ÇÖREK OTUNUN BİLEŞENLERİ VE BU YAĞIN VE DİĞER BAZI UÇUCU YAĞLARIN ANTİOKSİDAN OLARAK GIDA TEKNOLOJİSİNDE KULLANIMI

Yıl 2014, Cilt: 11 Sayı: 2, 29 - 36, 01.06.2014

Selda Bulca

Öz

Günümüzde gıdalarda mikrobiyel, fiziksel ve kimyasal özellikleri korumak ve gıdanın yapısını, dış görünüşünü, tadını, kokusunu olumsuz yönde etkilemeyecek nitelikteki katkı maddelerinin kullanımına yönelik yoğun bir eğilim bulunmaktadır. Bugüne kadar yapılmış çalışmalarda gıdaların depolaması sürecinde oluşabilecek en önemli problemlerden biri olan oksidasyonu önlemek ve gıdaların raf ömrünü uzatmak için sentetik antioksidanlar kullanılmıştır. Son yıllarda sentetik antioksidanların toksikolojik ve kanserojenik özelliklerinin tespiti nedeniyle üretilen katkı maddelerinin gıdalara ilave edilmesinden kaçınılmaktadır. Bu nedenle gıdalara ilave edilecek antioksidanlarda aranan en önemli özellik doğal olması, sentetik olmamasıdır. Antioksidan kullanımında bir diğer kriter antioksidanların maliyetinin düşük olması tüketici tercihinde aranan önemli bir faktördür. Antioksidan etkiye sahip bitkilerden birisi de çörek otu esansiyel yağıdır. Bu yağın tıbbi özellikleri konusunda bazı çalışmalar yürütülmüş olmakla beraber, ne yazık ki bu bitkiden elde edilen ve antioksidan etkiyi sağlayan uçucu yağların gıdalarda kullanımı hakkında yeterli sayıda bilimsel çalışmalar yapılmamış ya da yapılan çalışmalarda elde edilen bulgular arasında çelişkili sonuçlar olduğu saptanmıştır. Bu derlemede, bugüne kadar çörek otu uçucu yağının gıdalarda antioksidan olarak kullanımı, antioksidan aktiviteye sahip maddelerin elde edilmesinde kullanılan farklı ekstraksiyon yöntemlerinin karşılaştırılması, çörek otu uçucu yağında bulunan fraksiyonların termal stabilitesi, sentetik ve doğal antioksidanların özellikleri vs. konusunda yapılmış çalışmaların sonuçları değerlendirilmiştir.

Anahtar Kelimeler

Çörek otu uçucu yağı, antioksidan aktivite, gıdalarda uygulanması, depolama

The Composition of Black Cumin and Use of Black Cumin and Other Essential Oils as Antioxidant in Food Technology

Öz

Nowadays, there is an intense trend on using of additive materials which do not effect odor, appearance and flavor
of the foods negatively for preserving microbiological, physical and chemical properties of the foods. In the
studies which has been carried out until today, synthetic antioxidants have been used to prevent oxidation which is
one of the important problems during storage and extending the shelf life. In the recent years, including of
synthetic additive materials in foods has been avoided due to toxicological and carcinogenic properties of the
synthetics. For this reason, the most important desired property for the antioxidants is that they should be natural
and should not be synthetic. One of another criteria on using of antioxidants is low cost and it is important factor
for consumer preference. One of the plants having antioxidant property is black cumin essential oil.
Although studies were carried out on medicinal properties of this essential oil, sufficient work has not been
performed on using essential oil which has been maintained from this plant and has provided this antioxidant
effect in the foods or it is determined that there is contradictory between the results.
In this review, the results of the studies on using of black cumin essential oil in foods, comparing of techniques
extractions used for maintaining material having antioxidant effects, thermal stabilities of fractions including in
black cumin essential oil, properties of natural and synthetic antioxidants were evaluated.

Anahtar Kelimeler

Black cumin essential oils, antioxidant activity, application in foods, storage

Kaynakça

• Ali BH, Blunden G (2003) Pharmacological and toxicological properties of Nigella sativa. Phytother Research, 17: 299-305
• Al-Jassir MS (1992) Chemical composition and microflora of black cumin (Nigella sativa L.) seeds growing in Saudi Arabia. Food Chemistry, 45: 239-242
• Anonim (2008) http://en.wikipedia.org/wiki/Antioxidant
• Bahloul N, Nourhene B, Kouhila M, Kechaou N (2009) Effect of Convective Solar Drying On Colour, Total Phenols and Radical Scavenging Activity of Olive Leaves (Olea Europaea L.). International Journal of Food Science and Techonology 44: 2561-2567
• Barreira JCM, Ferreira ICFR, Oliveira MBPP, Perira JA (2008) Antioxidant Activities of The Extracts from Chesnut Flower, Leaf Skins and Fruit. Food Chemistry, 107:1106-1113
• Baytop T (1984) Türkiye'de Bitkiler İle Tedavi. İ.Ü. Yayınları No:3255
• Benkaci-Ali F, Baaliouamer, A, Meklati BY, Chemat F (2007) Chemical composition of seed essential oils from Algerian Nigella sativa extracted by microwave and hydrodistillation. Flavour Frag. J. 22: 148-153
• Bouaziz M, Feki I, Ayadı M, Jemai H, Sayadı S (2010) Stability of Refined Olive Oil and Olive-Pomace Oil Added by Phenolic Compunds From Olive Leaves. Eur.J.Lipid Sci. Technol, 112:894-905
• Bouaziz M, Fki I, Jemai H, Ayadi M, Sayadi, S (2008) Effect of Storage on Refined and Husk Olive Oils Composition: Stabilization by Addition of Natural Antioxidants from Chemlali Olive Leaves, Food Chemistry 108: 253-262
• Bourgou S, Pichette A, Marzouk B, Legault J (2012) Antioxidant, Anti-Inflammatory, Anticancer and Antibacterial, activities of extracts from Nigella sativa (black cumin) plant parts. Journal of Food Biochemistry 36: 539–546
• Bourgou S, Pichette A, Marzouk B, Legault J (2010) Bioactivities of black cumin essential oil and its main terpenes from Tunisia. South African Journal of Botany 76: 210–216
• Burits M, Bucar F (2000) Antioxidant activity of Nigella Sativa essential oil. Phytotherapy Research 14: 323- 328
• Ceylan A. (1983) Tıbbi Bitkiler-II. Ege Üniversitesi Ziraat Fakültesi Yayını No:481, Bornova-İzmir
• Cheikh Rouhou S, Besbes S, Hentati B, Bleker C, Deroanne C, Attia H (2007) Nigella sativa L. Chemical composition and physicochemacal characteristics of lipid fraction. Food Chemistry 101: 673-681
• Çakmakçı S, Gündoğdu E, Dağdemir E, Erdoğan Ü (2014) Investigation of the Possible Use of Black Cumin (Nigella sativa L.) Essential Oil on Butter Stability. Kafkas Univ. Vet. Fak. Derg 20: 533-539
• D'Antuono LF, Moretti A, Lovato AFS, (2002) Seeed yield, yield components, oil content and essential oil content and composition of Nigella sativa, L., Nigella damescena, L. İnd. Crops Prod. 15: 59-69
• Dorman HJD, Deans SG (2000) Antimicrobial agents from plants: antibacterial activity of plant volatile oil. Journal of Applied Microbiology 88: 308-316
• El-Abed N, Kaabi B, Smaali MI, Chabbouh M, Habibi K, Mejri M, Nejib M, Ahmed SBH (2014) Chemical Composition, Antioxidant and Antimicrobial Activities of Thymus capitata Essential Oil with Its Preservative Effect against Listeria monocytogenes Inoculated in Minced Beef Meat. Evidence-Based Complementary and Alternative Medicine, 42:1-11
• Etherton PMK, Hecker KD, Bonanome A, Coval S.M, Binkoski AE, Hilpert KF, Griel AE, Etherton TD (2002) Biactive compounds in foods: their role in the prevention of cardiovascular disease and cancer. The American Journal of Medicine 113: 71-85
• Gencaslan G (2007) Türkiyede tıbbi amaçla kullanılan bazı bitkilerin antioksidan özelliklerinin taranması.'' Yüksek Lisans Tezi'' ( Ankara Üniversitesi)
• Ghosheh OA, Houdi AA, Crooks PA (1999) High performance liquid chromatography analysis of the pharmacologically active quinines and related compounds in the oil of the black seed (Nigella sativa). Journal of Pharmaceutical and Biomedical Analysis 19: 757–762
• Gordon, M., Pokorný, J., Yanishlieva, N., (2001). Antioxidants in food: practical applications. CRC, 380
• Gray JI, Gomaa EA, Buckley DJ (1996) Oxidative quality and shelf life of meats. Meat Science. 43, 111-123
• Hosseizadeh H, Parvardeh S (2004) Anticonvulsant effect of thymoquinone, the majör constituent of Nigella sativa seeds, in mice. Phytomedicine 11: 56-64
• Hur SJ, Ye BW, Lee JL, Ha YL, Park GB, Joo ST (2004) Effects of conjugated linoleic acid on color and lipid oxidation of beef patties during cold storage. Meat Science, 66 (4): 771-775
• Iverson F (1995) Phenolic antioxidants: health protection branch studies on butylated hydroxyanisole, Cancer Letters, vol. 93: 49–54
• Johnston JE, Sepe HA, Miano CL, Brannan R, Alderton AL (2005) Honey inhibits lipid oxidation in ready-to-eat ground beef patties. Meat Science, 70: 627-663
• Kar Y, Sen N, Tekeli Y ( 2007) Samsun yöresinde ve Mısır ülkesinde yetiştirilen çörekotu (Nigella sativa L.) tohumlarının antioksidan aktivite yönünden incelenmesi. Süleyman Demirel Üniv. Fen Edebiyat Fak. Fen Derg (E-Dergi) 2: 197-203
• Karagöz Z, Candoğan K (2007) Et teknolojisinde antimikrobiyal ambalajlama, Gıda, 32: 113-122
• Karatepe P, Patır B (2012) Eugenol ve Thymol'ün Pastörize Tereyağının Kimyasal, Mikrobiyolojik ve Duyusal Kalitesi Üzerine Etkisi. Fırat üniversitesi Sağlık Bilimleri Vet. Dergisi, 26: 35 – 46
• Kilic A (2008) Uçucu yağ elde etme yöntemleri. Bartın Orman Fakültesi Dergisi Yıl: 2008 Cilt:10 Sayı:13
• Kiralan M (2012) Volatile compounds of black cumin seeds (Nigella sativa L.) from microwave heating and conventional roasting. Journal of food science, 77: 481- 484
• Kiralan M (2014) Changes in volatile compounds of black cumin (Nigella sativa L.) seed oil during thermal oxidation. International Journal of Food Properties, 17: 1482-1489
• Kiralan M, Özkan G, Bayrak A, Ramadan MF (2014) Physicochemical properties and stability of (Nigella sativa) seed oil as affected by different extraction metods. Industrial Crops and Products, 57: 52-58
• Lutterodt H, Luther M, Slavin M, Yin JJ, Parry J, Gao JM, Yu LL (2010) Fatty acid profile, thymoquinone content, oxidative stability, and antioxidantproperties of cold- pressed black cumin seed oils. LWT-Food Sci. Technol. 43: 1409–1413
• Machmudah S, Shiramizu Y, Goto M, Sasaki M, Hirose T (2005) Extraction of Nigella sativa L. using supercritical CO2: A study of antioxidant activity of the extract. Separation Science and Technology 40: 1267- 1275
• Maghoub SA, Ramadan MF, El-Zahar KM (2013) Cold pressed Nigella Sativa, oil inhibits the growth of foodborne pathogens and improves the quality of of domiati cheese. Journal of Food Safety 33: 470–480
• Mishra PK, Shukla R, Singh P, Prakash B, Kedia A, Dubey NK (2012) Antifungal, anti-aflatoxigenic, and antioxidant efficacy of Jamrosa essential oil for preservation of herbal raw materials. International Biodeterioration & Biodegradation 74: 11-16
• Muhammad TS, Masood SB, Faqir MA, Amer J, Saeed A, Muhammad N (2009) Nutritional Profile of indigenous cultivar of black cumin seeds and antioxidant potentional of its fixed and essential oil. Pak. J. Bot. 41(3): 1321-1330
• Önenç SS, Açıkgöz Z. (2005) Aromatik bitkilerin hayvansal ürünlerde antioksidan etkileri. Hayvansal Üretim 46(1): 50-55
• Padhye S, Banerjee S, Ahmad A, Mohammad R, Sarkar FH (2008) From here to eternity the secret of Pharaohs: therapeutic potential of black cumin seeds and beyond. Cancer Ther, 6: 495-510
• Ramadan M, Mörsel JT (2004) Antiradical performance of some çömmen and nontraditional vegetable oils. İnform, 15: 553-555
• Ramadan MF (2007) Nutritional value, functional properties and nutraceutical applications of black cumin (Nigella sativa L.) oilseeds: an overview. Int. J. Food Sci. Technol. 42, 1208–1218
• Randhawa MA, Al-Ghamdi MS (2002) A review of the pharmaco-therapeutic effects of Nigella sativa. Pakistan Journal of Medicine Research, 41: 77-83
• Rooney S, Ryan MF (2005) Effects of alpha-hederin and thymoquinone, constituents of Nigella sativa, on human cancer cell lines. Anticancer Research 25, 2199–2204
• S a l e m M L ( 2 0 0 5 ) I m m u n o m o d u l a t o r y a n d immunotherapeutic properties of the Nigella sativa L. seed. Int. Imunopharmacol 5: 1749-1770
• Sallam KI, Samejima K (2004) Microbiological and chemical quality of ground beef treated with sodium lactate and sodium chloride during refrigerated storage, Lebensm.-Wiss. u.-Technol., 37, 865–871
• Sankarikutty B, Narayanan CS (1993). Essential Oils/Isolation and production.Encyclopaedia of Food Science, Food Technology and Nutrition (Academic Press): 2185-2189
• Shah S, Kasturi SR (2003) Study on antioxidant and antimicrobial properties of black cumin (Nigella sativa Linn). Journal Food Science Technology-Mysore 40: 70-73
• Singh G, Marimuthu P, Carola S, Heluani D, Catalan C (2005) Chemical constituents and antimicrobial and antioxidant potentials of essential oil and acetone extract of Nigella sativa seeds. J Sci Food Agric 85:2297-2306
• Suhaj M. (2006) Spices antioxidants isolation and their antiradical activity. Journal of Food Composition and Analysis 19: 531-537
• Sultan MT, Butt MS, Anjum FM, Jamil A, Akhtar S, Nasır M (2009) Nutritional profile of indigenous cultivar of Black cumin seeds and antioxidant potential of its fixed and essential oil. Pak J Bot 41: 1321-1330
• Tenore GC, Ciampaglia R, Arnold NA (2011) Antimicrobial and antioxidant properties of the essential oil of Salvia lanigera from Cyprus,” Food and Chemical Toxicology, vol. 49: 238–243
• Tomaino A, Cimino F, Zimbalatti V, Venuti V, Sulfaro V, De Pasquale A, Saija A (2005) Influence of heating on antioxidant activity and the chemical composition of some spice essential oils. Food Chemistry, 89: 549-554
• Tsimidou M, Boskou D (1994) Antioxidant activity of essential oils from plants of the Lamiaceae family. In Spices, Herbs and Edible Fungi, Vol. 34(G. Charalambous ed.) pp. 273-284, Elsevier Science B. V. Amsterdam
• Yanishleva NV, Marinova (2001) Stabilisation of Edible Oils with Natural Antioxidants, Eur. J. Lipid Sci. Technol. 103:752-767
• Young IS, Woodside JV (2001). Antioxidants in health and disease, Journal of Clinical Pathology, 54: 176-186.
• Zhang KY, Yan F, Keen CA, Waldroup PW (2005) Evaluation of microencapsulated essential oils and organic acids in diets for broiler chickens. International Journal of Poultry Science, 4 (9), 612-619 Sorumlu Yazar Selda BULCA
• seldabulca@hotmail.com
• Adnan Menderes Üniversitesi, Mühendislik Fakültesi,
• Gıda Mühendisliği Bölümü, Aydın, TÜRKİYE Geliş Tarihi Kabul Tarihi : 18.12.2014