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International Journal of Food Properties Volume 19, 2016 - Issue 3
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Original Articles

Phytochemical Content, Antioxidant Properties, and Phenolic Profile of Tunisian Raisin Varieties (Vitis Vinifera L.)

Amira Bhouri MnariBiochemistry Laboratory, Research Laboratory LR12ES05: Lab-NAFS “Nutrition—Functional Food and Vascular Health”Faculty of Medicine—University of Monastir, TunisiaCorrespondence[email protected]
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,
Arij HarzallahBiochemistry Laboratory, Research Laboratory LR12ES05: Lab-NAFS “Nutrition—Functional Food and Vascular Health”Faculty of Medicine—University of Monastir, TunisiaView further author information
,
Zahra AmriBiochemistry Laboratory, Research Laboratory LR12ES05: Lab-NAFS “Nutrition—Functional Food and Vascular Health”Faculty of Medicine—University of Monastir, TunisiaView further author information
,
Samia Dhaou AguirBiochemistry Laboratory, Research Laboratory LR12ES05: Lab-NAFS “Nutrition—Functional Food and Vascular Health”Faculty of Medicine—University of Monastir, TunisiaView further author information
&
Mohamed HammamiBiochemistry Laboratory, Research Laboratory LR12ES05: Lab-NAFS “Nutrition—Functional Food and Vascular Health”Faculty of Medicine—University of Monastir, TunisiaView further author information
Pages 578-590 | Received 19 Nov 2014, Accepted 04 Apr 2015, Published online: 03 Dec 2015

REFERENCES

  • Velioglu, Y.S.; Mazza, G.; Gao, L.; Oomah, B.D. Antioxidant Activity and Total Phenolics in Selected Fruits, Vegetables, and Grain Products. Journal of Agricultural Food and Chemistry 1998, 46, 4113–4117.
  • Erkan, N.; Cetin, H.; Ayranci, E. Antioxidant Activities of Sideritis Congesta Davis Huber-Morath and Sideritis Arguta Boiss et Heldr: Identification of Free Flavonoids and Cinnamic Acid Derivatives. Food Research International 2011, 44, 297–303.
  • Devasagayam, T.P.A.; Tilak, J.C.; Boloor, K.K.; Sane, K.S.; Ghaskadbi, S.S.; Lele, R.D. Free Radicals and Antioxidants in Human Health: Current Status and Future Prospects. JAPI 2004, 52, 794–804.
  • Valentão, P.; Fernandes, E.; Carvalho, F.; Andrade, P.B.; Seabra, R.M.; Bastos, M.L. Antioxidative Properties of Cardoon (Cynara Cardunculus L.) Infusion Against Superoxide Radical, Hydroxyl Radical, and Hypochlorous Acid. Journal of Agricultural Food and Chemistry 2002, 50(17), 4989–4993.
  • Gems, D.; Partridge, L. Stress-Response Hormesis and Aging: “That Which Does Not Kill Us Makes Us Stronger.” Cell Metabolism 2008, 7(3), 200–203.
  • Singh, N.; Dhalla, A. K.; Seneviratne, C.; Singal, P.K. Oxidative Stress and Heart Failure. Molecular and Cellular Biochemistry 1995, 147, 77–81.
  • Valko, M.; Leibfritz, D.; Moncol, J.; Cronin, M.T.; Mazur, M.; Telser, J. Free Radicals and Antioxidants in Normal Physiological Functions and Human Disease. International Journal of Biochemistry and Cell Biology 2007, 39(1), 44–84.
  • Matés, J.M.; Sánchez-Jiménez, F.M. Role of Reactive Oxygen Species in Apoptosis: Implications for Cancer Therapy. International Journal of Biochemistry and Cell Biology 2000, 32(2), 157–170.
  • Karakaya, S.; El, S.; Tas, A. Antioxidant Activity of Some Foods Containing Phenolic Compounds. International Journal of Food Sciences and Nutrition 2001, 52, 501–508.
  • Rice-Evans, C.A.; Miller, J.M.; Paganga, G. Structure-Antioxidant Activity Relationship of Flavonoids and Phenolic Acids. Free Radical Biology Medical 1996, 20, 933–956.
  • Han, H.; Baik, B.K. Antioxidant Activity and Phenolic Content of Lentils (Lens Culinaris), Chickpeas (Cicer Arietinum L.), Peas (Pisum Sativum L.) and Soybeans (Glycine Max), and Their Quantitative Changes During Processing. International Journal of Food Science and Technology 2008, 43, 1971–1978.
  • Mariod, A.A.; Ibrahim, R.M.; Ismail, M.; Ismail, N. Antioxidant Activity and Phenolic Content of Phenolic Rich Fractions Obtained from Black Cumin (Nigella Sativa) Seedcake. Food Chemistry 2010, 116(1), 306–312.
  • Breska, A.P.; Takeoka, G.R.; Hidalgo, M.B.; Vilches, A.; Vasse, J.; Ramming, D.W. Antioxidant Activity and Phenolic Content of 16 Raisin Grape (Vitis Vinifera L.) Cultivars and Selections. Food Chemistry 2010, 121, 740–745.
  • Rivero-Cruz, J.F.; Zhu, M.; Kinghorn, A.D.; Wu, C.D. Antimicrobial Constituents of Thompson Seedless Raisins (Vitis Vinifera L.) Against Selected Oral Pathogens. Phytochemistry Letters 2008, 1, 151–154.
  • Marelli, M.; Menichini, F.; Statti, G.A.; Bonesi, M.; Duez, P.; Menichini, F.; et al. Changes in the Phenolic and Lipophilic Composition, in the Enzyme Inhibition and Antiproliferative Activity of Ficus Carica L. Cultivar Dottato Fruits During Maturation. Food and Chemical Toxicology 2012, 50, 726–733.
  • Sanz, M.L.; Del Castillo, M.D.; Corzo, N.; Olano, A. Formation of Amadori Compounds in Dehydrated Fruits. Journal of Agricultural and Food Chemistry 2001, 49, 5228–5231.
  • Williamson, G.; Carughi, A. Polyphenol Content and Health Benefits of Raisins. Nutrition Research 2010, 30, 511–519.
  • Moreno, J.J.; Cerpa-Calderón, F.; Cohen, S.D.; Fang, Y.; Qian, M.; Kennedy, J.A. Effect of Postharvest Dehydration on the Composition of Pinot Noir Grapes (Vitis Vinifera L.) and Wine. Food Chemistry 2008, 109, 755–762.
  • Ghrairia, F.; Lahouar, L.; El Arem, A.; Brahmi, F.; Ferchichi, A.; Achour, L.; Said, S. Physicochemical Composition of Different Varieties of Raisins (Vitis Vinifera L.) from Tunisia. Industrial Crops and Product 2012, 43, 73–77.
  • Ksouri, R.; Gharsalli, M.; Lachaal, M. Physiological Responses of Tunisian Grapevine Varieties to Bicarbonate-Induced Iron Deficiency. Journal of Plant Physiology 2005, 162, 335–341.
  • Bensalem-Fnayo, A.; Jellouli, N.; Bouamama, B.; Mliki, A.; Ghorbel, A. Investigations on the Leaf Surface Ultrastructure in Grapevine (Vitis Vinifera L.) by Scanning Microscopy. Scanning 2009, 31, 127–131.
  • Mansouri, S.; Khiari, R.; Bendouissa, N.; Saadallah, S.; Mhenni, F.; Mauret, E. Chemical Composition and Pulp Characterization of Tunisian Vine Stems. Industrial Crops and Product 2012, 36, 22–27.
  • Montedoro, G.F.; Servili, M.; Baldioli, M.; Miniati, E. Simple and Hydrolysablecompounds in Virgin Olive Oil. Their Extraction Separation and Quantitative and Semiquantitative Evaluation by HPLC. Journal of Agricultural and Food Chemistry 1992, 40, 1571–1576.
  • Zhishen, J.; Mengcheng, T.; Jianming, W. The Determination of Flavonoid Contents in Mulberry and Their Scavenging Effects on Superoxide Radicals. Food Chemistry 1999, 64, 555–559.
  • Julkunen-Titto, R. Phenolic Constituents in the Leaves of Northern Willows: Methods for the Analysis of Certain Phenolics. Journal of Agricultural and Food Chemistry 1985, 33, 213–217.
  • Talcott, S.T.; Howard, L.R. Phenolic Autoxidation is Responsible for Color Degradation in Processed Carrot Puree. Journal of Agricultural and Food Chemistry 1999, 47, 2109–2115.
  • Gross, J. Pigments in Vegetables: Chlorophylls and Carotenoids. Van Nostrand Reinhold: New York, NY, 1991.
  • Padmavati, M.; Sakthivel, N.; Thara, K.V.; Reddy, A.R. Differential Sensitivity of Rice Pathogens to Growth Inhibition by Flavonoids. Phytochemistry 1997, 46, 499–502.
  • Chung, Y.C.; Chen, S.J.; Hsu, C.K.; Chang, C.T.; Chou, S.T. Studies on the Antioxidative Activity of Graptopetalum Paraguayense E. Walther. Food Chemistry 2005, 91, 419–424.
  • Gould, K.S.; Markham, K.R.; Smith, R.H.; Goris, J.J. Functional Role of Anthocyanins in the Leaves of Quintinia Serrata A. Cunn. Journal of Experimental Botany 2000, 51, 1107–1115.
  • Giusti, M.M.: Wrolstad, R.E. Characterization and Measurement of Anthocyanins by UV–Visible Spectroscopy. In Current Protocols in Food Analytical Chemistry; Giusti, M.M.; Wrolstad, R.E.; Eds.; Wiley: New York, NY, 2000 ; F1.2.1–F1.2. 13.
  • Kontogiorgis, C.; Hadjipavlou-Litina, D. Synthesis and Anti-Inflammatory Activity of Coumarin Derivatives. Journal of Medical Chemistry 2005, 48, 6400.
  • Oyaizu, M. Studies on Product of Browning Reaction Prepared from Glucose Amine. Japanese Journal of Nutrition 1986, 44, 307–315.
  • Mishra, N.; Dubey, A.; Mishra, R.; Barik, N. Study on Antioxidant Activity of Common Dry Fruits. Food and Chemical Toxicology 2010, 48, 3316–3320.
  • Ouchemoukh, S.; Hachoud, S.; Boudraham, H.; Mokrani, A.; Louaileche, H. Antioxidant Activities of Some Dried Fruits Consumed in Algeria. LWT–Food Science and Technology 2012, 49, 329–332.
  • Zhao, B.; Hall, C.A., III Composition and Antioxidant Activity of Raisin Extracts Obtained from Various Solvents. Food Chemistry 2008, 108, 511–518.
  • Imeh, U.; Khokhar, S. Distribution of Conjugated and Free Phenols in Fruits: Antioxidant Activity and Cultivar Variations. Journal of Agricultural and Food Chemistry 2002, 50(2), 6301–6306.
  • Xu, C.M.; Zhang, Y.L.; Cao, L.; Lu, J. Phenolic Compounds and Antioxidant Properties of Different Grape Cultivars Grown in China. Food Chemistry 2010, 119, 1557–1565.
  • Karadeniz, F.; Durst, R.W.; Wrolstad, R.E. Polyphenolic Composition of Raisins. Journal of Agricultural and Food Chemistry 2000, 48, 5343–5350.
  • Chiou, A.; Karathanos, V.T.; Mylona, A.; Salta, F.N.; Preventi, F.; Andrikopoulos, N.K. Currants (Vitis Vinifera L.) Content of Simple Phenolics and Antioxidant Activity. Food Chemistry 2007, 102, 516–522.
  • Dhaouadi, K.; Raboudi, F.; Estevan, C.; Barrajon, E.; Vilanova, E.; Hamdaoui, M.; Fattouch, S. Cell Viability Effects and Antioxidant and Antimicrobial Activities of Tunisian Date Syrup (Rub El Tamer) Polyphenolic Extracts. Journal of Agricultural and Food Chemistry 2011, 59, 402−406.
  • Gruz, J.; Ayaz, F.A.; Torun, H.; Strnad, M. Phenolic Acid Content and Radical Scavenging Activity of Extracts from Medlar (Mespilus Germanica L.) Fruit at Different Stages of Ripening. Food Chemistry 2011, 124, 271−277.
  • Márquez, A.; Serratosa, M.P.; Lopez-Toledano, A.; Merida, J. Colour and Phenolic Compounds in Sweet Red Wines from Merlot and Tempranillo Grapes Chamber-Dried under Controlled Conditions. Food Chemistry 2012, 130(1), 111–120.
  • Serratosa, M.P.; Lopez-Toledano, A.; Medina, M.; Merida, J. Characterisation of the Colour Fraction of Pedro Ximenez Andalusian Sweet Wines. South African Society for Enology and Viticulture 2011, 32(1), 155–163.
  • Tsai, M.C.; Song, T.Y.; Shih, P.H.; Yen, G.C. Antioxidant Properties of Water Soluble Polysaccharides from Antrodia Cinnamomea in Submerged Culture. Food Chemistry 2007, 104, 1115–1122.
  • Burjonroppa, S.; Fujise, K. Resveratrol as Cardioprotective Agent: Evidence from Bench and Bedside. In Resveratrol in Health and Disease; Aggarwal, B.B.; Shishodia, S.; Eds.; CRC Press: London, 2006; 539–556.
  • Karadeniz, F.; Durst, R.W.; Wrolstad, R.E. Polyphenolic Composition of Raisins. Journal of Agricultural and Food Chemistry 2000, 48, 5343–5350.
  • Chiou, A.; Karathanos, V.T.; Mylona, A.; Salta, F.N.; Preventi, F.; Andrikopoulos, N.K. Currants (Vitis Vinifera L.) Content of Simple Phenolics and Antioxidant Activity. Food Chemistry 2007, 102, 516–522.
  • Kumaran, A.; Karunakaran, R.J. In Vitro Antioxidant Activities of Methanol Extracts of Five Phyllanthus Species from India. Lebensmittel-Wissenschaft und-Technologie 2007, 40, 344–352.
  • Oszmianski, J.; Wojdylo, A.; Lamer-Zarawska, E.; Swiader, K. Antioxidant Tannins from Rosaceae Plant Roots. Food Chemistry 2007, 100, 579–583.
  • Pin-Der, D. Antioxidant Activity of Budrock (Arctium Lappa Linn): Its Scavenging Effect on Free Radical and Active Oxygen. Journal of the American Oil Chemists’ Society 1998, 75, 455–461.
  • Jayaprakasha, G.K.; Singh, R.P.; Sakariah, K.K. Antioxidant Activity of Grape Seed (Vitis Vinifera L.) Extracts on Peroxidation Models in Vitro. Food Chemistry 2001, 73(3), 285–290.
  • Patthamakanokporn, O.; Puwastien, P.; Nitithamyong, A.; Prapaisri, P.; Sirichakwal, A. Changes of Antioxidant Activity and Total Phenolic Compounds During Storage of Selected Fruits. Journal of Food Composition and Analysis 2008, 21, 241–248.
  • Katalinic, V.; Mozina, S.S.; Generalic, I.; Skroza, D.; Ljubenkov, I.; Klancnik, A. Phenolic Profile, Antioxidant Capacity, and Antimicrobial Activity of Leaf Extracts from Six Vitis Vinifera L. Varieties. International Journal of Food Properties 2013, 16, 45–60.
  • Ghatak, A.A.; Chaturvedi, P.A.; Desaia, N.S. Indian Grape Wines: A Potential Source of Phenols, Polyphenols, and Antioxidants. International Journal of Food Properties 2014, 17, 818–828.
  • Pérez-Jiménez, J.; Arranz, S.; Tabernero, M.; Díaz-Rubio, M.E.; Serrno, J.; Goñi, I. Updated Methodology to Determine Antioxidant Capacity in Plant Foods, Oils, and Beverages: Extraction, Measurement, and Expression of Results. Food Research International 2008, 41, 274–285.

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