Growth, anatomy and enzyme activity changes in maize roots induced by treatment of seeds with low-temperature plasma
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Agarwal S. 2007. Increased antioxidant activity in Cassia seedlings under UV-B radiation. Biol. Plant. 51: 157–160.
Ahmet E. 2003. Effects of magnetic fields on yield and growth in strawberry. J. Hort. Sci. Biotec. 78: 145–147.
Apostolova P., Yordanova R. & Popova L. 2008. Response of antioxidative defence system to low temperature stress in two wheat cultivars. Gen. Appl. Plant Physiol. 34: 281–294.
Bari M.L., Nazuka E., Sabina Y., Todoriki S. & Isshiki K. 2003. Chemical and irradiation treatments for killing Escherichia coli O157:H7 on alfalfa, radish, and mung bean seeds. J. Food Protec. 66: 767–774.
Basaran P., Basaran-Akgul N. & Oksuz L.2008. Elimination of Aspergilus parasiticus from nut surface with low pressure cold plasma (LPCP) treatment. Food Microbiol. 25: 626–632.
Bradford M.M. 1976. A rapid a sensitive method for the quantification of micrograms quantities of protein utilising the principle of protein dye bindings. Analyt. Biochem. 72: 248–254.
Cakmak I. & Horst W.J. 1991. Effect of aluminum on lipid peroxidation, superoxide dismutase, catalase and peroxidase activities in root tips of soybean (Glycine max). J. Plant Physiol. 83: 463–468.
Carbonell M., Martinez E. & Raya A. 2000. Effects of 125 mT stationary magnetic field in the initial stages of growth of wheat. Agric. Eng. Res. Papers 32: 5–10.
Černák M., Černáková Ľ., Hudec I., Kováčik D. & Zahoranová A. 2009. Coplanar surface barrier discharge and its applications for in-line processing of low-added-value materials. Eur. Phys. J. Appl. Phys. 47: 22806 (p1-p6).
Claiborne A. 1985. Catalase activity, pp.283–284. In: Greenvald R.A. (ed.), Handbook of methods for oxygen radical research, Boca Raton CRC Press.
Chaomei Z. & Yanlin M. 1993. Irradiation induced changes in enzymes of wheat during seed germination and seedling growth. Acta Agric. Nucleatae Sinica 7: 93–97.
Cheen Y., Yuea M. & Wanga X. 2005. Influence of He-Ne laser irradiation on seeds thermodynamic parameters and seedlings growth of Isatis indogotica. Plant Sci. 168: 601–606.
Christensen J.H., Overney S., Rohde A., Diaz W.A., Bauw G., Simon P., van Montagu M. & Boerjan W. 2001. The syringaldazine-oxidizing peroxidase PXP 3–4 from poplar xylem: cDNA isolation, characterization and expression. Plant Mol. Biol. 47: 581–593.
Davies M.S. 1996. Effects of 60 Hz electromagnetic fields on early growth in three plant species and replication of previous results. Bioelectromagnetics 2: 154–161.
Donahue J.L., Okpodu C.M., Cramer C.L., Grabau E.A. & Alscher R.G.1997. Responses of antioxidants to paraquat in pea leaves. Plant Physiol. 113: 249–257.
Dubinov A.E., Lazarenko E.M. & Selemir V.D. 2000. Effect of glow discharge air plasma on grain crops seed. IEEE Transactions Plasma Sci. 28: 180–183.
Faivre-Rampant O., Kevers C., Bellini C. & Gaspar T. 1998. Peroxidase activity, ethylene production, lignification and growth limitation in shoots of a nonrooting mutant of tobacco. Plant Physiol. Biochem. 36: 873–877.
Foyer Ch., Lelandais M. & Kunert K.J. 1994. Photooxidative stress in plants. Physiol. Plant. 92: 696–717.
Frič F. & Fuchs W.H. 1970. Veränderungen der Aktivität einiger Enzyme im Weizenblatt in Abhängigkeit von der temperaturlabilen Verträglichkeit für Puccinia graminis tritici. Phytopathol. Z. 67: 161–174.
Galová Z. 1996. The effect of laser beams on the process of germinating power of winter wheat grains. Roczniki AR, Poznań, CCCLXXXVI, ser.Rol. 49: 39–43.
Gan-Mor G. 2003. Electrostatic pollen application development and tests for almond, kiwi, date and pistachio — an overview. Appl. Eng.Agric. 19: 119–124.
Gaspar T., Penel C., Castillo F. & Greppin H. 1985. A two-step control of basic and acidic peroxidases and its significance for growth and development. Physiol. Plant. 64: 418–423.
Gondim F.A., Gomes-Filho E., Lacerda C.F., Prisco J.T., Azavedo Neto A.D. & Marques E.C. 2010. Pretreatment with H2O2 in maize seeds: effects on germination and seedlings acclimation to salt stress. Braz. J. Plant Physiol. 22: 103–112.
Hammed A., Shah T.M., Atta B.M., Haq M.A. & Sayed H. 2008. Gamma irradiation effects on seed germination and growth, protein content, peroxidase and protease activity, lipid peroxidation in Desi and Kabuli chickpea. Pak. J. Bot. 40: 1033–1041.
Henselová M., Zahoranová A. & Černák M. 2011. Effect of lowtemperature plasma on the germination and ontogenetic development of corn (Zea mays L.), pp. 166–169. In: Blaha J.(ed), Proceeding from Conference “ Vliv abiotickych a biotickych stresorů na vlastnosti rostlin 2011”, Praha 9.-10.3. 2011. (In Slovak)
Hodges D.M., Andrews C.J., Johnson D.A. & Hamilton R.I. 1997. Antioxidant enzyme responses to chilling stress in differentially sensitive inbred maize lines. J. Exp. Bot. 48: 1105–1113.
Jensen C.O., Sacks W. & Baldauski F.A. 1951. The reduction of triphenyltetrazolium chloride by dehydrogenases of corn embryos. Science 113: 65–66.
Jung H., Kim D.B., Gweon B., Moon S.Y. & Choe W. 2010. Enhanced inactivation of bacterial spores by atmospheric pressure plasma with catalyst TiO2. Appl Catalysis B: Environ. 93: 212–216.
Ksenz N.V. & Kaciesvili S.V. 2000. Electrostatic field and productivity of cereals (in Russian). Mechanization and Electrification in Agriculture 6:18–10.
Laemmli U.K. 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227: 680–685.
Laroussi M. 2005. Low temperature plasma-based sterilization: Overview and state-of-the-art. Plasma Process. Polym. 2:391–400.
Lebedev I.S. & Litvinenko L.T. 1977. After effect of a permanent magnetic field on photochemical activity of chloroplast. Soviet Plant Physiol.24: 394–395.
Lynikiene S., Pozeliene A. & Rutkauskas G. 2006. Influence of corona discharge field in seed viability and dynamics of germination. Inter. Agrophysics 20: 195–200.
Madamanchi N.R., Donahue J.L., Cramer C.L., Alscher R.G. & Pedersen K. 1994. Differential response of Cu, Zn superoxide dismutases in two pea cultivars during a short term exposure to sulphur dioxide. Plant Mol. Biol. 26: 95–103.
Marinković D. & Borcean I. 2009. Effect of cold electron plasma and extremely low frequency electron-magnetic field on wheat yield. Res. J. Agric. Sci. 41: 96–101.
Martines, E., Carbonell M.V. & Florez M. 2002. Magnetic biostimulation of initial growth stages of wheat. Electromagn. Biol. Med. 21: 43–53.
Palov I. 2003. Research influence of electromagnetic impact on maize seed and plants (in Bulgarian). Machinery in Agriculture, XL. 1: 10–15.
Pietruszweski S. 1993. Effects of magnetic seed treatment on yields of wheat. Seed Sci. Technol. 21: 621–626.
Pietruszewski S. 1996. Effects of magnetic biostimulation of wheat seeds on germination, yield and proteins. Inter. Agrophysics 10: 51–55.
Podleceny J. 2002. Effect of laser irradiation on the biochemical changes in seeds and the accumulation of dry matter in the faba bean. Inter. Agrophysics 16: 209–213.
Reisfeld R.A., Lewis V.J. & Williams D.E. 1962. Disc electrophoresis of basic proteins and peptides on polyacrylamide gels. Nature 195: 281–283.
Sandalio L.M., Dalurzo H.C., Gómez M., Romero-Puertas M.C. & del Río L.A. 2001. Cadmium-induced changes in growth and oxidative metabolism of pea plants. J. Exp. Bot. 52: 2115–2126.
Shabrangi A. & Majd A. 2009. Effects of magnetic fields on growth and antioxidant system in plants. Progr. Electromagnet. Res. 29: 1089–1094.
Scebba F., Arduini I., Ercoli L. & Sebastiani L. 2006. Cadmium effects on growth and antioxidant enzymes activities in Miscanthus sinensis. Biol. Plant. 50: 688–692.
Slooten L., Capiau K., van Camp W., van Montagu M., Sybesma C. & Inze D. 1995. Factors affecting the enhancement of oxidative stress tolerance in transgenic tobacco over expressing manganese superoxide dismutase in the chloroplasts. Plant Physiol. 107: 373–380.
Smith F.G. 1952. The mechanism of the tetrazolium reaction in corn embryos. Plant Physiol. 27: 445–456.
Suzuki N.R. & Mittler R. 2006. Reactive oxygen species and temperature stresses: a delicate balance between signaling and destruction. Physiol. Plant. 126: 45–51.
Šerňák V., ŠerŠpatenka P. 2008. Germination of Chenopodium album in response to microwave plasma treatment. Plasma Sci. Technol. 10: 506–511.
Šimor M., Ráheł J., Vojtek P., Brablec A. & Čern↼ M. 2002. Atmospheric-pressure diffuse coplanar surface discharge for surface treatments. Appl. Phys. Lett. 81: 2716–2718.
Tamás L., Huttová J. & Mistrík I. 2003. 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: 193–200.
Vashisth A. & Nagarajan S. 2009a. Germination characteristic of seeds of maize (Zea mays L.) exposed to magnetic field under accelerating ageing condition. J. Agric. Physics 9: 50–58.
Vashisth A. & Nagarajan S. 2009b. Characterization of water distribution and activities of enzyme during germination in magnetically-exposed maize (Zea mays L.) seeds. Ind. J. Biochem. Biophys. 47: 311–318.
Volin J.C., Denes F.S., Young R.A. & Park S.M.T. 2000. Modification of seed germination performance through cold plasma chemistry technology. Crop Sci. 40: 1706–1718.
Wada H., Koshiba T., Matsui T. & Sato M. 1998. Involvement of peroxidase in differential sensitivity to irradiation in seedlings of two Nicotiana species. Plant Sci. 132: 109–119.
Wang G., Huang J., Gao W., Lu J., Li J., Liao R. & Jaleel Ch.A. 2009. The effect of high-voltage electrostatic field (HVEF) on aged rice (Oryza sativa L.) seeds vigor and lipid peroxidation of seedlings. J. Electrostatics 67: 759–764.
Xiong Q., Xing Z., Feng Z., Tan Q. & Bian Y. 2009. Effect of 60Co Γ-irradiation on postharvest quality and selected enzyme activities of Pleurotus nebrodensis. Food Sci. Technol. 42: 157–161.
Yin M.Q., Huang M.G., Ma B.Z. & Ma T.C. 2005. Stimulating effects of seed treatment by magnetized plasma on tomato growth and yield. Plasma Sci. Technol. 7: 3143–3147.