Effect of Food Processing and Storage on Carotenoids

Yıl 2012, Cilt: 10 Sayı: 2, 84 - 88, 01.06.2012

Seda Ersus Bilek Gülay Özkan

Öz

Carotenoids are responsible from the unique colour of fruits and vegetables ranging from pale yellow through bright orange to deep red. The effects of dietary carotenoids on human health, their provitamin A and antioxidant activity, stability and chemical changes during food processing and storage were outlined in this review. Because food carotenoids are highly unsaturated, they are susceptible to isomerization and oxidation during processing and storage. Because of these reactions, food products may lose their colour attributes at the end of processing and storage. More studies are needed to minimize undesired colour changes in food products during processing and storage

Anahtar Kelimeler

Carotenoids, Health, Food processing and storage

Gıda İşleme ve Depolamanın Karotenoidler Üzerine Etkisi

Öz

Meyve ve sebzelere sarıdan kırmızıya kadar değişik renk veren karotenoid grubu renk maddeleri hakkında genel bilgiler, sağlık üzerine etkileri, provitamin A etkinliği, antioksidan kapasiteleri, gıda işlenmesi, depolanması sırasında yapılarında meydana gelen değişimler ve stabiliteleri ile ilgili bilgiler bu çalışma kapsamında derlenmiştir. Çok sayıda çift bağ içeren yapılar nedeniyle karotenoidler kolaylıkla izomerizasyona veya oksidasyona uğrayabilmektedirler. Bu nedenle gıdalara verdikleri renk zamanla kayıplara uğramakta, gıda ürünlerinde istenmeyen bir durum olarak karşımıza çıkmaktadır. Buna bağlı olarak bu durumun önlenmesi ile ilgili araştırma sonuçları kaliteli gıda üretimi açısından oldukça önemlidir

Anahtar Kelimeler

Karotenoidler, Sağlık, Gıda işleme ve depolama

Kaynakça

• Oliver, J., Palou, A. 2000. Chromatographic determination of carotenoids in foods. Journal of Chromatography A 881: 543–555.
• Olson, J.A., 1994. Absoption, transport, and metabolism of carotenoids in humans. Pure and Applied Chemistry 66: 1011–1016.
• Rodriguez-Amaya, D.B., 2001. A guide to carotenoid http://www.ilsi.org/publications. 28.02.2005. in Erişim tarihi
• Rock, C.L., 1997. Carotenoids: biology and treatment. Pharmacology Ther. 75(3): 185-197.
• Chaudhry, Y., 2003. Carotenoids-Natural Food Colors and Health Benefits, Symposium 12, Interaction of Natural Colors with Other Ingredients 7(19): 1-11s.
• Haan, A.-De, Burke, RM., Bont, Jam-De, 1991. Microbial Mededelingen Landbovwwetenschappen Rijksuniversiteit Gent, 56(4b): 1655-1660s. of food de Faculteit van
• Vandamme, E.J., 1992. Production of vitamins, coenzymes biotechnological processes. Journal of Chemical Technical Biotechnology 53: 313-327s. biochemicals by
• Vandamme, E.J., 1993. Production of vitamins and related biofactors via microorganisms. Agro-Food Industry Hi Tech. 9/10: 29-31.
• Bloukas, J.G., Arvanitoyannis, I.S., Siopi, A.A., 1999. Effect of natural colourants and nitrites on colour attributes of frankfurtes. Meat Science 52: 257-265.
• Bağdatlıoğlu, N., Demirbüker, B., 1999. Gıda işlemede gelişmeler. Gıda 9: 48-51. meydana gelen
• Denizci, A., 1990. Phaffia rhodozyma NRRLY- 10921 Mayası ile Astaksantin Pigmentinin Üretimi ile İlgili Bir Araştırma. Ege Üniversitesi Fen Bilimleri Enstitüsü Yüksek Lisans Tezi, İzmir, 50s.
• Von Elbe, J.H. and Schwartz, S.J. 1996. Colorants. In “Food Chemistry”, O.R. Fennema (Ed). Chapter 10. pp: 651–722. Marcel Dekker Inc., New York.
• Parker, R.S. 1996. Absorption, metabolism, and transport of carotenoids. FASEB Journal 10: 542– 551.
• Britton, G. 1992. Carotenoids, In: Natural Food Colorants. Hendry, G.A.F. and Houghton, J.D. (eds), Blackie and Sons Ltd., pp. 141–182, New York.
• Anon, 1951. Methods of vitamin assay. The Association of Vitamin Chemists Inc. Interscience Publishers, 301 p., New York.
• Özkan, M., Cemeroğlu, B. 1997. Karotenoidler: özellikleri ve gıdalarda uygulanmaları. Gıda Teknolojisi 2(11): 34-42.
• Sharoni, Y., Danilenko, M., Walfisch, H.A., Amir, H., Nahum, A., Ben-Dor, A., Hirsch, K., Khanin, M., Steiner, M., Agemy, L., Zango, G., Levy, J., 2002. Role of gene regulation in the anticancer activity of carotenoids. Pure and Applied Chemistry 74: 1469– 1477.
• Basu H.N., Del Vecchio A.J., Flider F., Orthoefer F.T., 2001. Nutritional and potential disease prevention properties of carotenoids. Journel of the American Oil Chemistry Society 78: 665-667.
• Di Mascio, P., Murphy, M.E., Sies, H. 1991. Antioxidant defence system: the role of carotenoids, tocopherols and thiols. American Journal of Clinical Nutrition 53:194S-200S.
• Kopsell, A.D., Kopsell, D.E., 2006. Accumulation and bioavailability of dietary carotenoids in vegetable crops. Trends Plant Sci. 11: 499-507.
• Kontush, A., Spranger, T., Reich, A., Baum, K., Beisiegel, U., 1999. Lipophilic antioxidants in blood plasma as markers of atherosclerosis: the role of α- carotene and γ-tocopherol. Atherosclerosis 144: 117-122.
• Mozaffarieh, M., Sacu, S., Wedrich, A., 2003. The role of the carotenoids, lutein, zeaxanthin, in protecting degeneration: a review based on controversial evidence. Nutrition Journal 11: 20–28. macular
• Sommerburg, O., Keunen, J.E.E., Bird, A.C., van Kuijk, F.J.G.M., 1998. Fruits and vegetables that are sources for lutein and zeaxanthin: the macular pigment in human eyes. British Journal of Ophtalmology 82: 907–910.
• Krinsky, N.I., Johnson, E.J., 2005. Carotenoids actions and their relation to helath and diseas.Mol. Aspects Med. 26: 459-516.
• Gregory, J.F., 1996. Vitamins. In “Food Chemistry”, O.R. Fennema (Ed). Chapter 8. pp: 531–616. Marcel Dekker Inc., New York.
• Baysal, A., 1994. Karotenoidler: beslenme ve sağlık açısından önemi. Beslenme ve Diyet Dergisi 153- 159s.
• Paiva, S.A.R., Russell, R.M., 1999. β-Carotene and other carotenoids as antioxidants. Journal of the American College of Nutrition 18: 426–433.
• Miller, N.J., Sampson, J., Candeias, L.P., Bramley, P.M., Rice-Evans, C.A., 1996. Antioxidant activities of carotenes and xanthophylls. FEBS Letters, 384, 240–242.
• Simpson, K.L., 1985. Chemical changes in natural food pigments. In: Chemical changes in food during processing. Richardson, T. And Finley, J. W. (eds), pp.409-443., New York.
• Anguelova, T., Warthesen, L., 2000. Lycopene stability in tomato powders. J. Food Sci. 65; 67-70.
• Yemiş O., 2001. Yüksek Lisans Tezi, Ankara Üniversitesi, Fen Bilimleri Enstitüsü, Ankara.
• Lessin, W.J., Catigani, G.L., Schwartz, S.J., 1997. Quantification of cis-trans isomers of provitamin A carotenoids in fresh and processed fruits and vegetables J. Agric. and Food Chem. 45: 3728- 3732.
• Orak H. 1999. Doktora Tezi, Trakya Üniversitesi, Fen Bilimleri Enstitüsü, Tekirdağ.
• Su, O., Rowley, K., Balazs, N.D.H., 2002. Carotenoids: separation methods applicable to biological samples. Journal of Chromatography B 781: 393–418.
• Goula, A.M., Adamopoulos, K.G., Chatzitakis, P.C., Nikas, V.A., 2006. Prediction of lycopene degradation during a drying process of tomato pulp J.Food Engineering, 74:37–46.
• Çınar, İ., 2004. Carotenoid pigment loss of freeze- dried plant samples under different storage conditions. Lebensm.-Wiss.u.-Technol. 37: 363– 367.
• Topuz, A., Özdemir, F., 2003. Influences of γ- irradiation and storage on the carotenoids of sun- dried and dehydrated paprika. J. Agric. and Food Chem. 51: 4972–4977.
• Morais, H., Ramos, A.C., Cserhati, T., Forgacs, E., 2001. Effects of fluorescent light and vacuum packaging on the rate of decomposition of pigments in paprika (Capsicum annuum) powder determined by chromatography. J. Chromatography A 936: 139– 144. liquid
• Jaren-Galan, M., Minguez-Mosquera, M.I. 1999. Quantitative and qualitative changes associated with heat treatments in the carotenoid content of paprika oleoresins. J. Agric. and Food Chem. 47: 4379-4383.
• Miebach, M.E., Spiess, L.E.W., 2003. Influence of cold storage and blanching on the carotenoid content of Kintoki carrots. Journal of Food Engineering 56(2-3): 211-213.
• Patil, S.B., Vanamala, J., Hallman, G., 2004. Irradiation and storage influence on bioactive components and quality of early and late season ‘Rio Red’ grapefruit. Postharvest Biology and Technology 34(1): 53-64.
• Von Doering, W.E., Sotiriou-Leventis, C., Roth, W.R., 1995. Thermal interconversions among 15- cis, 13-cis and all-trans-β-carotene. J. Am. Chem. Soc. 117: 2747-2757.
• Lin, C.H., Chen, B.H., 2005. Stability of carotenoids in tomato juice during storage. Food Chem. 90: 837-846.
• Shi, J., Maguer, L.M., Kakuda, Y., Liptay, A. and Niekamp, F., 1999. Lycopene degradation and isomerization in tomato dehydration. Food Research International 32(1): 15-21.
• Rawson, A., Tiwari, B.K., Tuonhy, M.G., Donnell, C.P., Brunton, N., 2011. Effect of ultrasound and blanching pretreatments on polyacetylene and carotenoid content of hot air and freeze dried carrot discs. Ultrasonics Sonochemistry 18: 1172–1179.
• Fratianni, A., Cinquanta, L., Panfili, G., 2010. Degradation of carotenoids in orange juice during microwave heating. LWT - Food Science and Technology 43: 867–871.
• Serrano, I.O., Fortuny, R., Jover, T., Belloso, O., 2008. Carotenoid and phenolic profile of tomato juices processed by high intensity pulsed electric fields compared with conventional thermal treatments. Food Chemistry 112: 258–266.
• Aktas, E.T., Yıldız, H., 2011. Effects of electroplasmolysis treatment on chlorophyll and carotenoid extraction yield from spinach and tomato. Journal of Food Engineering 106: 339–346.