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Special Issue

Postharvest Treatments of Arginine, Asparagine, and Glycine Reduce Chilling Injury and Improve Okra Pod Quality

Document Type : Research paper

Authors

1 Department of Horticultural Science, Faculty of Agriculture, Ilam University, Ilam, Iran

2 Department of Horticultural Science, Faculty of Agriculture, Ilam University, Ilam, Iran.

3 Dept. of Horticultural Sciences, College of Agriculture, Ilam University, P. Box: 69315-516 Ilam, Iran

10.22059/ijhst.2022.341782.557

Abstract

Okra (Abelmoschus esculentus L.) belongs to the Malvaceae family and is sensitive to chilling injury. To evaluate the effect of amino acids on preventing okra pods from chilling injury and maintaining their quality during storage, an experiment was performed to evaluate the possible role of amino acids in maintaining okra quality during cold storage. In this regard, okra pods were dipped for 10 min in distilled water (as control) and four solutions containing 2mM arginine, asparagine, or glycine individually as well as a combination of the aforementioned amino acids. The samples were then stored at 4°C for 14 days. Results showed that glycine and asparagine individually reduced the rate of pods’ weight loss by as much as 43% and 37%, respectively. Moreover, pretreatment of okra with amino acids, particularly glycine, remarkably diminished chilling disorders because of their roles in inducing antioxidant activity and declining lipid peroxidation in the pods. Results also revealed that pretreatment of okra with amino acids significantly mitigated polyphenol oxidase activity, and this could delay the appearance of pods’ browning lesions during cold storage. In conclusion, the results suggest that pretreatment of okra pods with amino acids, especially glycine, could reduce biochemical changes that occurred in pods due to chilling in cold storage.

Keywords

References
Babalar M, Pirzad F, Sarcheshmeh MAA, Talaei A, Lessani H. 2018. Arginine treatment attenuates chilling injury of pomegranate fruit during cold storage by enhancing antioxidant system activity. Postharvest Biology and Technology 137, 31- 37.
Bhattacharya A, Sood P, Citovsky V. 2010. The roles of plant phenolics in defense and communication during Agrobacterium and Rhizobium infection. Molecular Plant Pathology 11(5), 705-719.
Blokhina O, Virolainen E, Fagerstedt KV. 2003. Antioxidants, oxidative damage and oxygen deprivation stress: a review. Annals of Botany 91(2), 179-194.
Brand-Williams W, Cuvelier ME, Berset C. 1995. Use of free radical methods to evaluate antioxidant activity. Lebensmittel–Wissenschaft und Technologie 28, 25– 30.
Davey MW, Stals E, Panis B, Keulemans J, Swennen RL. 2005. High-throughput determination of malondialdehyde in plant tissues. Analytical Biochemistry 347(2), 201-207.
Finger FL, Della-Justina ME, Casali VWD, Puiatti M. 2008. Temperature and modified atmosphere affect the quality of okra. Scientia Agricola 65, 360–364.
Gemede HF, Haki GD, Beyene F, Woldegiorgis AZ, Rakshit SK. 2016. Proximate, mineral, and antinutrient compositions of indigenous Okra (Abelmoschus esculentus) pod accessions: implications for mineral bioavailability. Food Science & Nutrition 4(2), 223- 233.
Ghanbari F, Sayyari M. 2018. Controlled drought stress affects the chilling-hardening capacity of tomato seedlings as indicated by changes in phenol metabolisms, antioxidant enzyme activity, osmolytes concentration, and abscisic acid accumulation. Scientia Horticulturae 229, 167-174.
Heath RL, & Packer L. 1968. Photoperoxidation in isolated chloroplasts, I. kinetics and stoichiometry of fatty acid peroxidation. Archives of Biochemistry and Biophysics 125, 189-198.
Huang S, Li T, Jiang G, Xie W, Chang S, Jiang Y, Duan X. 2012. 1-Methylcyclopropene reduces chilling injury of harvested okra (Hibiscus esculentus L.) pods. Scientia Horticulturae 141, 42–46.
Kar M, Mishra D. 1976. Catalase, peroxidase, and polyphenoloxidase activities during rice leaf senescence. Plant Physiology 57, 315-319.
Lea PJ, Sodek L, Parry MA, Shewry PR, Halford NG. 2007. Asparagine in plants. Annals of Applied Biology 150(1), 1-26.
Li B, Ding Y, Tang X, Wang G, Wu S, Li X, Tang X. 2019a. Effect of l-Arginine on maintaining storage quality of the white button mushroom (Agaricus bisporus). Food and Bioprocess Technology 12(4), 563-574.
Li M, Zhi H, Dong Y. 2019b. Influence of preharvest and postharvest applications of glycine betaine on fruit quality attributes and storage disorders of ‘Lapins’ and ‘Regina’cherries. HortScience 54(9), 1540-1545.
Maalekuu K, Elkind Y, Leikin-Frenkel A, Lurie S, Fallik E. 2006. The relationship between water loss, lipid content, membrane integrity, and LOX activity in ripe pepper fruits after storage. Postharvest Biology and Technology 42(3), 248-255.
Meng D, Song T, Shen L, Zhang X, Sheng J. 2012. Postharvest application of methyl jasmonate for improving quality retention of Agaricus bisporus fruit bodies. Journal of Agricultural and Food Chemistry 60(23), 6056-6062.
Minatel IO, Borges CV, Ferreira MI, Gomez HAG, Chen CYO, Lima GPP. 2017. Phenolic compounds: Functional properties, the impact of processing, and bioavailability. Phenolic Compounds Biological Activity. Ed. InTech. Rijeka, Croatia, 1-24.
Mohammadipour N, Souri MK. 2019. Beneficial effects of glycine on growth and leaf nutrient concentrationsof coriander (Coriandrum sativum) plants. Journal of Plant Nutrition 42(14), 1637-1644.
Nasibi F, Yaghoobi MM, Manouchehri Kalantari KH. 2011. Effect of exogenous arginine on alleviation of oxidative damage in tomato plant under water stress. Journal of Plant Interactions 6, 291-296.
Pan Y, Zhang S, Yuan M, Song H, Wang T, Zhang W, Zhang Z. 2019. Effect of glycine betaine on chilling injury in relation to energy metabolism in papaya fruit during cold storage. Food Science & Nutrition 7(3), 1123-1130.
Phornvillay S, Pongprasert N, Wongs-Aree C, Uthairatanakij A, Srilaong V. 2019. Exogenous putrescine treatment delays chilling injury in okra pod (Abelmoschus esculentus) stored at low storage temperature. Scientia Horticulturae 256, 108550.
Plewa MJ, Smith SR, Wagner ED. 1991. Diethyldithiocarbamate suppresses the plant activation of aromatic amines into mutagens by inhibiting tobacco cell peroxidase. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 247(1), 57-64.
Queiroz C, da Silva AJR, Lopes MLM, Fialho E, ValenteMesquita VL. 2011. Polyphenol oxidase activity, phenolic acid composition, and browning in cashew apple (Anacardium occidentale, L.) after processing. Food Chemistry 125(1), 128-132.
Queiroz C, Mendes Lopes ML, Fialho E, ValenteMesquita VL. 2008. Polyphenol oxidase: characteristics and mechanisms of browning control. Food Reviews International 24, 361-375.
Rodríguez-Zapata LC, Gil FLE, Cruz-Martínez S, Talavera-May CR, Contreras-Marin F, Fuentes G, Santamaría JM. 2015. Preharvest foliar applications of glycine betaine protect banana fruits from chilling injury during the postharvest stage. Chemical and Biological Technologies in Agriculture 2(1), 8-22.
Singleton VL, Orthofer R, Lamuela-Raventos RM. 1999. Analysis of total phenols and other oxidation substrates and antioxidants by means of FolinCiocalteu reagent. Methods in Enzymology 299, 152- 178.
Teixeira WF, Fagan EB, Soares LH, Soares JN, Reichardt K, Neto DD. 2018. Seed and foliar application of amino acids improve variables of nitrogen metabolism and productivity in soybean crops. Frontiers in Plant Science 9, 396.
Wang Q, Ding T, Zuo J, Gao L, Fan L. 2016. Amelioration of postharvest chilling injury in sweet pepper by glycine betaine. Postharvest Biology and Technology 112, 114-120.
Wang X, Gu S, Chen B, Huang J, Xing J. 2017. Effect of postharvest l-arginine or cholesterol treatment on the quality of green asparagus (Asparagus officinalis L.) spears during low-temperature storage. Scientia Horticulturae 225, 788-794.
Zeid IM. 2009. Effect of arginine and urea on polyamines content and growth of bean under salinity stress. Acta Physiologiae Plantarum 31(1), 65-70.
Zhang X, Min D, Li F, Ji N, Meng D, Li L. 2017. Synergistic effects of l-arginine and methyl salicylate on alleviating postharvest disease caused by Botrysis cinerea in tomato fruit. Journal of Agricultural and Food Chemistry 65(24), 4890-4896.
Zhang X, Sheng J, Li F, Meng D, Shen L. 2012. Methyl jasmonate alters Arginine catabolism and improves postharvest chilling tolerance in cherry tomato fruit. Postharvest Biology and Technology 64(1), 160- 167.
International Journal of Horticultural Science and Technology
Volume 10, Issue 3
July 2023
Pages 351-360
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History
  • Receive Date: 08 May 2022
  • Revise Date: 28 August 2022
  • Accept Date: 18 September 2022
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