Crude oil-polluted soil induces ultrastructural and enzyme activity changes in the shoot of lentil
Автор: Minai-Tehrani Dariush, Mohammadi Mina Kolahdouz
Журнал: Журнал стресс-физиологии и биохимии @jspb
Статья в выпуске: 1 т.10, 2014 года.
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Plants are always under threat due to various biotic and abiotic stresses. They respond to such threats by an efficient antioxidative enzyme system such as catalase. The presence of petroleum in soil is a stressful environmental factor for plants. In this study, cellular and biochemical changes were investigated in the shoot of lentil grown in the crude oil-polluted soil. Transmission electron microscope micrographs showed various injuries in the level of subcellular content including nucleus, chloroplast and mitochondria. In the treated samples, catalase activity and its kinetics factors (Vmax and Km) were different from the control. In the treated, Km of the enzyme was lower than that of the control. Temperature and pH profiles of the enzyme were different in the control and treated samples. Catalase purification in both treated and control samples showed that two catalase isoforms were expressed in the treated sample in comparison to the control, in which only one type of catalase was detected.
Lentil, pollution, cell damage, catalase, isoenzyme
Короткий адрес: https://sciup.org/14323823
IDR: 14323823
Список литературы Crude oil-polluted soil induces ultrastructural and enzyme activity changes in the shoot of lentil
- Adsule RN, Kadam SS, Leung HK. (1989). Lentil. In: Salunkhe DK, Kadam SS (Eds) CRC Handbook of World Food Legumes: Nutritional Chemistry, Processing Technology, and Utilization (Vol II), CRC Press Inc., Boca Raton, Florida, pp 133-152
- Amarowicz R, Estrella I, Hernández T, Robredo S, Troszyńska A, Kosińska A, Pegg RB. (2010). Free radical-scavenging capacity, antioxidant activity, and phenolic composition of green lentil (Lens culinaris). Food chemistry 121, 705-711
- Attar F, Khavari-Nejad S, Keyhani J, Keyhani, E. (2009). Structural and functional alterations of CAT induced by acriflavine, a compound causing apoptosis and necrosis. Annals of the New York Academy of Science 1171: 292-299
- Bogdanovic, J., Milosavic, N., Prodanovic, R., Ducic, T., Radotic, K., (2007). Variability of antioxidant enzyme activity and isoenzyme profile in needles of Serbian spruce (Picea omorika (Panc.) Purkinye). Biochemical Systematics and Ecology, 35, 263-273
- Bolwell GP, Bindschedle LV, Blee KA, Butt VS, Davies DR, Gardner SL, Gerrish C, Minibayeva F. (2002). The apoplastic oxidative burst in response to biotic stress in plants: A three-component system. Journal of Experimental Botany 53, 1367-1376
- Bolwell GP. (1999). Role of active oxygen species and NO in plant defense responses. Current Opinion in Plant Biology 2, 287-294
- Brandt R, Merkl N, Schultze-Kraft R, Infante C, Broll G. (2006). Potential of vetiver (Vetiveria zizanoides (L.) Nash) for petroleum hydrocarbon-contaminated soils in Venezuela. International Journal of Phytoremediation 8, 273-284
- Buadze O, Sadunishvili T, Kvesitadze G. (1998). The effect of 1,2-benzanthracene and 3, 4-benzpyrene on the ultrastructure of maize cells. Biodeterioration and Biodegradation, 41, 119-125
- Chaineau CH, More JL, Oudot J. (1997). Phytotoxicity and plant uptake of fuel oil hydrocarbons. Journal Environmental Quality, 26, 1478-1483
- Cheeseman JM. (2007). Hydrogen peroxide and plant stress: A challenging relationship. Plant Stress 1, 4-15
- Chelikani P, Fita I, Loewen PC. (2004). Diversity of structures and properties among CATs. Cellular and Molecular Life Sciences 61, 192-208
- Chichkova NV, Shaw J, Galiullina RA, Drury GE, Tuzhikov AI, Kim SH, Kalkum M, Hong TB, Gorshkova EN, Torrance L, Vartapetian AB, Taliansky M. (2010). Phytaspase, a relocalisable cell death promoting plant protease with caspase specificity. EMBO Journal, 29, 1149-1161
- Gallego S, Benavides M, Tomaro M. (2002). Involvement of an antioxidant defence system in the adaptive response to heavy metal ions in Helianthus annuus L.cells. Plant Growth Regulation 36, 267-273. Havir EA, McHale NA. (1989). Regulation of catalase activity in leaves of Nicotiana sylvestris by high CO2. Plant Physiology 89, 952-957
- Kirk JL, Klironomos JN, Lee H, Trevors JT. (2005). The effect of perennial ryegrass and alfalfa on microbial abundance and diversity in petroleum contaminated soil. Environmental Pollution 133: 455-465
- Merkl N, Schutze-Kraft R, Infante C. (2005). Phytoremediation in the tropics -influence of heavy crude oil on root morphology characteristics of graminoids. Environmental Pollution 133, 455-465
- Minai-Tehrani D, Tavakoli Temah A, Rashidfarokhi A, Noormohammadi A, Khodakarami A, Talebi M. (2012). The effect of light crude oil-contaminated soil on the growth and germination of Sorghum bicolor. In: Dobránszki J (Ed) Sorghum. The European Journal of Plant Science and Biotechnology 6 (Special Issue 1), 81-84
- Minai-Tehrani D. (2008). Effect of heavy crude oil-contaminated soil on germination and growth of Poa trivialis (rough meadow-grass). Archives of Agronomy and Soil Science 54, 83-92
- Mullen RT, Gifford DG. (1993). Purification and characterization of catalase from Loblolly pine (Pinus taeda L.) megagametophytes. Plant Physiology, 103, 477-483
- Regelsberger G, Jakopitsch C, Plasser L, Schwaiger H, Furtmuller PG, Peschek GA, Zamocky M, Obinger C. (2002). Occurrence and biochemistry of hydroperoxidase in oxygenic phototrophic prokaryotes (cyanobacteria). Plant Physiology and Biochemistry, 40, 479-490
- Sadunishvili T, Kvesitadze E, Betsiashvili M, Kuprava N, Zaalishvil G, Kvesitadze G. (2009). Influence of hydrocarbons on plant cell ultrastructure and main metabolic enzymes. World Academy of Science, Engineering and Technology, 57, 271-276
- Scandalios JG. (1994). Regulation and properties of plant catalases. In: Foyer CH, Mullineaux PM (Eds) Causes of Photooxidative Stress and Amelioration of Defense Systems in Plants, CRC Press, Boca Raton, Florida, pp 275-315
- Tayefi-Nasrabadi H, Dehghan G, Daeihassani B, Movafegi A, Samadi A, (2011). Some biochemical properties of catalase from safflower (Carthamus tinctorius L. cv. M-CC-190). African Journal of Agricultural Research, 6, 5221-5226
- Vartapetian BB, Sachs MM, Fagersted KV. (2008). Plant anaerobic stress: Strategy of avoidance of anaerobiosis and other aspects of plant life under hypoxia and anoxia. Plant Stress 2, 1-19
- Williamson JD, Scandalios JG. (1992). Differential response of maize catalases and superoxide dismutases to the photoactivated fungal toxin cercosporin. Plant Journal 2, 351-358