Role of Exogenous Application of Alpha-Tocopherol in Reducing Low Temperature Stress in Bell Pepper
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Airaki, M., M. Leterrier, R. M. Mateos, R. Valderrama, M. Chaki, J. B. Barroso, L. A. Del Rio, J. M. Palma and F. J. Corpas. 2012. Metabolism of reactive oxygen species and reactive nitrogen species in pepper (Capsicum annuum L.) plants under low temperature stress. Plant, Cell and Environment, 35: 281-95.
Ali, Q., M. Ashfaq and M. T. I. Khan. 2016. An Economic Analysis Of Off-Season Capsicum/Bell Pepper Production In Punjab, Pakistan. ARPN Journal of Agriculture and Biological Science, 11: 424-30.
Arnon, D. I. 1949. Copper enzymes in isolated chloroplasts. Polyphenoloxidase in Beta vulgaris. Plant physiology, 24: 1-18.
Barrs, H. and P. Weatherley. 1962. A re-examination of the relative turgidity technique for estimating water deficits in leaves. Australian journal of biological sciences, 15: 413-28.
Bates, L. S., R. P. Waldren and I. Teare. 1973. Rapid determination of free proline for water-stress studies. Plant and soil, 39: 205-07.
El-Bassiouny, H. and M. S. Sadak. 2015. Impact of foliar application of ascorbic acid and α-tocopherol on antioxidant activity and some biochemical aspects of flax cultivars under salinity stress. Acta Biológica Colombiana, 20: 209-22.
Farouk, S. 2011. Ascorbic acid and α-tocopherol minimize salt-induced wheat leaf senescence. Journal of Stress Physiology and Biochemistry, 7: 413-19.
Havaux, M., F. Eymery, S. Porfirova, P. Rey and P. Dörmann. 2005. Vitamin E protects against photoinhibition and photooxidative stress in Arabidopsis thaliana. The Plant Cell, 17: 3451-69.
Heath, R. L. and L. Packer. 1968. Photoperoxidation in isolated chloroplasts: I. Kinetics and stoichiometry of fatty acid peroxidation. Archives of biochemistry and biophysics, 125: 189-98.
Jing, P., D. Wang, C. Zhu and J. Chen. 2016. Plant physiological, morphological and yield-related responses to night temperature changes across different species and plant functional types. Frontiers in plant science, 7: 1774-81.
Kantar, M. B., J. E. Anderson, S. A. Lucht, K. Mercer, V. Bernau, K. A. Case, N. C. Le, M. K. Frederiksen, H. C. DeKeyser and Z.-Z. Wong. 2016. Vitamin variation in Capsicum spp. provides opportunities to improve nutritional value of human diets. PLoS One, 11: e0161464.
Khan, M. T. I., A. Qamar, A. Muhammad and W. Muhammad. 2017. Economic analysis of open field chilli (Capsicum annuum L.) production in Punjab, Pakistan. Journal of Experimental Biology and Agricultural Sciences, 5: 120-25.
León-Chan, R. G., M. López-Meyer, T. Osuna-Enciso, J. A. Sañudo-Barajas, J. B. Heredia and J. León-Félix. 2017. Low temperature and ultraviolet-B radiation affect chlorophyll content and induce the accumulation of UV-B-absorbing and antioxidant compounds in bell pepper (Capsicum annuum) plants. Environmental and Experimental Botany, 139: 143-51.
Li, J., P. Yang, Y. Gan, J. Yu and J. Xie. 2015. Brassinosteroid alleviates chilling-induced oxidative stress in pepper by enhancing antioxidation systems and maintenance of photosystem II. Acta Physiologiae Plantarum, 37: 1-11.
Li, X.-G., X.-M. Wang, Q.-W. Meng and Q. Zou. 2004. Factors limiting photosynthetic recovery in sweet pepper leaves after short-term chilling stress under low irradiance. Photosynthetica, 42: 257-62.
Liu, P., Q.-w. Meng, Q. Zou, S.-j. Zhao and Q.-z. Liu. 2001. Effects of cold-hardening on chilling-induced photoinhibition of photosynthesis and on xanthophyll cycle pigments in sweet pepper. Photosynthetica, 39: 467-72.
Mateos, R. M., A. Jiménez, P. Román, F. Romojaro, S. Bacarizo, M. Leterrier, M. Gómez, F. Sevilla, L. A. Del Río and F. J. Corpas. 2013. Antioxidant systems from pepper (Capsicum annuum L.): Involvement in the response to temperature changes in ripe fruits. International Journal of Molecular Sciences, 14: 9556-80.
Mostafa, M. R., S. S. Mervat, R. E.-L. Safaa, M. A. E. Ebtihal and T. A. Magdi. 2015. Exogenous α-tocopherol has a beneficial effect on Glycine max (L.) plants irrigated with diluted sea water. The Journal of Horticultural Science and Biotechnology, 90: 195-202.
Munné-Bosch, S. 2005. The role of α-tocopherol in plant stress tolerance. Journal of plant physiology, 162: 743-48.
Oertli, J. 1987. Exogenous application of vitamins as regulators for growth and development of plants-A review. Zeitschrift für Pflanzenernährung und Bodenkunde, 150: 375-91.
Orabi, S. A. and M. T. Abdelhamid. 2016. Protective role of α-tocopherol on two Vicia faba cultivars against seawater-induced lipid peroxidation by enhancing capacity of anti-oxidative system. Journal of the Saudi Society of Agricultural Sciences, 15: 145-54.
Pyshnaya, O., M. Mamedov, E. Belavkin, E. Kozar, E. Dzhos and A. Matyukina. 2016. Resistance of sweet pepper genotypes to abiotic stresses in grpwing conditions of low-capacity hydroponics. Agricultural biology, 51: 100-10.
Qureshi, H., S. S. Hamid, S. S. Ali, J. Anwar, A. A. Siddiqui and N. A. Khan. 2015. Cytotoxic effects of aflatoxin B1 on human brain microvascular endothelial cells of the blood-brain barrier. Medical mycology, 53: 409-16.
Sadak, M. S. 2014. Role of ascorbic acid and α tocopherol in alleviating salinity stress on flax plant (Linum usitatissimum L.). Journal of Stress Physiology & Biochemistry, 10: 93-101.
Sadiq, M., N. A. AKRAM and M. Ashraf. 2017. Foliar applications of alpha-tocopherol improves the composition of fresh pods of Vigna radiata subjected to water deficiency. Turkish Journal of Botany, 41: 244-52.
Sadiq, M., N. A. Akram and M. T. Javed. 2016. Alpha-tocopherol alters endogenous oxidative defense system in mung bean plants under water-deficit conditions. Pakistan journal of Botany, 48: 2177-82.
Semida, W., R. Taha, M. Abdelhamid and M. Rady. 2014. Foliar-applied α-tocopherol enhances salt-tolerance in Vicia faba L. plants grown under saline conditions. South African Journal of Botany, 95: 24-31.
Senaratna, T., C. E. Mackay, B. D. McKersie and R. Fletcher. 1988. Uniconazole-induced chilling tolerance in tomato and its relationship to antioxidant content. Journal of plant physiology, 133: 56-61.
Seydpour, F. and M. Sayyari. 2016. Chilling injury in cucumber seedlings amelioration by methyl salicylate. International Journal of Vegetable Science, 22: 432-41.
Shah, H., Y. Tahira, M. Fahim, S. Hameed and M. Haque. 2009. Prevalence, occurrence and distribution of Chili veinal mottle virus in Pakistan. Pakistan journal of Botany, 41: 955-65.
Shaked, R., K. Rosenfeld and E. Pressman. 2004. The effect of low night temperatures on carbohydrates metabolism in developing pollen grains of pepper in relation to their number and functioning. Scientia Horticulturae, 102: 29-36.
Shrestha, R. B., W.-C. Huang and R. Ghimire. 2014. Production efficiency of smallholder vegetable farms in Ilam district, Eastern Hill, Nepal. American-Eurasian Journal of Agricultural and Environmental Sciences, 14: 150-54.
Szarka, A., B. Tomasskovics and G. Bánhegyi. 2012. The ascorbate-glutathione-α-tocopherol triad in abiotic stress response. International Journal of Molecular Sciences, 13: 4458-83.
Velikova, V., I. Yordanov and A. Edreva. 2000. Oxidative stress and some antioxidant systems in acid rain-treated bean plants: Protective role of exogenous polyamines. Plant science, 151: 59-66.
Wang, W., B. Vinocur and A. Altman. 2003. Plant responses to drought, salinity and extreme temperatures towards genetic engineering for stress tolerance. Planta, 218: 1-14.
Wang, Y. and Y. Liu. 2010. Progress in plant autophagy. China Journal of Cell Biology, 32: 677-89.
Wei, W., N. Smith, X. Wu, H. Kim, J. Seravalli, O. Khalimonchuk and J. Lee. 2014. YCF1-mediated cadmium resistance in yeast is dependent on copper metabolism and antioxidant enzymes. Antioxidants and Redox Signaling, 21: 1475-89.
Yang, H., F. Wu and J. Cheng. 2011. Reduced chilling injury in cucumber by nitric oxide and the antioxidant response. Food chemistry, 127: 1237-42.
Yemm, E., E. Cocking and R. Ricketts. 1955. The determination of amino-acids with ninhydrin. Analyst, 80: 209-14.
Zhai, Y., M. Guo, H. Wang, J. Lu, J. Liu, C. Zhang, Z. Gong and M. Lu. 2016. Autophagy, a conserved mechanism for protein degradation, responds to heat, and other abiotic stresses in Capsicum annuum L. Frontiers in plant science, 7: 131-46.
DOI: 10.33687/phytopath.010.03.3998
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