THE DIFFERENCE IN LYCOPENE AND β-CAROTENE CONTENT IN „CITRUS PARADISI“ FRUIT AND „ROSA CANINA“ DRIED FRUIT

AUTHOR(S) / AUTOR(I): Vojkan Miljković, Ivana Gajić, Jelena Mrmošanin, Milica Nešić

E-MAIL: vojkan@tf.ni.ac.rs

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DOI: 10.46793/SBT28.485M

ABSTRACT / SAŽETAK:

Citrus paradisi fruit and Rosa canina dried fruit are rich sources of vitamin C. The aim of this work was to highlight their content of lycopene and β-carotene in order to contribute to their chemical profile. For that purpose the conventional extraction method was applied with solvent mixture consisting of 250 ml hexane, 125 ml of acetone, 125 ml of ethanol (2:1:1, v/v/v), and 0.05 % (w/v) butylated hydroxytoluene (BHT). UV-Vis spectrophotometric method was performed and for final calculation of concentrations was used Lambert-Beer’s law. Obtained results for content of lycopene and β-carotene in Citrus paradisi fruit and Rosa canina dried fruit are 2.27 and 2.34, that is 2.28 and 7.25 mg per 100 g/fruit weight (FW), respectively. The obtained results are recommending these two nutrients in everyday diet.

KEYWORDS / KLJUČNE REČI:

Citrus paradisi, Rosa canina, lycopene, β-carotene first

REFERENCES / LITERATURA:

• Chai J.T., Ding Z.H. (1995) Nutrients composition of Rosa laevigata fruits. Science and Technology of Food Industry. 3: 26-29.
• Clinton S.K. (2009). Lycopene: Chemistry, biology, and implications for human health and disease. Nutrition Reviews. 56(2): 35-51.
• Daood H.G., Bencze G., Palota G., Pek Z., Sidikov A., Helyes L. (2014) HPLC analysis of carotenoids from tomatoes using cross-linked C18 column and MS detection. Journal of Chromatographic Science. 52: 985-991.
• Du H., Fuh R.-C.A., Li J., Corkan L. A., Lindsey J.S. (1998). PhotochemCAD: A computer-aided design and research tool in photochemistry. Photochemistry and Photobiology. 68(2): 141-142.
• Fan C., Pacier C., Martirosyan D. M. (2014) Rosehip (Rosa canina L.): A functional food perspective Functional Foods in Health and Disease. 4: 493-509.
• Harini R., Judia Harriet Sumathy, V. (2016) Extraction and application of lycopene from papaya. International Journal of Medicine and Pharmaceutical Research. 4: 293–296.
• Krinsky N.I., Russett M.D., Handelman G.J., Snodderly D.M. (1990). Structural and geometrical isomers of carotenoids in human plasma. The Journal of Nutrition. 120(12): 1654-1662.
• Miljković V., Nešić M., Gajić I., Urošević M., Mrmošanin J., Miljković M. (2021) Determination of content and antioxidant capacity of natural food colors E160A and E160D in ketchup. Facta Universitatis Series: Physics, Chemistry and Technology. 19(2): 91-98.
• Nilsson O. (1997) Rosa.  Published in Flora of Turkey and the East Aegean Islands, 4th edition. Davis P., (ed.), 106-128. H. Edinburgh: Edinburgh University Press.
• Okunowo W.O., Oyedeji O., Afolabi L.O., Matanmi E. (2013) Essential oil of grape fruit (Citrus paradisi) peels and its antimicrobial activities. American Journal of Plant Sciences. 4: 1-9.
• Perkins-Veazie P., Collins J.K., Pair S.D., Roberts W. (2001). Lycopene content differs among red-fleshed watermelon cultivars. Journal of the Science of Food and Agriculture. 81(10): 983–987.
• Ravelo-Perez L.M., Hernandez-Borges J., Rodriguez-Delgado M.A., Borges-Miquel T. (2008) Spectrophotometric analysis of lycopene in tomatoes and watermelons: A practical class. Journal of Chemical Education. 13: 11-13.
• Rodrigues-Aamaya D.B., Kimura M. (2004) Handbook for Carotenoid Analisys, HarvestiPlus Technical Monograph Series 2, 63. Washington, DC USA: HarvestiPlus.
• Roman I., Stanila A., Stanila S. (2013) Bioactive compounds and antioxidative activity of Rosa canina L. biotypes from spontaneous flora of Transylvania. Chemistry Central Journal. 7:73.
• Sadler G., Davis J., Dezman D. (1990). Rapid extraction of lycopene and β-carotene from reconstituted tomato paste and pink grapefruit homogenates. Journal of Food Science. 55(5): 1460-1461.
• Schieber A., Stintzing F., Carle R. (2001) By-Products of plant food processing as a source of functional compounds—recent developments. Trends in Food Science & Technology. 12(11): 401-413.
• Shi Z., Li T., Liu Y., Cai T., Yao W., Jiang J., He Y., Shan L. (2020) Hepatoprotective and anti-oxidative effects of total flavonoids from Qu Zhi Qiao (fruit of citrus paradisi cv.Changshanhuyou) on nonalcoholic steatohepatitis In Vivo and In Vitro through Nrf2-ARE signaling pathway. Frontiers in Pharmacology. 11: 483
• Tutin T. G., Heywood V. H., Burges N. A., Moore D. M., Valentine D. H., Valters S. M. and Webb D. A. (1992) Flora Europaea. Published in Rosaceae to Umbelliferae (vol 2), 469. Cambridge (UK) University Press.
• Zechmeister, L., LeRosen A.L., Schroeder W.A., Polgar A. (1943) Spectral characteristics and configuration of some stereoisomeric carotenoids including prolycopene and pro-γ-carotene. Journal of the American Chemical Society. 65(10): 1522-1528.
• Ziegler S.J., Meier B., Sticker O. (1986) Fast and selective assay of L-ascorbic in rose hips by RP-HPLC coupled with electrochemical and/or spectrophotometric detection. Planta Medica. 5: 383-387.