Effect of Sodium Nitroprusside on Ripening and Quality of “Nam Dok Mai Si Thong” Mango Fruits

Received: 01-07-2021

Accepted: 09-12-2021

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Issue: Vol. 20 No. 1 (2022)

Section:

KỸ THUẬT VÀ CÔNG NGHỆ

How to Cite:

Linh, T., & Quan, T. (2024). Effect of Sodium Nitroprusside on Ripening and Quality of “Nam Dok Mai Si Thong” Mango Fruits. Vietnam Journal of Agricultural Sciences, 20(1), 82–97. http://testtapchi.vnua.edu.vn/index.php/vjasvn/article/view/935

Effect of Sodium Nitroprusside on Ripening and Quality of “Nam Dok Mai Si Thong” Mango Fruits

Tran Thi Thuy Linh (*) 1 , Tran Hong Quan 1

  • 1 Khoa Khoa học Sinh học ứng dụng, Trường Đại học Sư phạm Kỹ thuật Vĩnh Long

    • Keywords

    Mangifera indicaL., sodium nitroprusside, fruit ripening, fruit quality

    Abstract


    Sodium nitroprusside (SNP) -a nitric oxide (NO) donor, was used in this research to delay the ripening and maintain the quality of postharvest mango fruits. Mango fruitscv. Nam Dok Mai Si Thong were dipped in SNP solution at 0.5mm or 1 mm for 10 minwhiledipping in water for 10 min served as the control. After treatment, all fruits were stored at ambient temperature (22C)until day 8thwhen the fruits of control treatment got fully ripe stage. The results showed thatSNP significantly reduced ethylene production and respiration rate in the fruits, maintained fruit firmnessanddelayed the changes in soluble solid content and titratable acidity. SNP also delayed color development of the fruit pulp. However, SNP had no effect on reducing weight loss. SNP treatment at 1mm was more effective to delaythe ripening processand maintain quality of postharvest mango fruits.

    References

    Aleryani S., Milo E. & Kostka P. (1999). Formation of peroxynitrite during thiol-mediated reduction of sodium nitroprusside, Biochimica et Biophysica Acta (BBA)-General Subjects. 1472: 181-190.

    Brecht J.K. & Yahia E.M. (2009). Postharvest Physiology - The Mango - 2nd Edition: Botany, Production and uses. CAB International. Chapter.14: 484.

    Cheng G., Yang E., Lu W., Jia Y., Jiang Y. & Duan X. (2009). Effect of nitric oxide on ethylene synthesis and softening of banana fruit slice during ripening. Journal of Agriculture and Food Chemistry.57: 5799-5804.

    Flores F., Sánchez - Bel P., Valdenegro M., Romojaro F., Martinez-Madrid M. & Egea M. (2008). Effects of a pretreatment with nitric oxide on peach (Prunus persicaL.) storage at room temperature. Journal of European Food Research and Technology.227: 1599-1611.

    Lai T., Wanga Y., Li B., Qina G. & Tiana S. (2011). Defense responses of tomato fruit to exogenous nitric oxide during postharvest storage. Journal of Postharvest Biology and Technology.62: 127-132.

    Li X., Wu B., Guo Q., Wang J., Zhang P. & Chen W. (2014). Effects of nitric oxide on postharvest quality and soluble sugar content in papaya fruit during ripening. Journal of Food Processing and Preservation.38: 591-599.

    Liu L., Dong Y. & Guan J. (2011). Effects of nitric oxide on the quality and pectin metabolism of Yali pears during cold storage. Journal of Agricultural Sciences in China.10(7): 1125-1133.

    Manjunatha G., Gupta K.J., Lokesh V., Mur A.L. & Bhagyalakshmi N. (2012). Nitric oxide counters ethylene effects on ripening fruits. Journal of Plant signaling & behavior.7(4): 476-483.

    Manjunatha G., Lokesh V. & Bhagyalakshmi N. (2010). Nitric oxide -induced enhancement of banana fruit attributes and keeping quality. Acta Horticulturae.2. 934: 799-806.http://www. actahort.org/ books/934/index.htm

    Sadegh A.S., Mostofi Y., Boojar M.M.A & Khalighi A. (2012). Effect of nitric oxide on ethylene biosynthesis and antioxidant enzymes on Iranian peach (Prunus persica cv. Anjiri). Journal of Food, Agriculture & Environment.10 (2): 125-129.

    Singh S.P., Singha Z. & Swinny E.E. (2009). Postharvest nitric oxide fumigation delays fruit ripening and alleviates chilling injury during cold storage of Japanese plums (Prunus salicina Lindell). Journal of Postharvest Biology and Technology.53: 101-108.

    Tierney D.L., Rocklin A.M., Lipscomb J.D., Que Jr. L. & Hoffman B.M. (2005). Studies of the ligation and structure of the non-heme iron site in ACC oxidase. Journal of American Chemistry and Society.127: 7005-7013.

    Tran Thi Thuy Linh, Jitareerat P., Aimla-or S., Srilaong V., Boonyaritthongchai P. & Uthairatanakij A. (2015). Applying of sodium nitroprusside (SNP) on postharvest “Nam Dok Mai No.4” mango fruits delay ripening and maintain quality. African Journal of Agriculture Research. 10(31): 3067-3072.

    Valero D. & Serrano M. (2010). Postharvest biology and technology for preserving fruit quality. CRC Press.p. 202.

    Yamaguchi K. & Hama H. (2003). A study on the mechanism by which sodium nitroprusside, a nitric oxide donor, applied to the anteroventral third ventricular region provokes facilitation of vasopressin secretion in conscious rats. Brain Research.968: 35-43.

    Yang E., Yang S.Y., Lu W.J., Chen J.Y., Qu H.X., Jiang Y., Joyce D.C. & Duan X.W. (2010). Effect of nitric oxide on the sensitivity of banana fruit slices to ethylene. Journal of Horticulture Science Biotechnology.85: 17-22.

    Zaharah S.S. & Singh Z.(2011a). Postharvest nitric oxide fumigation alleviates chilling injury, delays fruit ripening and maintains quality in cold stored “Kensington Pride” mango. Journal of Postharvest Biology and Technology.60: 202-210.

    Zaharah S.S. & Singh Z. (2011b). Mode of action of nitric oxide in inhibiting ethylene biosynthesis and fruit softening during ripening and cool storage of “Kensington Pride” mango. Journal of Postharvest Biology and Technology.62: 258-266.

    Zhang S.Y., Ren X.L. & Rao J.P. (2005). Effects of nitric oxide on active oxygen metabolism of postharvest tomato fruit. Acta Horticulturae.32: 818-822.

    Zhu S.H. & Zhou J. (2007). Effect of nitric oxide on ethylene production in strawberry fruit during storage. Journal of Food Chemistry. 100: 1517-1522.