Araştırma Makalesi
BibTex RIS Kaynak Göster

İstanbul İlinde Pastane ve Fırınlarda Üretilen Glutensiz Ürünlerde Gluten Varlığı

Yıl 2023, , 151 - 157, 29.08.2023
https://doi.org/10.24323/akademik-gida.1350967

Öz

Gluten, esneklik özelliği ile pastacılık ürünleri dahil olmak üzere unlu mamullerin temelini oluşturan kompleks bir proteindir. Gluten proteinleri gliadin ve glutenin tarafından oluşturulur. Suda çözünmeyen protein grubunda yer alan gliadinin sindirimi oldukça zordur. Birçok bağışıklık bozukluğu, buğday unu bazlı gıdaları tüketen insanları artan oranda etkilemektedir. Bu çalışmanın amacı, İstanbul ilinde pastane ve fırınlarda glutensiz olarak tüketime sunulan ürünlerin yasal limite (20 ppm) uygunluğunun araştırılmasıdır. 2020 yılının Kasım ayında, İstanbul'un farklı bölgelerinde glutensiz ekmek, kek, kurabiye, atıştırmalık ve tahıl gevrekleri olmak üzere 90 adet örnek toplanmıştır. Gluten varlığı analizi için örnekler Enzim Bağlı İmmünosorbent Testi (ELISA, Enzyme-Linked Immunosorbent Assay) ile incelenmiştir. Sonuç olarak, incelenen örneklerin gluten varlığı 61 (%67.7) adedinde 5 ppm'den düşük, 8 (%8.8) adedinde 5-20 ppm arasında ve 21 (%23) adedinde ise 20 ppm ve üzerinde tespit edilmiştir. Pastane ve fırınlarda glutensiz olarak tüketime sunulan ürünlerin 29960 sayılı Türk Gıda Kodeksi Gıda Etiketleme ve Tüketicileri Bilgilendirme Yönetmeliği kapsamına uygun olmadığı belirlenmiştir. Gıda işletmelerinde hijyen ve sanitasyon eğitiminin son derece önemli olduğu düşünülmektedir. Ek olarak, hammadde ve son üründe gluten yönünden analizlerin yapılması, üretim aşamasında hammadde, personel ve ortam kaynaklı kontaminasyonunun kontrolü ve kritik noktalarda gluten analizi ile risklerin azami ölçüde azalacağı düşünülmektedir.

Kaynakça

  • [1] Asri, N., Rostami-Nejad, M., Barzegar, M., Nikzamir, A., Rezaei-Tavirani, M., Razzaghi, M., Reza Zali, M. (2020). Suppressive mechanisms induced by Tregs in celiac disease. Iranian Biomedical Journal, 24(3), 140-147.
  • [2] Atasoy, G., Gökhisar, Ö.K., Turhan, M. (2019). Gluten contamination in manufactured gluten-free foods in Turkey. Food Additives & Contaminants: Part A, 37(3), 363-373.
  • [3] Barak, S., Mudgil, D., Khatkar, B.S. (2014). Biochemical and functional properties of gliadins: A review. Critical Reviews in Food Science and Nutrition, 357-368.
  • [4] Codex Alimentarius, (2008). Codex Standard for foods for special dietary use for persons intolerant to gluten, CODEX STAN 118-1979 (revised 2008, amendment 2015).
  • [5] Collin, P., Thorell, L., Kaukinen, K., Maki, M. (2004). The safe threshold for gluten contamination in gluten-free products. Can trace amounts be accepted in the treatment of coeliac disease? Alimentary Pharmacology and Therapeutics, 19(12), 1277-1283.
  • [6] Day, L., Augustin, M.A., Batey, I.L. (2006). Wheat-gluten uses and industry needs. Trends in Food Science & Technology, 17(2), 82-90.
  • [7] Ewart, J.A.D. (1979). Glutenin structure. Journal of Science of Food and Agriculture, 30, 482-492.
  • [8] Farage, P., de Medeiros Nobrega, Y.K., Pratesi, R., Gandolfi, L., Assuncao, P., Zandonadi, R.P. (2017). Gluten contamination in gluten-free bakery products: a risk for coeliac disease patients. Public Health Nutrition, 20(3), 413-416.
  • [9] Farage, P., Puppin Zandonadi, R., Cortez Ginani, V., Gandolfi, L., Yoshio Nakano, E., Pratesi, R. (2018). Gluten-free diet: From development to assessment of a checklist designed for the prevention of gluten cross-contamination in food services. Nutrients, 10(9), 1274.
  • [10] Falcomer, A.L., Santos Araújo, L., Farage, P., Santos Monteiro, J., Yoshio Nakano, E., Puppin Zandonadi, R. (2020). Gluten contamination in food services and industry: A systematic review. Critical Reviews in Food Science and Nutrition, 60(3), 479-493.
  • [11] Gibert, A., Kruizinga, A.G., Neuhold, S., Houben, G.F., Canela, M.A., Fasano, A., Catassi, C. (2013). Might gluten traces in wheat substitutes pose a risk in patients with celiac disease? A population-based probabilistic approach to risk estimation [corrected] [Published erratum appears.]. American Journal of Clinical Nutrition, 97(1), 109-116.
  • [12] Gallagher, E., Gormley, T.R., Arendt, E.K. (2004). Recent advances in the formulation of gluten free cereal-based products. Trends in Food Science and Technology, 15, 143-152.
  • [13] Golley, S., Corsini, N., Topping, D., Morell, M., Mohr, P. (2014). Motivations for avoiding wheat consumption in Australia: results from a population survey. Public Health Nutrition, 18(3), 490-499.
  • [14] Gomez, A., Ferrero, C., Calvelo, A., Anon, M.C., Puppo, M.C. (2011). Effect of mixing time on structural and rheological properties of wheat flour dough for breadmaking. International Journal of Food Properties, 14, 583-598.
  • [15] Gaesser, G.A., Angadi, S.S. (2012). Gluten-free diet: Imprudent dietary advice for the general population? Journal of the Academy of Nutrition and Dietetics on Science Direct, 112(9), 1330-1333.
  • [16] Kagnoff, M.F. (2007). Celiac disease: pathogenesis of a model immunogenetic disease. The Journal of Clinical Investigation, 117(1), 41-49.
  • [17] Khatkar, B.S., Bell, A.E., Schofield, J.D. (1995). The dynamic rheological properties of glutens and gluten subfractions from wheats of good and poor bread-making quality. Journal of Cereal Science, 22, 29-44.
  • [18] Khatkar, B.S., Fido, R.J., Tatham, A.S., Schofield, J.D. (2002). Functional properties of wheat gliadins: 2. Effects on dynamic rheological properties of wheat gluten. Journal of Cereal Science, 35, 307–313.
  • [19] Khatkar, B.S., Fido, R.J., Tatham, A.S., Schofield, J.D. (2002). Functional properties of wheat gliadins: 1. Effects on mixing characteristics and bread making quality. Journal of Cereal Science, 35, 299–306.
  • [20] Koerner, T.B., Cleroux, C., Poirier, C., Cantin, I., Alimkulov, A., Elamparo, H. (2011). Gluten Contamination in the Canadian commercial oat supply. Food Additives & Contaminants: Part A, 28(6), 705-710.
  • [21] Lee, A., Newman, J.M. (2003). Coeliac diet: Its impact on quality of life. Journal of the American Dietetic Association, 103(11), 1533-1535.
  • [22] Lee, H.J., Anderson, Z., Ryu, D. (2014). Gluten contamination in foods labeled as ‘gluten free’ in the United States. Journal of Food Protection, 77(10), 1830-1833.
  • [23] Ludvigsson, J., Green, P. (2011). Clinical management of celiac disease. Journal of Internal Medicine, 269, 560-571.
  • [24] Malekzadeh, R., Sachdev, A., Ali, A.F. (2005). Coeliac disease in developing countries: Middle East, India and North Africa. Best Practice & Research Clinical Gastroenterology, 19(3), 351-358.
  • [25] Mattioni, B., Scheuer, P.M., Antunes, A.L., Paulino, N., De Francisco, A. (2016). Compliance with Gluten-Free labelling regulation in the Brazilian food industry. Cereal Chemistry, 93(5), 518-522.
  • [26] McIntosh, J., Flanagan, A., Madden, N., Mulcahy, M., Dargan, L., Walker, M., Burns, D.T. (2011). Awareness of coeliac disease and the gluten status of ‘Gluten-Free’ food obtained on request in catering outlets in Ireland. International Journal of Food Science & Technology, 46(8), 1569-1574.
  • [27] O’Neill, J. (2011). Gluten–free foods: Trends, Challenges and Solutions. Cereal Foods, 55, 220-223.
  • [28] Raju, N.R., Joshi, A.K., Vahini, R., Deepika, T., Bhaskarachari, K., Devindra, S. (2020). Gluten contamination in labelled and naturally gluten-free grain products in southern India. Food Additives & Contaminants Part A Chemistry Analysis Control Exposure & Risk Assessment, 37(4), 531-538.
  • [29] Rostami-Nejad, M., Taraghikhah, N., Ciacci, C., Pourhoseingholi, M.A., Barzegar, F., Rezaei-Tavirani, M., Aldulaimi, D., Reza Zali, M. (2020). Anxiety symptoms in adult celiac patients and the effect of a gluten-free diet: an Iranian Nationwide study. Inflammatory Intestinal Diseases, 5(1), 42-48.
  • [30] Sapone, A., Bai, J.C., Ciacci, C., Dolinsek, J., Green, P.H., Hadjivassiliou, M., Kaukinen, K., Rostami, K., Sander, S.D., Schumann, M., Ullrich, R., Villalta, D., Volta, U., Catassi, C., Fasano, A. (2012). Spectrum of gluten-related disorders: consensus on new nomenclature and classification. BMC Medicine, 10(1), 1-12.
  • [31] Sharma, N., Bhatia, S., Chunduri, V., Kaur, S., Sharma, S., Kapoor, P., Kumari, A., Garg, M. (2020). Pathogenesis of celiac disease and other gluten related disorders in wheat and strategies for mitigating them. Frontiers in Nutrition, 7.
  • [32] Sharma, G.M., Pereira, M., Williams, K.M. (2015). Gluten detection in foods available in the United States–A market survey. Food Chemistry, 169(15), 120-126.
  • [33] TGKY, (2012). Turkish Food Codex, Communiqué on Foods Suitable for Individuals with Gluten Intolerance No: 2012/4, R.G. Number: 28163.
  • [34] Thompson, T., Lee, A.R., Grace, T. (2010). Gluten contamination of grains, seeds, and flours in the United States: A pilot study. Journal of the American Dietetic Association, 110(6), 937-940.
  • [35] Weiser, H. (2007). Chemistry of glutenin proteins. Food Microbiology, 24, 115-119.
  • [36] Mendez Xiomara, P., Una Antonio, J., Vega-Fernandez, S., Santos Angeles, M. (2022). The Ability of the yeast Wickerhamomyces anomalus to hydrolyze immunogenic wheat gliadin proteins. Foods, 11, (4105).
  • [37] Taraghikhah, N., Ashtari, S., Asri, N., Shahbazkhani, B., Al-Dulaimi, D., Rostami-Nejad, M., Rezaei-Tavirani, M., Razzaghi, M.R., Zali, M.R. (2020). An updated overview of spectrum of gluten-related disorders: Clinical and diagnostic aspects. BMC Gastroenterology, 20 (258).
  • [38] Dizlek, H. (2013). Gluten kompleksinin hamur ve ekmek nitelikleri üzerindeki etkileri. Akademik Gida, 11(1) (2013) 102-106.
  • [39] Codex Alimentarius (2008). Standard For Foods for Special Dietary Use For Persons Intolerant To Gluten, Codex Standard 118-1979, (revised 2008, amendment 2015).
  • [40] Verma, A.K., Gatti, S., Galeazzi, T., Monachesi, C, Padella, L, Giada Del, B. (2016). Detection of gluten content in the naturally gluten free and ‘gluten free’ labelled commercially available food products in Italy. Digestive and Liver Disease, 48, 279.
  • [41] Guennouni, M., Elmoumou, L., Admou, B., Hazime, R., Elkhoudri, N., Hakmaoui, A., Bourrahouat, A., Hilali, A. (2022). Detection of gluten content in both naturally and labelled gluten-free products available in Morocco. Journal of Consumer Protection and Food Safety, 17, 137-144.
  • [42] Verma, A.K., Gatti, S., Galeazzi, T., Monachesi, C, Padella, L, Giada Del, B., (2017). Gluten contamination in naturally or labelled gluten free products marketed in Italy. Nutrients, 9, 115.
  • [43] Bustamante, M.A., Fernandez-Gil, M.P., Churruca, I., Miranda, J., Lasa, A., Navarro, V. (2017). Evolution of gluten content in cereal-based gluten-free products: An overview from 1998 to 2016. Nutrients, 9, 21.

Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey

Yıl 2023, , 151 - 157, 29.08.2023
https://doi.org/10.24323/akademik-gida.1350967

Öz

Gluten is a complex protein that forms the basis of bakery products, including pastry products, with its elasticity. Gluten proteins are constituted by gliadin and glutenin. Gliadin, which is in the water-insoluble protein group, is very difficult to digest. Many immune disorders influence a growing number of people in relation to the consumption of wheat flour-based foods. The aim of this study is to determine the status of gluten-free products with the legal limits of the gluten-free products sold in pastry shops and bakeries in Istanbul, Turkey. Ninety samples in total including gluten-free bread, cakes, cookies, snacks, and cereals were collected from various regions of Istanbul in November 2020. The samples obtained were examined by ELISA (Enzyme-Linked Immunosorbent Assay) for the presence of gluten. As a result, the presence of gluten was found to be lower than 5 ppm in 61 samples (67.7%), between 5-20 ppm in 8 samples (8.8%), and 20 ppm and above in 21 samples (23%). Within the scope of Turkish Food Codex Regulation on Food Labeling and Consumer Information Number 29960, some foods were inappropriate products which offered to consumption as gluten-free in patisseries and bakeries. It could be thought that risks might be reduced to the maximum extent with hygiene and sanitation training in food businesses, analysis in terms of gluten in raw materials and final products, control of contamination from raw materials, personnel and environment during the production phase, and gluten analysis at critical points.

Kaynakça

  • [1] Asri, N., Rostami-Nejad, M., Barzegar, M., Nikzamir, A., Rezaei-Tavirani, M., Razzaghi, M., Reza Zali, M. (2020). Suppressive mechanisms induced by Tregs in celiac disease. Iranian Biomedical Journal, 24(3), 140-147.
  • [2] Atasoy, G., Gökhisar, Ö.K., Turhan, M. (2019). Gluten contamination in manufactured gluten-free foods in Turkey. Food Additives & Contaminants: Part A, 37(3), 363-373.
  • [3] Barak, S., Mudgil, D., Khatkar, B.S. (2014). Biochemical and functional properties of gliadins: A review. Critical Reviews in Food Science and Nutrition, 357-368.
  • [4] Codex Alimentarius, (2008). Codex Standard for foods for special dietary use for persons intolerant to gluten, CODEX STAN 118-1979 (revised 2008, amendment 2015).
  • [5] Collin, P., Thorell, L., Kaukinen, K., Maki, M. (2004). The safe threshold for gluten contamination in gluten-free products. Can trace amounts be accepted in the treatment of coeliac disease? Alimentary Pharmacology and Therapeutics, 19(12), 1277-1283.
  • [6] Day, L., Augustin, M.A., Batey, I.L. (2006). Wheat-gluten uses and industry needs. Trends in Food Science & Technology, 17(2), 82-90.
  • [7] Ewart, J.A.D. (1979). Glutenin structure. Journal of Science of Food and Agriculture, 30, 482-492.
  • [8] Farage, P., de Medeiros Nobrega, Y.K., Pratesi, R., Gandolfi, L., Assuncao, P., Zandonadi, R.P. (2017). Gluten contamination in gluten-free bakery products: a risk for coeliac disease patients. Public Health Nutrition, 20(3), 413-416.
  • [9] Farage, P., Puppin Zandonadi, R., Cortez Ginani, V., Gandolfi, L., Yoshio Nakano, E., Pratesi, R. (2018). Gluten-free diet: From development to assessment of a checklist designed for the prevention of gluten cross-contamination in food services. Nutrients, 10(9), 1274.
  • [10] Falcomer, A.L., Santos Araújo, L., Farage, P., Santos Monteiro, J., Yoshio Nakano, E., Puppin Zandonadi, R. (2020). Gluten contamination in food services and industry: A systematic review. Critical Reviews in Food Science and Nutrition, 60(3), 479-493.
  • [11] Gibert, A., Kruizinga, A.G., Neuhold, S., Houben, G.F., Canela, M.A., Fasano, A., Catassi, C. (2013). Might gluten traces in wheat substitutes pose a risk in patients with celiac disease? A population-based probabilistic approach to risk estimation [corrected] [Published erratum appears.]. American Journal of Clinical Nutrition, 97(1), 109-116.
  • [12] Gallagher, E., Gormley, T.R., Arendt, E.K. (2004). Recent advances in the formulation of gluten free cereal-based products. Trends in Food Science and Technology, 15, 143-152.
  • [13] Golley, S., Corsini, N., Topping, D., Morell, M., Mohr, P. (2014). Motivations for avoiding wheat consumption in Australia: results from a population survey. Public Health Nutrition, 18(3), 490-499.
  • [14] Gomez, A., Ferrero, C., Calvelo, A., Anon, M.C., Puppo, M.C. (2011). Effect of mixing time on structural and rheological properties of wheat flour dough for breadmaking. International Journal of Food Properties, 14, 583-598.
  • [15] Gaesser, G.A., Angadi, S.S. (2012). Gluten-free diet: Imprudent dietary advice for the general population? Journal of the Academy of Nutrition and Dietetics on Science Direct, 112(9), 1330-1333.
  • [16] Kagnoff, M.F. (2007). Celiac disease: pathogenesis of a model immunogenetic disease. The Journal of Clinical Investigation, 117(1), 41-49.
  • [17] Khatkar, B.S., Bell, A.E., Schofield, J.D. (1995). The dynamic rheological properties of glutens and gluten subfractions from wheats of good and poor bread-making quality. Journal of Cereal Science, 22, 29-44.
  • [18] Khatkar, B.S., Fido, R.J., Tatham, A.S., Schofield, J.D. (2002). Functional properties of wheat gliadins: 2. Effects on dynamic rheological properties of wheat gluten. Journal of Cereal Science, 35, 307–313.
  • [19] Khatkar, B.S., Fido, R.J., Tatham, A.S., Schofield, J.D. (2002). Functional properties of wheat gliadins: 1. Effects on mixing characteristics and bread making quality. Journal of Cereal Science, 35, 299–306.
  • [20] Koerner, T.B., Cleroux, C., Poirier, C., Cantin, I., Alimkulov, A., Elamparo, H. (2011). Gluten Contamination in the Canadian commercial oat supply. Food Additives & Contaminants: Part A, 28(6), 705-710.
  • [21] Lee, A., Newman, J.M. (2003). Coeliac diet: Its impact on quality of life. Journal of the American Dietetic Association, 103(11), 1533-1535.
  • [22] Lee, H.J., Anderson, Z., Ryu, D. (2014). Gluten contamination in foods labeled as ‘gluten free’ in the United States. Journal of Food Protection, 77(10), 1830-1833.
  • [23] Ludvigsson, J., Green, P. (2011). Clinical management of celiac disease. Journal of Internal Medicine, 269, 560-571.
  • [24] Malekzadeh, R., Sachdev, A., Ali, A.F. (2005). Coeliac disease in developing countries: Middle East, India and North Africa. Best Practice & Research Clinical Gastroenterology, 19(3), 351-358.
  • [25] Mattioni, B., Scheuer, P.M., Antunes, A.L., Paulino, N., De Francisco, A. (2016). Compliance with Gluten-Free labelling regulation in the Brazilian food industry. Cereal Chemistry, 93(5), 518-522.
  • [26] McIntosh, J., Flanagan, A., Madden, N., Mulcahy, M., Dargan, L., Walker, M., Burns, D.T. (2011). Awareness of coeliac disease and the gluten status of ‘Gluten-Free’ food obtained on request in catering outlets in Ireland. International Journal of Food Science & Technology, 46(8), 1569-1574.
  • [27] O’Neill, J. (2011). Gluten–free foods: Trends, Challenges and Solutions. Cereal Foods, 55, 220-223.
  • [28] Raju, N.R., Joshi, A.K., Vahini, R., Deepika, T., Bhaskarachari, K., Devindra, S. (2020). Gluten contamination in labelled and naturally gluten-free grain products in southern India. Food Additives & Contaminants Part A Chemistry Analysis Control Exposure & Risk Assessment, 37(4), 531-538.
  • [29] Rostami-Nejad, M., Taraghikhah, N., Ciacci, C., Pourhoseingholi, M.A., Barzegar, F., Rezaei-Tavirani, M., Aldulaimi, D., Reza Zali, M. (2020). Anxiety symptoms in adult celiac patients and the effect of a gluten-free diet: an Iranian Nationwide study. Inflammatory Intestinal Diseases, 5(1), 42-48.
  • [30] Sapone, A., Bai, J.C., Ciacci, C., Dolinsek, J., Green, P.H., Hadjivassiliou, M., Kaukinen, K., Rostami, K., Sander, S.D., Schumann, M., Ullrich, R., Villalta, D., Volta, U., Catassi, C., Fasano, A. (2012). Spectrum of gluten-related disorders: consensus on new nomenclature and classification. BMC Medicine, 10(1), 1-12.
  • [31] Sharma, N., Bhatia, S., Chunduri, V., Kaur, S., Sharma, S., Kapoor, P., Kumari, A., Garg, M. (2020). Pathogenesis of celiac disease and other gluten related disorders in wheat and strategies for mitigating them. Frontiers in Nutrition, 7.
  • [32] Sharma, G.M., Pereira, M., Williams, K.M. (2015). Gluten detection in foods available in the United States–A market survey. Food Chemistry, 169(15), 120-126.
  • [33] TGKY, (2012). Turkish Food Codex, Communiqué on Foods Suitable for Individuals with Gluten Intolerance No: 2012/4, R.G. Number: 28163.
  • [34] Thompson, T., Lee, A.R., Grace, T. (2010). Gluten contamination of grains, seeds, and flours in the United States: A pilot study. Journal of the American Dietetic Association, 110(6), 937-940.
  • [35] Weiser, H. (2007). Chemistry of glutenin proteins. Food Microbiology, 24, 115-119.
  • [36] Mendez Xiomara, P., Una Antonio, J., Vega-Fernandez, S., Santos Angeles, M. (2022). The Ability of the yeast Wickerhamomyces anomalus to hydrolyze immunogenic wheat gliadin proteins. Foods, 11, (4105).
  • [37] Taraghikhah, N., Ashtari, S., Asri, N., Shahbazkhani, B., Al-Dulaimi, D., Rostami-Nejad, M., Rezaei-Tavirani, M., Razzaghi, M.R., Zali, M.R. (2020). An updated overview of spectrum of gluten-related disorders: Clinical and diagnostic aspects. BMC Gastroenterology, 20 (258).
  • [38] Dizlek, H. (2013). Gluten kompleksinin hamur ve ekmek nitelikleri üzerindeki etkileri. Akademik Gida, 11(1) (2013) 102-106.
  • [39] Codex Alimentarius (2008). Standard For Foods for Special Dietary Use For Persons Intolerant To Gluten, Codex Standard 118-1979, (revised 2008, amendment 2015).
  • [40] Verma, A.K., Gatti, S., Galeazzi, T., Monachesi, C, Padella, L, Giada Del, B. (2016). Detection of gluten content in the naturally gluten free and ‘gluten free’ labelled commercially available food products in Italy. Digestive and Liver Disease, 48, 279.
  • [41] Guennouni, M., Elmoumou, L., Admou, B., Hazime, R., Elkhoudri, N., Hakmaoui, A., Bourrahouat, A., Hilali, A. (2022). Detection of gluten content in both naturally and labelled gluten-free products available in Morocco. Journal of Consumer Protection and Food Safety, 17, 137-144.
  • [42] Verma, A.K., Gatti, S., Galeazzi, T., Monachesi, C, Padella, L, Giada Del, B., (2017). Gluten contamination in naturally or labelled gluten free products marketed in Italy. Nutrients, 9, 115.
  • [43] Bustamante, M.A., Fernandez-Gil, M.P., Churruca, I., Miranda, J., Lasa, A., Navarro, V. (2017). Evolution of gluten content in cereal-based gluten-free products: An overview from 1998 to 2016. Nutrients, 9, 21.
Toplam 43 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Gıda Mühendisliği
Bölüm Araştırma Makaleleri
Yazarlar

Yeliz Miral 0000-0003-1804-5736

Ayşen Çoban Dinçsoy 0000-0001-6555-3421

Yayımlanma Tarihi 29 Ağustos 2023
Gönderilme Tarihi 1 Aralık 2021
Yayımlandığı Sayı Yıl 2023

Kaynak Göster

APA Miral, Y., & Çoban Dinçsoy, A. (2023). Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey. Akademik Gıda, 21(2), 151-157. https://doi.org/10.24323/akademik-gida.1350967
AMA Miral Y, Çoban Dinçsoy A. Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey. Akademik Gıda. Ağustos 2023;21(2):151-157. doi:10.24323/akademik-gida.1350967
Chicago Miral, Yeliz, ve Ayşen Çoban Dinçsoy. “Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey”. Akademik Gıda 21, sy. 2 (Ağustos 2023): 151-57. https://doi.org/10.24323/akademik-gida.1350967.
EndNote Miral Y, Çoban Dinçsoy A (01 Ağustos 2023) Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey. Akademik Gıda 21 2 151–157.
IEEE Y. Miral ve A. Çoban Dinçsoy, “Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey”, Akademik Gıda, c. 21, sy. 2, ss. 151–157, 2023, doi: 10.24323/akademik-gida.1350967.
ISNAD Miral, Yeliz - Çoban Dinçsoy, Ayşen. “Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey”. Akademik Gıda 21/2 (Ağustos 2023), 151-157. https://doi.org/10.24323/akademik-gida.1350967.
JAMA Miral Y, Çoban Dinçsoy A. Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey. Akademik Gıda. 2023;21:151–157.
MLA Miral, Yeliz ve Ayşen Çoban Dinçsoy. “Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey”. Akademik Gıda, c. 21, sy. 2, 2023, ss. 151-7, doi:10.24323/akademik-gida.1350967.
Vancouver Miral Y, Çoban Dinçsoy A. Gluten Status in Gluten-Free Pastry and Bakery Products Produced in Istanbul, Turkey. Akademik Gıda. 2023;21(2):151-7.

25964   25965    25966      25968   25967


88x31.png

Bu eser Creative Commons Atıf-GayriTicari 4.0 (CC BY-NC 4.0) Uluslararası Lisansı ile lisanslanmıştır.

Akademik Gıda (Academic Food Journal) is licensed under a Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0).