminum/Silicon interactions in conifers. J. Inorg. Biochem., 76: 89-98.
35. Horiguchi T, Morita S (1987). Mechanism of manganese toxicity and tolerance of plants VI. Effect of Silicon on alleviation of manganese toxicity of barley. J. Plant Nutr., 10: 2299-2310.
36. Horst WJ, Marschner H (1978). Effect of Silicon on manganese tolerance of bean plants (Phaseolus vulgaris L.) Plant Soil, 50: 287-303.
37. Ishikawa S, Wagatsuma J (1998). Plasma membrane permeability of root tip cells following temporary exposure to Al ions is a rapid measure of Al tolerance among plant species. Plant Cell Physiol., 39: 516-525.
38. Jaakola L, Maatta K, Pirttila AM, Torronen R, Karenlampi S, Hohtola A (2002). Expression of genes involved in anthocyanin biosynthesis in relation to anthocyanin, proanthocyanidin, and flavonol levels during Bilberry fruit development. Plant Physiol., 130: 729-739.
39. Jain M, Mathur G, Koul S, Sarin NB (2001). Ameliorative effects of proline on salt stressinduced lipid peroxidation in cell lines of groundnut (Arachis hypogea L.). Plant Cell Rep., 20: 463-468.
40. Jansen S, Watanabe T, Dessein S, Smets E, Robbrecht E (2003). Acomparative study of metal levels in leaves of some Alaccumulating Rubiaceae. Ann. Bot., 91: 657-663.
41. Jian MF, Yamaji N (2006). Silicon uptake and accumulation in higher plants, Trends in Plant Science Vol. 11 No. 8 Jones, DL, LVKochain, and Gilary S., 1998. Plant Physiol., 116: 81-89.
42. Kadpal RP, Rao NA (1985). Alteration in the biosynthesis of proteins and nucleic acid in finger millet (Eleucine coracana) seedling during water stress and the effect of proline on protein biosynthesis. Plant Sci., 40: 73-79.
43. Kavir KPB, Sangam S, Amrutha RN, Laxmi PS and NKR (2005). Regulation of proline biosynthesis, degradation, uptake and transport in higher plants: Its implications in plant growth and abiotic stress tolerance. Current sci., 88(3): 424-438.
44. Kidd PS, Llugany M, Poschenrieder C, Gunse B, Barcelo J (2001). The role of root exudates in Aluminum resistance and Silicon-induced amelioration of Aluminum toxicity in three varieties of maize (Zea mays L.). J. Exp. Bot., 52: 1339-1352.
45. Kuhnau J (1976). The flavonoids: a class of semi-essential food components: their role in human nutrition. World Rev. Nutr. Diet, 24: 117-191.
46. Kuo MC, Kao CH (2003). Aluminum effects on lipid peroxidation and antioxidative enzyme activities in rice leaves. Biol. Plant, 46: 149-152.
47. Laliberte G, Hellebust JA (1989). Regulation of proline content of Chlorella autopica in response to change in salinity. Can. J. Bot., 67: 1959-1965.
48. Lazof DB, Goldsmith JG, Rufty TW, Linton RW (1996). The early entry of Al into cells of intact soybean roots. A comparison of three developmental root regions using secondary ion mass spectrometery imaging. Plant Physiol., 112: 1289-1300.
49. Li YC, Alva AK, Sumner ME (1989). Response of cotton cultivars to Aluminum in solutions with varying Silicon concentrations. J. Plant Nutr., 12: 881-892.
50. Li KR, Wang HH, Han G, Wang QJ, Fan J (2008). Effects of brassinolide on the survival, growth and drought resistance of Robinia pseudoacacia seedlings under water-stress. New Forests, 35: 255-266.
51. Liang YC, Shen QR, Shen ZG, Ma TS (1996). Effects of Silicon on salinity tolerance of two barley cultivars. J. Plant Nutr., 19: 173-183.
52. Liang YC, Ding RX, Liu Q (1999). Effects of Silicon on salt tolerance of barley and its mechanism. Sci. Agric. Sin., 32(6): 75-83.
53. Liang YC, Yang CG, Shi HH (2001). Effects of Silicon on growth and mineral composition of barley grown under toxic levels of aluminium. J. Plant Nutr., 24: 229-243.
54. Lidon FC, Barreiro MG (1998). Threshold Aluminum toxicity in maize. J. Plant Nutri., 21: 413-419.
55. Liu Q, Yang JL, He LS, Li YY, Zheng SJ (2008). Effect of Aluminum on cell wall, plasma membrane, antioxidants and root elongation in triticale. Biol. Plant., 52 (1): 87-92.
56. Lorenc-Kukula K, Wrobel-Kwiatkowska M, Starzycki M, Jan SJ (2007). Engineering flax with increased flavonoid content and thus Fusarium resistance. http://rss.sciencedirect.com./getMessage?RegistrationId=EBFJECFJFHFKMBGG BFQFCFRFFJRJFJLHTHRHFGONL.
57. Low PS (1985). Molecular basis of the biological compatibility of nature's osmolytes. In Gilles R and Gilles-Baillien M [Eds.] Transport Processes, Iono-and Osmoregulation. Springer-Verlag, Berlin, pp. 469-477.
58. Lowry OH, Roscberough NJ, Farr AL, Randall RJ (1951). Protein mesurment whit the folin-phenol reagent. Biol. Chem. J., 193: 265-275.
59. Ma JF, Sasaki M, Matsumoto H (1997). Al-induced inhibition of root elongation in corn, Zea mays L., is overcome by Si addition. Plant Soil, 188: 171-176.
60. Ma JF, Ryan PR, Delhaize E (2001). Aluminum tolerance in plants and the complexing role of organic acids. Trends Plant Sci., 6: 273-278.
61. Ma JF, Miyake Y, Takahashi E (2001). Silicon as a beneficial element for crop plants. In: Silicon in Agriculture. (Eds.): Datnoff LE, Snyder GH, Korndorfer GH. Elsevier Sci., Amsterdam, pp.17-39.
62. Ma JF, Takahashi E (2002). Soil, fertilizer, and plant Silicon research in Japan. Elsevier Sci., Amsterdam.
63. Ma JF (2004). Role of Silicon in enhancing the resistance of plants to biotic and abiotic stresses. Soil Sci. Plant Nutr., 50: 11-18.
64. Meirs S, Philosoph-Hadu S, Aharoni N (1992). Ethylene increased accumulation of fluorescent lipid-peroxidation Products detected during parsley by a newly developed method. J. Am. Soc. Hort. Sci., 117: 128-132.
65. Mittler R (2002). Oxidative stress, antioxidants and stress tolerance. Trends Plant Sci., 7: 405-410.
66. Nikolopoulos D (1991). Compatible solutes and in vitro stability of Salsola soda enzyme: proline incompability. Phytochemistry, 30: 411-413.
67. Oteiza PL (1994). A mechanism for the stimulatory effect of Aluminum on iron- induced lipid peroxidation. Arch. Biochem. Biophys., 308: 374-379.
68. Paleg LG, Steward GR, Bradbeer JW (1984). Proline and glycine betaine influence proline salvation. Plant Physiol., 75: 974-978.
69. Paolacci AR, D'ovidio R, Marabottini R, Nali LG, Abanavoli MR, Badiani M (2001). Ozone induces a differential accumulation of phenylalanine ammonia-lyase, chalcone synthase and chalcone isomerase RNA transcripts in sensitive and resistant bean cultivars. Aust. J. Plant Physiol., 28: 425-428.
70. Rafi MM, Epstein E, Falk RH (1997). Silicon deprivation causes physical abnormalities in wheat (Triticum aestivum L.). J. Plant Physiol., 151: 497-501.
71. Rafia A, Sehrish H (2008). Photochemistry of light harvesting pigments and some biochemical changes under Aluminum stress. Pak. J. Bot., 40(2): 779-784.
72. Richmond KE, Sussman M (2003). Got Silicon? The non-essential beneficial plant nutrient. Curr. Opin. Plant Boil., 6: 268-272.
73. Roy AK, Sharma A, Talukder G (1998). Some aspects of Aluminum toxicity. Bot. Rev., 54: 145-178.
74. Ryder M, Gerard F, Evans DE, Hodson MJ (2003). The use of root growth and modeling data to investigate amelioration of aluminium toxicity by Silicon in Picea abies seedlings. J. Inorg. Biochem., 97: 52-58.
75. Saradhi A, Saradhi PP (1991). Proline accumulation under heavy metal stress. J. Plant Physiol., 138: 554-558.
76. Seigler DS (1998). Flavonoids. In Seigler DS (ed) Plant secondary metabolism, Kluwer Academic Publisher, Dordrecht, pp. 151-193.
77. Shahbaz M, Ashraf M, Athar H (2008). Dose exogenous application of 24-epibrassinolide ameliorate salt induced growth inhibition in wheat (Triticum aestivum L.). Plant Growth Regul., 55: 51-64.
78. Shamsi IH, Wei K, Zhang GP, Jilani GH, Hassan MJ (2008). Interactive effects of cadmium and Aluminum on growth and antioxidative enzymes in soybean. Biol. Plant., 52(1): 165-169.
79. Sawhney V, Shearan IS, Singh R (1990). Nitrogen fixation photosynthesis and enzymes of ammonia assimilation and ureide biogenesis in nodules of mungbean (Vigna radiata) grown in presence of cadmium. Indian J. Exp. Biol., 28: 883-886.
80. Smirnoff N, Cumbes QJ (1989). Hydroxyl radical scavenging activity of compatible solute. Phytochemistry, 28: 1057-1060.
81. Sommer H, Saedler H (1986). Structure of the chalcone synthase gene of Antirrhinum majus. Mol. Gen. Genet., 202: 429-434.
82. Sonald SF, Laima SK (1999). Phenolics and cold tolerance of Brassica napus. Plant Agric., 1: 1-5.
83. Tamas L, Huttova J, Mistrik I (2003). Inhibition of Al-induced root elongation and enhancement of Al-induced peroxidase activity in Alsensitive and Al-resistant barley cultivars are positively correlated. Plant Soil, 250: 193-200.
84. Treutter P, Scmid PPS, Feucht W (1990). Q wallbound phenols and peroxidase activity in shoots of Prunus. Gartenbauwissenchaft. 55(2): 69-72.
85. Vardhini BV, Rao SSR (2003). Amelioration of osmotic stress by brassinosteroids on seed germination and seedling growth of three varieties of sorghum. Plant Growth Regul., 41: 25-31.
86. Vazquez MD, Poschenrieder C, Corrales I, Barcelo J (1999). Change in apoplastic Aluminum during the initial growth response to Aluminum by roots of a tolerant maize variety. Plant Physiol., 119: 435-444.
87. Taiz L, Zeiger E (2006). Plant Physiology. 4th edn. Sinauer Associates, Inc., Sunderland, MA, USA.
88. Venekemp JH, Lampe JE, Kout TM (1987). Organic acid as a source of drought-induced proline synthesis in field bean plant Vicia faba, L. J. Plant Physiol., 133: 654-659.
89. Venekemp JH (1989). Regulation of cytosolic acidity in plants under condition of drought. Plant Physiol., 76: 112-117.
90. Wang YX, Stass A, Horst WJ (2004). Apoplastic binding of Aluminum is involved in Silicon-induced amelioration of Aluminum toxicity in maize. Plant Physiol., 136: 3762-3770.
91. Winnard U, Weydemann U, Niesbach U, Peterson PA, Saedler H (1986). Molecular cloning of the czlocus of zeamays the gene coding for chalcone synthase. Mol. Gen. Genet., 203: 202-207.
92. Yamamoto Y, Kobayashi Y, Devi SR, Rikiishi S, Matsumoto H (2002). Aluminum toxicity is associated with mitochondrial dysfunction and the production of reactive oxygen species in plant cells. Plant Physiol., 128: 63-72.
93. Zsoldos F, Vashegyi A, Bona L, Pecsvaradi A, Szegletes ZS (2000). Growth and potassium transport of winter wheat and durum wheat as affected by various Aluminum exposure times. J. Plant Nutr., 23: 913-926.