Nutritional Content of Some Pseudocereals and Their Use in Food Industry

Yıl 2021, Sayı: 23, 89 - 98, 30.04.2021

Esra Dogu Baykut

https://doi.org/10.31590/ejosat.789955

Cited By: 1

Öz

Grain products have an important place in the nutrition of people all over the world and in our country. They are widely consumed for reasons such as being easily accessible, not degrading quickly and having high energy value. The protein called gluten, which is found especially in wheat and also rye, barley and oats, plays an important role in making bread and other bakery products. However, consuming gluten-containing foods can cause digestive problems and much more serious diseases in people with gluten allergy, celiac disease or gluten sensitivity. Also, in recent years, many people have made changes in their eating habits with the increase in studies indicating that consuming gluten-free foods increases the general health status. These reasons revealed the need for gluten-free grain-like products and directed researchers to conduct their research on the different uses of less used species that could be an alternative to grain. Buckwheat, amaranth and quinoa are frequently used grain alternatives in gluten-free product development in recent years. Although buckwheat, amaranth and quinoa are not members of Gramineae family, they have similar nutritional content and uses to cereal products. Because of their rich nutritional content and functional properties, these products are good alternatives not only for people with gluten allergy, celiac disease or gluten sensitivity but also for conscious consumers who want healthier foods. In this study, nutritional content and use of buckwheat, amaranth and quinoa in the food industry were examined.

Anahtar Kelimeler

Pseudocereals, Buckwheat, Amaranth, Quinoa, Nutritional content

Bazı Tahıl Benzeri Ürünlerin Besin İçeriği ve Gıda Endüstrisinde Kullanımı

Öz

Tahıl ürünleri tüm dünyada ve ülkemizde insanların beslenmesinde önemli bir yer tutmaktadır. Kolay ulaşılabilir ve depolanabilir olması, çabuk bozulmaması, yüksek enerji değeri olması ve uygun fiyatlı olması gibi sebeplerle tahıllar yaygın olarak tüketilmektedir. Başta buğday olmak üzere çavdar, arpa ve yulaf gibi tahılların içerdiği gluten adlı protein ekmek ve diğer unlu mamullerin yapımında önemli rol oynamaktadır. Fakat gluten allerjisi, çölyak hastalığı veya gluten hassasiyeti olan kişilerin gluten içeren besinler tüketmesi sindirim sorunları ve çok daha ciddi hastalıklara yol açabilmektedir. Ayrıca son yıllarda, gluten içermeyen gıdaların tüketilmesinin genel sağlık durumunu arttırdığını belirten çalışmaların da artması ile birçok insan beslenme alışkanlıklarında değişiklikler yapmıştır. Bu sebepler gluten içermeyen tahıl bazlı ürünlere olan ihtiyacı ortaya çıkarmış ve araştırmacıları tahıl alternatifi olabilecek az kullanılan türlerin farklı kullanımları ile ilgili araştırmalar yapmaya yöneltmiştir. Karabuğday, amarant ve kinoa son yıllarda glutensiz ürün geliştirilmesinde sıklıkla kullanılan tahıl alternatifleridir. Bu ürünler zengin besin içerikleri ve fonksiyonel özellikleri ile sadece gluten alerjisi, çölyak hastalığı veya gluten hassasiyeti olan kişiler için değil aynı zamanda sağlıklı beslenme bilincindeki tüketiciler için de katma değeri yüksek ürün üretiminde iyi birer alternatiftir. Bu derlemede son yıllarda sıklıkla tüketilen tahıl benzeri ürün olan karabuğday, amarant ve kinoanın besin içerikleri ve gıdalarda kullanım alanları incelenmiştir.

Anahtar Kelimeler

tahıl benzeri, besin bileşenleri, karabuğday, amarant, kinoa

Kaynakça

• Anderson, J. W. (2003). Whole grains protect against atherosclerotic cardiovascular disease. Proceedings of Nutrition Society, 62, 35-142.
• Aubrecht, E., & Biacs, P. A. (2001). Characterization of buckwheat grain proteins and its products. Acta Alimentaria, 30(1), 71-80.
• Ballabio, C., Uberti, F., Di Lorenzo, C., Brandolini, A., Penas, E., & Restani, P. (2011). Biochemical and immunochemical characterization of different varieties of amaranth (Amaranthus L. ssp.) as a safe ingredient for gluten-free products. Journal of Agricultural and Food Chemistry, 59(24), 12969-12974.
• Berghofer, E. & Schoenlechner, R. (2002). Grain amaranth. In P. S. Belton & J. R. N. Taylor (Eds.), Pseudocereals and Less Common Cereals (pp.219-253). Springer, Berlin, Heidelberg.
• Biacs, P., Aubrecht, E., Léder, I., & Lajos, J. (2002). Buckwheat. In P. S. Belton & J. R. N. Taylor (Eds.), Pseudocereals and Less Common Cereals (pp.123-147). Springer, Berlin, Heidelberg.
• Borneo, R., & León, A. E. (2012). Whole grain cereals: functional components and health benefits. Food & Function, 3(2), 110–119.
• Cai, Y. Z., Corke, H., Wang, D., & Li, W. D. (2016). Buckwheat: overview. In C. Wrigley, H. Corke, K. Seetharaman & J. Faubion (Eds.), Encyclopedia of Food Grains (pp.307-315). Elsevier, Oxford.
• Caperuto, L. C., Amaya‐Farfan, J., & Camargo, C. R. O. (2001). Performance of quinoa (Chenopodium quinoa Willd) flour in the manufacture of gluten‐free spaghetti. Journal of the Science of Food and Agriculture, 81(1), 95-101.
• Caselato‐Sousa, V. M., & Amaya‐Farfán, J. (2012). State of knowledge on amaranth grain: a comprehensive review. Journal of Food Science, 77(4), R93-R104.
• Chauhan, A., Saxena, D. C., & Singh, S. (2015). Total dietary fibre and antioxidant activity of gluten free cookies made from raw and germinated amaranth (Amaranthus spp.) flour. LWT-Food Science and Technology, 63(2), 939-945.
• Delcour, J. A., Joye, I. J., Pareyt, B., Wilderjans, E., Brijs, K., & Lagrain, B. (2012). Wheat gluten functionality as a quality determinant in cereal-based food products. Annual Review of Food Science and Technology, 3, 469-492.
• Demir. M. K. (2014). Use of quinoa flour in the production of gluten-free tarhana. Food Science and Technology Research, 20 (5), 1087-1092.
• Deželak, M., Zarnkow, M., Becker, T., & Košir, I. J. (2014). Processing of bottom‐fermented gluten‐free beer‐like beverages based on buckwheat and quinoa malt with chemical and sensory characterization. Journal of the Institute of Brewing, 120(4), 360-370.
• Elgeti, D., Nordlohne, S. D., Föste, M., Besl, M., Linden, M. H., Heinz, V., Jekle, M., & Becker, T. (2014). Volume and texture improvement of gluten-free bread using quinoa white flour. Journal of Cereal Science, 59(1), 41-47.
• FAOSTAT. (2020). Food Agriculture and Organization Online Database (Erişim adresi: http://www.fao.org/faostat/en/#data/QC. Erişim tarihi: 05.07.2020)
• Fardet, A. (2010). New hypotheses for the health-protective mechanisms of whole-grain cereals: What is beyond fibre?. Nutrition Research Reviews, 23, 65–134.
• Fasano, A., Sapone, A., Zevallos, V., & Schuppan, D. (2015). Nonceliac gluten sensitivity. Gastroenterology, 148(6), 1195–1204.
• Gelinas, B., & Seguin, P. (2007). Oxalate in grain amaranth. Journal of Agricultural and Food Chemistry, 55(12), 4789-4794.
• Giménez-Bastida, J. A., Piskuła, M., & Zieliński, H. (2015). Recent advances in development of gluten-free buckwheat products. Trends in Food Science & Technology, 44(1), 58-65.
• Gobbetti, M., Pontonio, E., Filannino, P., Rizzello, C. G., De Angelis, M., & Di Cagno, R. (2018). How to improve the gluten-free diet: The state of the art from a food science perspective. Food Research International, 110, 22–32.
• Hu, S. Y. (2005). Food Plants of China. Chinese University Press, p.370.
• Ikeda, K. (2002). Buckwheat composition, chemistry, and processing. Advances in Food and Nutrition Research, 44, 395–434.
• İnanır, C., Albayrak, S., & Ekici, L. (2019). Karabuğdayın fitokimyası, farmakolojisi ve biyofonksiyonel özellikleri. Avrupa Bilim ve Teknoloji Dergisi, (16), 713-722.
• James, L. E. A. (2009). Quinoa (Chenopodium quinoa Willd.): composition, chemistry, nutritional, and functional properties. Advances in Food and Nutrition Research, 58, 1-31.
• Jancurová, M., Minarovičová, L., & Dandar, A. (2009). Quinoa–a rewiev. Czech Journal of Food Sciences, 27(2), 71-79.
• Kaur, K. D., Jha, A., Sabikhi, L., & Singh, A. K. (2014). Significance of coarse cereals in health and nutrition: a review. Journal of Food Science and Technology, 51(8), 1429-1441.
• Kreft, I., Fabjan, N., & Yasumoto, K. (2006). Rutin content in buckwheat (Fagopyrum esculentum Moench) food materials and products. Food Chemistry, 98(3), 508-512.
• Maurya, N. K., & Arya, P. (2018). Amaranthus grain nutritional benefits: A review. Journal of Pharmacognosy and Phytochemistry, 7(2), 2258-2262.
• McKevith, B. (2004). Nutritional aspects of cereals. Nutrition Bulletin, 29, 111–142.
• Mlakar, S. G., Turinek, M., Jakop, M., Bavec, M., & Bavec, F. (2009). Nutrition value and use of grain amaranth: potential future application in bread making. Agricultura, 6(4), 43-53.
• Navruz-Varli, S., & Sanlier, N. (2016). Nutritional and health benefits of quinoa (Chenopodium quinoa Willd.). Journal of Cereal Science, 69, 371-376.
• Nowak, V., Du, J., & Charrondière, U. R. (2016). Assessment of the nutritional composition of quinoa (Chenopodium quinoa Willd.). Food Chemistry, 193, 47-54.
• Rastogi, A., Shukla, S. (2013). Amaranth: a new millennium cop of nutraceutical values. Critical Reviews in Food Science and Nutrition, 53: 109-125.
• Repo-Carrasco, R., Espinoza, C., & Jacobsen, S. E. (2003). Nutritional value and use of the Andean crops quinoa (Chenopodium quinoa) and kañiwa (Chenopodium pallidicaule). Food Reviews International, 19(1-2), 179-189.
• Rosell, C. M., Barro, F., Sousa, C., & Mena, M. C. (2014). Cereals for developing gluten-free products and analytical tools for gluten detection. Journal of Cereal Science, 59(3), 354-364.
• Schatzkin, A., Park, Y., Leitzmann, M. F., Hollenbeck, A. R., & Cross, A. J. (2008). Prospective study of dietary fiber, whole grain foods, and small intestinal cancer. Gastroenterology, 135(4), 1163–1167.
• Schoenlechner, R., Drausinger, J., Ottenschlaeger, V., Jurackova, K., & Berghofer, E. (2010). Functional properties of gluten-free pasta produced from amaranth, quinoa and buckwheat. Plant Foods for Human Nutrition, 65(4), 339-349.
• Steadman, K. J., Burgoon, M. S., Lewis, B. A., Edwardson, S. E., & Obendorf, R. L. (2001a). Buckwheat seed milling fractions: description, macronutrient composition and dietary fibre. Journal of Cereal Science, 33(3), 271-278.
• Steadman, K. J., Burgoon, M. S., Lewis, B. A., Edwardson, S. E., & Obendorf, R. L. (2001b). Minerals, phytic acid, tannin and rutin in buckwheat seed milling fractions. Journal of the Science of Food and Agriculture, 81(11), 1094-1100.
• Taylor, J. R. N. & Parker, M. L. (2002). Quinoa. In P. S. Belton & J. R. N. Taylor (Eds.), Pseudocereals and Less Common Cereals (pp.93-123). Springer, Berlin, Heidelberg.
• Torbica, A., Hadnađev, M., & Dapčević, T. (2010). Rheological, textural and sensory properties of gluten-free bread formulations based on rice and buckwheat flour. Food Hydrocolloids, 24(6-7), 626-632.
• Tosi, E. A., Ré, E., Lucero, H., & Masciarelli, R. (2001). Dietary fiber obtained from amaranth (Amaranthus cruentus) grain by differential milling. Food Chemistry, 73(4), 441-443.
• Tömösközi, S., & Langó, B. (2017). Buckwheat: Its Unique Nutritional and Health-Promoting Attributes. In J.R.N. Taylor & Joseph M. Awika (Eds.) Gluten-Free Ancient Grains (pp. 161-177). Woodhead Publishing.
• USDA. (2020). USDA National Nutrient Database for Standart Reference. (Erişim sdresi: https://fdc.nal.usda.gov/ Erişim tarihi 9.06.2020)
• Vici, G., Belli, L., Biondi, M., & Polzonetti, V. (2016). Gluten free diet and nutrient deficiencies: A review. Clinical Nutrition, 35(6), 1236–1241.
• Wijngaard, H., & Arendt, E. K. (2006). Buckwheat. Cereal Chemistry, 83(4), 391-401.
• Zuidmeer, L., Goldhahn, K., Rona, R. J., Gislason, D., Madsen, C., Summers, C., Sodergren, E., Dahlstrom, J., Lindner, T., Sigurdardottir, S.T., & McBride, D. (2008). The prevalence of plant food allergies: a systematic review. Journal of Allergy and Clinical Immunology, 121(5), 1210-1218.