Effects of Nitric Oxide Application on Antioxidant Enzyme Activities of Pepper Plants under Drought Stress


Özet Görüntüleme: 411 / PDF İndirme: 259

Yazarlar

  • Fikret YAŞAR Van Yuzuncu Yıl University, Faculty of Agriculture, Department of Horticulture, Van
  • Özlem ÜZAL Van Yuzuncu Yıl University, Faculty of Agriculture, Department of Horticulture, Van

DOI:

https://doi.org/10.46291/ISPECJASvol5iss4pp846-853

Anahtar Kelimeler:

Antioxidant enzyme activities, Capsicum annuum, Drought stress, Nitric oxide, SNP

Özet

The purpose of the study was to determine the relationship between the messenger molecule Nitric oxide (NO) and antioxidative enzyme (SOD: Superoxide Dismutase; CAT: Catalase; APX: Ascorbate Peroxidase) activities in some metabolic changes that occur under the effect of drought stress in plants, to determine the possible roles of Nitric Oxide and to obtain complementary information. The experiment conducted in a controlled environment, and plant were cultured in containers containing Hoagland nutrient solution. For drought stress application, 10% Polyethylene Glycol (PEG 6000) was added to the nutrient solution, which is equivalent to -0.40 MPa osmotic potential. Before the drought stress is applied, pepper seedlings of Demre cv were pre-treated with different doses of Sodium Nitroprusside (SNP) and Carboxy-PTIO (potassium salt) (cPTIO) (SNP 0.01, SNP 1, SNP 100 and SNP 0.01 + cPTIO, SNP + cPTIO, SNP 100+ cPTIO). On the 10th day of the drought application, the growth parameters of the plants; the plant fresh weights and their Antioxidative Enzyme Activities (SOD, CAT, APX) were determined. In terms of plant growth parameters, both plant growth and antioxidant anzyme activities of plants pretreated with 0.01 and 1 doses of SNP were lower than the high dose of SNP and the PEG application without pretreatment. The reason for the low enzyme activities in these applications can be attributed to factors such as the excess accumulation of organic acids such as proline in the cells of the plants and the decrease in H2O2 and O-2 levels in the presence of SNP.

Referanslar

Alscher, R., G., Ertürk, N., Heath, L. S. 2002. Role of superoxide dismutases (SODs) in controlling oxidative stress in plants. J. Exp. Bot., 372: 1331-1341.

Berber, İ., Yaşar, F. 2011. Characterization of bean (Phaseolus vulgaris L.) cultivars grown in turkey by SDS-page of seed proteins, Pakistan Journal of Botany, 43(2): 1085-1090.

Büyük, İ., Aydın, S.S., Aras, S. 2012. Molecular responses of plants under stress conditions, Turkish Hygiene Experiment. Biol. J., 69(2): 97-110.

Cakmak, I., Marschner, H. 1992. Magnesium Defficiency and Higlight Dntensity Enhance Activities of Superoxide Dismutase, Ascorbate Peroxidase and Glutathione Reductase in Bean Leaves. Plant Physiol, 98: 1222-1226.

Carlos, G.M., Lorenzo, L. 2001. Nitric Oxide Induces Stomatal Closure and Enhances the Adaptive Plant Responses against Drought Stress. Plant Physiology, 104: 1015-1025.

Cooney, R.V., Harwood, P.J., Custer, L.J., Franke, A.A. 1994. Light- Mediated Conversion of Nitrogen Dioxide to Nitric Oxide by Carotenoids, Enviromental Health Perspective, 102: 460-462.

Çelik, A., Eraslan, F. 2015. The Effect of Nitric Oxide Application on Mineral Nutrition and Some Physiological Properties of Corn Plants Grown Under Salt Stress. Süleyman Demirel University Journal of the Faculty of Agriculture, 10 (l): 55-64.

Çulha, Ş., Çakırlar, H. 2012. Effects of salinity on plants and salt tolerance mechanisms, Afyon Kocatepe University Journal of Science, 11: 11-34.

Demiral, T. 2003. Investigation of the role of antioxidant enzyme activity in increasing salt (NaCl) tolerance by external application of glycinebetaine to young rice seedlings. Master Thesis. Ege University Institute of Science and Technology, İzmir, pp.72.

Dolferus, R. 2014. To grow or not to grow: A stressful decision for plants. Plant Sci., 2229: 247-261.

Ekinci, M., Ors, S., Yildirim, E., Turanc, M., Sahin U., Dursun, A., Kula, R. 2020. Determination of Physiological Indices and Some Antioxidant Enzymes of Chard Exposed to Nitric Oxide under Drought Stress. Russian Journal of Plant Physiology, 67(4): 740–749.

Erman, M., Çığ, F., Ceritoğlu, F.,Ceritoğlu, M. 2021. Evaluation of early stage traits as an ındicator of genetic variation in winter lentil. ISPEC Journal of Agricultural Science, 5(3): 552-559.

Hoagland, D.R., Arnon, D. 1938. The water culture method for growing plants without soil. Journal Circular California Agricultural Experiment Station, No. 347.

Jamei, R., Heidari, R., Khara, J., Zare, S. 2009. Hypoxia induced changes in the MDA, membrane permeability, reactive oxygen species generation and antioxidative response systems in Zea mays leaves. Turk. J. Biol., 33: 45-52.

Kausar, F., Shahbaz, M., Ashraf, M. 2013. Protective role of foliar applied Nitric oxide in Triticum aestivum under saline stress. Turk. J. Bot., 37: 1155-1165.

Olson, S.Y., Garban, H.J. 2008. Regulation of apoptosis-related genes by nitric oxide in cancer. Nitric Oxide, 19: 170-176.

Pedroso, M.C., Magalhaes, J.R., Durzan, D. 2000. A Nitric Oxide Burst Precedes Apoptosis in Angiosperm and Gymnosperm Callus Cells and Foliar Tissues, Journal of Experimental Botany, 51:1027-1036.

Sas-Instıtue, 1985. Sas/State User’s Guide 6. 03 ed. SAS. Instıtute. Cary,North Carolina.

Sekmen, H., Demiral, T., Tosun, N., Türküsay, H., Türkan, İ. 2005. Some Physiological Properties of Tomato Plants Applied with Salt Stress and The Effect of Plant Activator on Total Protein Amount. Ege Univ. Faculty of Agriculture. Journal., 42(1):85-95.

Stöhr, C., Ullrich, W.R. 2002. Generation and possible roles of NO in plant roots and their apoplastic space. J Exp Bot., 53:2293-2303.

Taiz, L., Zeiger, E. 2010. Responses and adaptations to abiotic stress. In: Plant Physiology, Fifth Edition. Sunderland, MA: Sinauer Associates, Inc. pp. 755-778. ISBN 978-0-87893- 866-7928.

Taş, T., Öktem, A. 2019. Determination of Physiological, Morphological and Biochemical Responses Of Some Corn Genotypes (Zea mays L.) to High Heat and Water Stress in Southeastern Anatolia Region. Ispec Journal of Agricultural Science, 3(1):128-152.

Tian, X., Lei, Y. 2006. Nitric oxide treatment alleviates drought stress in wheat seedlings. Bıologıa Plantarum, 50 (4):775-778.

Tuna, A. L., Eroğlu, B. 2017. The effects of some organic and inorganic compounds on the antioxidative system in pepper (Capsicum annuum L.) plant under salt stress. Anadolu J Agr Sci., 32: 121-131.

Türkan, İ., Bor, M., Özdemir, F., Koca, H. 2005. Differential responses of lipid peroxidation and antioxidants in the leaves of drought-tolerant P.acutifolius Gray and drought-sensitive P. vulgaris L. subjected to polyethylene glycol mediated water stress, Plant Sci., 168: 223-231.

Yasar, F. 2003. Investigation of some antioxidant enzyme activities in eggplant genotypes grown under salt stress in vivo and in vitro. Yuzuncu Yil University, Institute of Natural and Applied Sciences, PhD Thsis, pp139, Van-Turkey.

Yaşar, F., Ellialtioglu, Ş., Yildiz, K. 2008a. Effect of salt stress on antioxidant defense systems, lipid peroxidation and chlorophyll content in green bean (Phaseolous vulgaris L.), Rusian J. Plant Physiol., 55(6): 1-5.

Yaşar, F., Ellialtıoğlu, Ş., Özpay, T., Üzal, Ö. 2008b. Effect of Salt Stress on Antioxidative Enzyme (SOD, CAT, APX and GR) Activity in Watermelon (Citrullus lanatus (Thunb.) Mansf.).Yuzuncu Yil Univ. Journal. Agric. Sci., 18(1):61-65.

Yasar, F., Uzal, Ö., Özpay, T. 2010. Changes of the lipid peroxidation and chlorophyllamount of green bean genotypes under drought stress, African Journal of Agricultural Research, 5(19): 2705-2709.

Yaşar, F., Manar T., Ellialtioglu, Ş., Kusvuran, Ş., Üzal, Ö. 2013a. SOD, CAT, GR and APX enzyme activities in callus tissues of susceptible and tolerant eggplant varieties under salt stress, Research Journal Of Bıotechnology, 8:45-50.

Yasar, F., Uzal, Ö., Özpay, T., Yasar, Ö. 2013b. Investigation of the relationship between the tolerance to drought stress levels and antioxidant enzyme activities in green bean (Phaseolus Vulgaris L.) genotypes, African Journal Agricultural Resarch, 8(46): 5759-5763.

Yaşar, F., Üzal, Ö., Köse, Ş., Yaşar, Ö., Ellialtioglu, S. 2014. Enzyme activities of certain pumpkin (Cucurbita spp) species under drought stress, Fresenius Environmental Bulletin, 23: 1093-1099.

Yasar, F., Uzal, O., Yasar, O. 2016. Antioxidant enzyme activities and lipid peroxidation amount of pea varieties (Pisum sativum sp. arvense L.) under salt stress, Fresenius Environmental Bulletin, 25 (1): 37-42.

Yaşar, F., Yıldırım Ö., Üzal, Ö. 2020. Investigation of the effect of calcium applications on antioxidative enzyme activities in pepper plant under salt stres. ISPEC Journal of Agricultural Science, 4(2):346-357.

Yayınlanmış

2021-12-12

Nasıl Atıf Yapılır

Fikret YAŞAR, & Özlem ÜZAL. (2021). Effects of Nitric Oxide Application on Antioxidant Enzyme Activities of Pepper Plants under Drought Stress. ISPEC Tarım Bilimleri Dergisi, 5(4), 846–853. https://doi.org/10.46291/ISPECJASvol5iss4pp846-853

Sayı

Bölüm

Makale