Yenilebilir Bitki ve Tohum Filizlerinin Fonksiyonel Özellikleri

Hasan  Yetim; İsmet  Öztürk; Fatih  Törnük; Osman  Sağdıç; Mehmet  Hayta

Functional Properties of Edible Plant and Seed Sprouts (Turkish with English Abstract)

Year 2010, Volume: 35 Issue: 3, 205 - 210, 01.06.2010

Hasan Yetim İsmet Öztürk Fatih Törnük Osman Sağdıç Mehmet Hayta

Abstract

Edible sprouts are foods that are rich in functional compounds and obtained by germination some plants and seeds at a certain temperature and time. Sprouts, besides their nutritional properties, are regarded as functional foods because of their dietary fiber and vitamin contents which increase during germination and together with vitamins, minerals, flavonoids and phenolic compounds. The most widely consumed plants as sprouts around the world are broccoli, alfalfa, soybean, pea, chickpea, wheat, barley, oats and buckwheat. In this review, functional properties of some edible plant seeds and sprouts are discussed.

Keywords

Edible sprout, functional food, germination

References

1. Gray J, Armstrong G, Farley H. 2003. Opportunities and Constraints in the Functional Food Market. Nutr Food Sci, 33 (5): 213-218.
2. Williams M. Pehu E., Ragasa C. 2006. Functional Foods: Opportunities and Challenges for Developing Countries. Agricultural and Rural Development Notes, Issue 19, http://siteresources.worldbank.org/INTARD/Resources/ Note19_FunctionalFoods_web.pdf (Accessed 16 February 2009).
3. Anon 2007. International Food Information Council (IFIC) Foundation, Functional Foods. http://www.ific.org/ nutrition/functional/upload/functionalfoodsbackgrounder. pdf (Accessed 03 February 2009).
4. Anon 2003. CMPA, Reporting of Diet, Nutrition and Food Safety (1995-2003). Center for Media and Public Affairs, Washington, 33.
5. Anon 2004. Türk Gıda Kodeksi (TGK): Gıdaların Üretimi, Tüketimi ve Denetlenmesine Dair Kanun Hükmünde Kararnamenin Değiştirilerek Kabulü Hakkında Kanun, Kanun No 5179, 05 Haziran 2004 tarih ve 25483 sayılı Resmi Gazete, Ankara.
6. Sarkar S. 2007. Functional Foods as Self-Care and Complementary Medicine. Nutr Food Sci, 37 (3): 160-167.
7. Urbano G, López-Jurado M, Frejnagel SL, GómezVillalvaa E, Porres JM,Frías J, Vidal-Valverde C, Aranda P. 2005. Nutritional Assessment of Raw and Germinated Pea (Pisum sativum L.) Protein and Carbohydrate by in vitro and in vivo Techniques. Nutrition, 21: 230-239.
8. Yang F, 2000. Nutritional Evaluation of Germinated Wheat and Its Use in a Nutritional Bar, Thesis of Master of Science, Edmonton, Canada, 106 page. 9. Alexander JC, Gabriel HG, Reichertz JL. 1984. Nutritional Value of Germinated Barley. Can Inst Food Sci Technol, 17: 224-228.
10. Finney PL. 1985. Effect of Germination on Cereal and Legume Nutrients Changes and Food or Feed Value: Comprehensive Review. Recent Adv Phytochem, 17: 229-308.
11. Finley JW, Ip C, Lisk DJ, Davis CD, Hintze KJ, Whanger PD. 2001. Cancer Protective Properties of HighSelenium Broccoli. J Agric Food Chem, 49: 2679-2683.
12. Zhang Y, Munday R,Jobson HE, Munday CM, Lister C, Wilson P, Fahey JW, Mhawech-Fauceglia P. 2006. Induction of GST and NQO1 in Cultured Bladder Cells and in the Urinary Bladders of Rats by an Extract of Broccoli (Brassica oleracea ssp. italica) Sprouts. J Agric Food Chem, 54: 9370-9376.
13. West L, Tsui I, Balch B, Meyer K, Huth PJ. 2002. Determination and Health Implication of the Erucic Acid Content of Broccoli Florets, Sprouts, and Seeds. Food Chem and Toxicol, 67 (7): 2641-2643.
14. Ekici L, Sağdıç O. 2008. Serbest Radikaller ve Antioksidan Gıdalarla İnhibisyonu. GIDA 33 (5): 251-260.
15. Adarsh PV, Geetanjali R, Tarunpreet ST, Saroj A.2009. Bio-protective Effects of Glucosinolates: A review. LWT, Food Science and Technology, Article in press.
16. Tian Q, Rosselot RA, Schwartz SJ. 2005. Quantitative Determination of Intact Glucosinolates in Broccoli, Broccoli Sprouts, Brussels Sprouts, and Cauliflower by High-performance Liquid Chromatography–Electrospray Onization-Tandem Mass Spectrometry. Analytical Biochemistry, 343: 93-99.
17. Hsu CK, Chiang BH, Chen YS, Yang JH, Liu CL. 2008. Improving the Antioxidant Activity of Buckwheat (Fagopyrum tataricum Gaertn) Sprout with Trace Element Water. Food Chem, 108: 633-641.
18. Kim, LS, Kim KS, Park HC. 2004. Introduction and Nutritional Evaluation of Buckwheat Sprouts as a New Vegetable. Food Research International, 37: 319-327.
19. Kim SJ, Zaidul ISM, Suzuki T, Mukasa Y, Hashimoto N, Takigawa S, Noda T, Matsuura-Endo C, Yamauchi H. 2008. Comparison of Phenolic Compositions Between Common and Tartary Buckwheat (Fagopyrum) Sprouts. Food Chem, 110: 814-820.
20. Lintschinger J, Fuchs N, Moser H, Jager R, Hlebeina T, Markolin G, Gossler W. 1997. Uptake of Various Trace Elements During Germination of Wheat, Buckwheat and Quinoa. Plant Foods for Human Nutrition, 50: 223-237.
21. Kim SJ, Zaidul ISM, Maeda T, Suzuki T, Hashimoto N, Takigawa S, Noda T, Matsuura-Endo C, Yamauchi H, 2007. A Time-course Study of Flavonoids in the Sprouts of Tartary (Fagopyrum tataricum Gaertn.) Buckwheats, Scientia Horticulturae 115: 13–18.
22. Lin LY, Peng CC, Yang YL, Peng YR. 2008. Optimization of Bioactive Compounds in Buckwheat Sprouts and Their Effect on Blood Cholesterol in Hamsters. J Agric Food Chem, 56: 1216-1223.
23. Li D, Wu K, Howie AF, Beckett GJ, Wang W, Bao Y. 2008. Synergy Between Broccoli Sprout Extract and Selenium in Theupregulation of Thioredoxin Reductase in Human Hepatocytes. Food Chem, 110: 193-198.
24. Lee SJ, Ahn JK, Khanh TD, Chun SC, Kim SL, Ro HM, Song HK, Chung IM. 2007. Comparison of Isoflavone Concentrations in Soybean (Glycine max (L.) Merrill

Yenilebilir Bitki ve Tohum Filizlerinin Fonksiyonel Özellikleri

Year 2010, Volume: 35 Issue: 3, 205 - 210, 01.06.2010

Hasan Yetim İsmet Öztürk Fatih Törnük Osman Sağdıç Mehmet Hayta

Abstract

Yenilebilir filizler; bazı bitki ve tohumlarının belirli sıcaklık ve sürelerde çimlendirilmesi ile elde edilen ve fonksiyonel bileşenlerce zengin gıdalardır. Filizler, besinsel özellikleri yanında çimlendirilmeleri esnasında artış gösteren diyet lifi içeriği ve vitamin, mineral, flavonoidler ve fenolik bileşenler sayesinde önemli fonksiyonel gıdalar arasında değerlendirilmektedirler. Dünyada filiz olarak en fazla tüketilen bitkiler; brokoli, yonca, soya, bezelye, nohut, buğday, arpa, yulaf ve karabuğday gibi ürünlerdir. Bu derlemede, yenilebilir bazı bitki tohum ve filizlerinin çimlendirme sonucu kazanmış oldukları bazı fonksiyonel özellikleri değerlendirilmiştir.

Keywords

Yenilebilir filiz, fonksiyonel gıda, çimlendirme

References

1. Gray J, Armstrong G, Farley H. 2003. Opportunities and Constraints in the Functional Food Market. Nutr Food Sci, 33 (5): 213-218.
2. Williams M. Pehu E., Ragasa C. 2006. Functional Foods: Opportunities and Challenges for Developing Countries. Agricultural and Rural Development Notes, Issue 19, http://siteresources.worldbank.org/INTARD/Resources/ Note19_FunctionalFoods_web.pdf (Accessed 16 February 2009).
3. Anon 2007. International Food Information Council (IFIC) Foundation, Functional Foods. http://www.ific.org/ nutrition/functional/upload/functionalfoodsbackgrounder. pdf (Accessed 03 February 2009).
4. Anon 2003. CMPA, Reporting of Diet, Nutrition and Food Safety (1995-2003). Center for Media and Public Affairs, Washington, 33.
5. Anon 2004. Türk Gıda Kodeksi (TGK): Gıdaların Üretimi, Tüketimi ve Denetlenmesine Dair Kanun Hükmünde Kararnamenin Değiştirilerek Kabulü Hakkında Kanun, Kanun No 5179, 05 Haziran 2004 tarih ve 25483 sayılı Resmi Gazete, Ankara.
6. Sarkar S. 2007. Functional Foods as Self-Care and Complementary Medicine. Nutr Food Sci, 37 (3): 160-167.
7. Urbano G, López-Jurado M, Frejnagel SL, GómezVillalvaa E, Porres JM,Frías J, Vidal-Valverde C, Aranda P. 2005. Nutritional Assessment of Raw and Germinated Pea (Pisum sativum L.) Protein and Carbohydrate by in vitro and in vivo Techniques. Nutrition, 21: 230-239.
8. Yang F, 2000. Nutritional Evaluation of Germinated Wheat and Its Use in a Nutritional Bar, Thesis of Master of Science, Edmonton, Canada, 106 page. 9. Alexander JC, Gabriel HG, Reichertz JL. 1984. Nutritional Value of Germinated Barley. Can Inst Food Sci Technol, 17: 224-228.
10. Finney PL. 1985. Effect of Germination on Cereal and Legume Nutrients Changes and Food or Feed Value: Comprehensive Review. Recent Adv Phytochem, 17: 229-308.
11. Finley JW, Ip C, Lisk DJ, Davis CD, Hintze KJ, Whanger PD. 2001. Cancer Protective Properties of HighSelenium Broccoli. J Agric Food Chem, 49: 2679-2683.
12. Zhang Y, Munday R,Jobson HE, Munday CM, Lister C, Wilson P, Fahey JW, Mhawech-Fauceglia P. 2006. Induction of GST and NQO1 in Cultured Bladder Cells and in the Urinary Bladders of Rats by an Extract of Broccoli (Brassica oleracea ssp. italica) Sprouts. J Agric Food Chem, 54: 9370-9376.
13. West L, Tsui I, Balch B, Meyer K, Huth PJ. 2002. Determination and Health Implication of the Erucic Acid Content of Broccoli Florets, Sprouts, and Seeds. Food Chem and Toxicol, 67 (7): 2641-2643.
14. Ekici L, Sağdıç O. 2008. Serbest Radikaller ve Antioksidan Gıdalarla İnhibisyonu. GIDA 33 (5): 251-260.
15. Adarsh PV, Geetanjali R, Tarunpreet ST, Saroj A.2009. Bio-protective Effects of Glucosinolates: A review. LWT, Food Science and Technology, Article in press.
16. Tian Q, Rosselot RA, Schwartz SJ. 2005. Quantitative Determination of Intact Glucosinolates in Broccoli, Broccoli Sprouts, Brussels Sprouts, and Cauliflower by High-performance Liquid Chromatography–Electrospray Onization-Tandem Mass Spectrometry. Analytical Biochemistry, 343: 93-99.
17. Hsu CK, Chiang BH, Chen YS, Yang JH, Liu CL. 2008. Improving the Antioxidant Activity of Buckwheat (Fagopyrum tataricum Gaertn) Sprout with Trace Element Water. Food Chem, 108: 633-641.
18. Kim, LS, Kim KS, Park HC. 2004. Introduction and Nutritional Evaluation of Buckwheat Sprouts as a New Vegetable. Food Research International, 37: 319-327.
19. Kim SJ, Zaidul ISM, Suzuki T, Mukasa Y, Hashimoto N, Takigawa S, Noda T, Matsuura-Endo C, Yamauchi H. 2008. Comparison of Phenolic Compositions Between Common and Tartary Buckwheat (Fagopyrum) Sprouts. Food Chem, 110: 814-820.
20. Lintschinger J, Fuchs N, Moser H, Jager R, Hlebeina T, Markolin G, Gossler W. 1997. Uptake of Various Trace Elements During Germination of Wheat, Buckwheat and Quinoa. Plant Foods for Human Nutrition, 50: 223-237.
21. Kim SJ, Zaidul ISM, Maeda T, Suzuki T, Hashimoto N, Takigawa S, Noda T, Matsuura-Endo C, Yamauchi H, 2007. A Time-course Study of Flavonoids in the Sprouts of Tartary (Fagopyrum tataricum Gaertn.) Buckwheats, Scientia Horticulturae 115: 13–18.
22. Lin LY, Peng CC, Yang YL, Peng YR. 2008. Optimization of Bioactive Compounds in Buckwheat Sprouts and Their Effect on Blood Cholesterol in Hamsters. J Agric Food Chem, 56: 1216-1223.
23. Li D, Wu K, Howie AF, Beckett GJ, Wang W, Bao Y. 2008. Synergy Between Broccoli Sprout Extract and Selenium in Theupregulation of Thioredoxin Reductase in Human Hepatocytes. Food Chem, 110: 193-198.
24. Lee SJ, Ahn JK, Khanh TD, Chun SC, Kim SL, Ro HM, Song HK, Chung IM. 2007. Comparison of Isoflavone Concentrations in Soybean (Glycine max (L.) Merrill

There are 23 citations in total.

Details

Primary Language	Turkish
Journal Section	Articles
Authors	Hasan Yetim This is me İsmet Öztürk This is me Fatih Törnük This is me Osman Sağdıç This is me Mehmet Hayta This is me
Publication Date	June 1, 2010
Published in Issue	Year 2010 Volume: 35 Issue: 3

Cite

APA	Yetim, H. ., Öztürk, İ. ., Törnük, F. ., Sağdıç, O. ., et al. (2010). Yenilebilir Bitki ve Tohum Filizlerinin Fonksiyonel Özellikleri. Gıda, 35(3), 205-210.
AMA	Yetim H, Öztürk İ, Törnük F, Sağdıç O, Hayta M. Yenilebilir Bitki ve Tohum Filizlerinin Fonksiyonel Özellikleri. The Journal of Food. June 2010;35(3):205-210.
Chicago	Yetim, Hasan, İsmet Öztürk, Fatih Törnük, Osman Sağdıç, and Mehmet Hayta. “Yenilebilir Bitki Ve Tohum Filizlerinin Fonksiyonel Özellikleri”. Gıda 35, no. 3 (June 2010): 205-10.
EndNote	Yetim H, Öztürk İ, Törnük F, Sağdıç O, Hayta M (June 1, 2010) Yenilebilir Bitki ve Tohum Filizlerinin Fonksiyonel Özellikleri. Gıda 35 3 205–210.
IEEE	H. . Yetim, İ. . Öztürk, F. . Törnük, O. . Sağdıç, and M. . Hayta, “Yenilebilir Bitki ve Tohum Filizlerinin Fonksiyonel Özellikleri”, The Journal of Food, vol. 35, no. 3, pp. 205–210, 2010.
ISNAD	Yetim, Hasan et al. “Yenilebilir Bitki Ve Tohum Filizlerinin Fonksiyonel Özellikleri”. Gıda 35/3 (June 2010), 205-210.
JAMA	Yetim H, Öztürk İ, Törnük F, Sağdıç O, Hayta M. Yenilebilir Bitki ve Tohum Filizlerinin Fonksiyonel Özellikleri. The Journal of Food. 2010;35:205–210.
MLA	Yetim, Hasan et al. “Yenilebilir Bitki Ve Tohum Filizlerinin Fonksiyonel Özellikleri”. Gıda, vol. 35, no. 3, 2010, pp. 205-10.
Vancouver	Yetim H, Öztürk İ, Törnük F, Sağdıç O, Hayta M. Yenilebilir Bitki ve Tohum Filizlerinin Fonksiyonel Özellikleri. The Journal of Food. 2010;35(3):205-10.

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