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Effect of D-Allulose Use as a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes

Year 2023, Volume: 21 Issue: 3, 220 - 232, 30.10.2023
https://doi.org/10.24323/akademik-gida.1382915

Abstract

D-allulose is a monosaccharide that belongs to the class of sugars known as rare derivatives of monosaccharides in nature. The aim of this study was to investigate how the sugar substitute D-allulose influenced the physicochemical, textural, and sensory characteristics of cakes. Solvent water retention capacity analysis of flour used in cake production and ash, dry matter, texture, color and reducing sugar analyses of cake dough were carried out in a day while water activity, pH, titratable acidity, antioxidant activity analysis and sensory analyses of cakes were performed in three different days. The average heights of control, AL50 and AL100 cakes were 2.60±0.14, 1.75±0.1 and 1.50±0.0 cm while they had the cake yields of 87.2±1.9, 86.2±4.1 and 87.6±3.2%, respectively. Viscosity analysis results showed that viscosity of dough samples decreased with an increase in spindle speed for all groups. The total dry matter content of control cakes was 76.1±3.0% while AL50 and AL100 cakes had a dry matter content of 76.4±4.6 and 75.0±2.6%, respectively. Total ash contents were 1.2±0.0, 1.3±0.0 and 1.4±0.0% for control, AL50 and AL100 cakes, respectively. The mean radical scavenging activity (RSA) of control cakes on the first day of production was 26.1±5.8, 51.6±1.3 in the AL50 group and 53.9±1.2 in the AL100 group. When evaluating the panelists' overall acceptability scores for the sensory qualities of cakes, the first day yielded the highest AL50 (7.9±1.2), while the 8th day of storage yielded the lowest AL50 (8.5±0.8) for the control group. The 8th day analysis yielded the lowest result (6.7±1.4) for the AL100 group. Results indicated that D-allulose preserved the physicochemical, textural, and sensory characteristics of cakes while increasing their antioxidant capacity, and it could be utilized to create novel products in the food industry because of these qualities.

References

  • [1] World Health Organization-WHO (2020a). Controlling the global obesity epidemic. World Health Organization-Nutrition. Available from: https://www.who.int/nutrition/topics/obesity/en/. (Accessed Date: 27.10.2022).
  • [2] WHO (2020b). Obesity and overweight. World Health Organization- Obesity and overweight. Available from: https://www.who.int/news-room/fact-sheets/detail/obesity-and-overweight (Accessed Date: 27.10.2022).
  • [3] Ofei F. (2015). Obesity-a preventable disease. Ghana Medical of Journal, 39, 98.
  • [4] WHO (2015). Sugars intake for adults and children: Guideline. Retrieved from https://www.who.int/nutrition/publications/guidelines/sugars_intake/en/ (Accessed Date: 29.10.2022).
  • [5] Shonkoff, E.T., Dunton, G.F., Chou, C.-P., Leventhal, A.M., Bluthenthal, R., Pentz, M.A. (2017). Direct and indirect effects of parent stress on child obesity risk and added sugar intake in a sample of Southern California adolescents. Public Health Nutrition, 20(18), 3285–3294.
  • [6] Kartiosuo, N., Ramakrishnan, R., Lemeshow, S., Juonala, M., Burns, T.L., Woo, J.G., Jacobs, D.R., Daniels, S.R., Venn, A., Steinberger, J., Urbina, E.M., Bazzano, L., Sabin, M.A., Hu, T., Prineas, R.J., Sinaiko, A.R., Pahkala, K., Raitakari, O., Dwyer, T. (2019). Predicting overweight and obesity in young adulthood from childhood body-mass index: comparison of cutoffs derived from longitudinal and cross-sectional data. The Lancet Child & Adolescent Health, 3(11), 795–802.
  • [7] Backholer, K., Vandevijvere, S., Blake, M., Tseng, M. (2018). Sugar-sweetened beverage taxes in 2018: a year of reflections and consolidation. Public Health Nutrition, 21(18), 3291–3295.
  • [8] Honorio, A.R., Soares, A.F., Lima, D.C. N. de, Tribst, A.A.L. (2021). Passion fruit nectar sweetened with stevia and sucralose: Is perception affected by the regular consumption of sweeteners or diabetes? International Journal of Gastronomy and Food Science, 25, 100404.
  • [9] van Opstal, A.M., Hafkemeijer, A., van den Berg-Huysmans, A.A., Hoeksma, M., Mulder, Theo. P.J., Pijl, H., Rombouts, S.A.R.B., van der Grond, J. (2021). Brain activity and connectivity changes in response to nutritive natural sugars, non-nutritive natural sugar replacements and artificial sweeteners. Nutritional Neuroscience, 24(5), 395–405.
  • [10] Saraiva, A., Carrascosa, C., Raheem, D., Ramos, F., Raposo, A. (2020). Natural sweeteners: The relevance of food naturalness for consumers, food security aspects, Sustainability and health impacts. International Journal of Environmental Research and Public Health, 17(17), 6285.
  • [11] Hossain, A., Yamaguchi, F., Matsuo, T., Tsukamoto, I., Toyoda, Y., Ogawa, M., Nagata, Y., Tokuda, M. (2015). Rare sugar D-allulose: Potential role and therapeutic monitoring in maintaining obesity and type 2 diabetes mellitus. Pharmacology & Therapeutics, 155, 49–59.
  • [12] Matsuo, T., Izumori, K. (2009). Retraction: D-psicose inhibits intestinal alpha-glucosidase and suppresses the glycemic response after ingestion of carbohydrates in rats. Journal of Clinical Biochemistry and Nutrition, 45(2), 202–206.
  • [13] Iida, T., Hayashi, N., Yamada, T., Yoshikawa, Y., Miyazato, S., Kishimoto, Y., Okuma, K., Tokuda, M., Izumori, K. (2010). Failure of D-psicose absorbed in the small intestine to metabolize into energy and its low large intestinal fermentability in humans. Metabolism, 59(2), 206–214.
  • [14] Longoria-García, S., Cruz-Hernández, M.A., Flores-Verástegui, M.I.M., Contreras-Esquivel, J.C., Montañez-Sáenz, J.C., Belmares-Cerda, R.E. (2018). Potential functional bakery products as delivery systems for prebiotics and probiotics health enhancers. Journal of Food Science and Technology, 55(3), 833–845.
  • [15] Kim, J.-N., Park, S., Shin, W.-S. (2014). Textural and sensory characteristics of rice chiffon cake formulated with sugar alcohols instead of sucrose. Journal of Food Quality, 37(4), 281–290.
  • [16] Hao, Y., Wang, F., Huang, W., Tang, X., Zou, Q., Li, Z., Ogawa, A. (2016). Sucrose substitution by polyols in sponge cake and their effects on the foaming and thermal properties of egg protein. Food Hydrocolloids, 57, 153–159.
  • [17] Kim, K.-H., Lee, G.-H. (2016). Characteristics of sponge cake prepared with yacon concentrates as sugar substitute. Journal of the Korean Society of Food Science and Nutrition, 45(10), 1453–1459.
  • [18] Quiles, A., Llorca, E., Schmidt, C., Reißner, A.-M., Struck, S., Rohm, H., Hernando, I. (2018). Use of berry pomace to replace flour, fat or sugar in cakes. International Journal of Food Science & Technology, 53(6), 1579–1587.
  • [19] Shahidi, B., Kalantari, M., Boostani. M. (2017). Effect of date syrup as a sugar replacement on the rheological and physical properties of sponge cake. Iranian Journal of Nutrition Sciences & Food Technology. 14, 63-72.
  • [20] Lee, P., Oh, H., Kim, S. Y., Kim, Y.S. (2020). Effects of D‐allulose as a sucrose substitute on the physicochemical, textural, and sensorial properties of pound cakes. Journal of Food Processing and Preservation, 44(6), e14472.
  • [21] Bolger, A.M., Rastall, R.A., Oruna-Concha, M.J., Rodriguez-Garcia, J. (2021). Effect of D-allulose, in comparison to sucrose and d-fructose, on the physical properties of cupcakes. LWT, 150, 111989.
  • [22] Goswami, D., Gupta, R.K., Mridula, D., Sharma, M., Tyagi, S.K. (2015). Barnyard millet based muffins: physical, textural and sensory properties. LWT-Food Science and Technology, 64(1), 374-380.
  • [23] Dizlek, H., Altan, A. (2021). The impacts of batter and baking temperatures and baking time on sponge cake characteristics. Electronic Letters on Science and Engineering, 17(2), 89–95.
  • [24] AACC. (2000). Approved methods of the American Association of Cereal Chemists, Method 56–11. MN: Author St Paul.
  • [25] Hammed, A.M., Ozsisli, B., Ohm, J.-B., Simsek, S. (2015). Relationship between solvent retention capacity and protein molecular weight distribution, quality characteristics, and breadmaking functionality of hard red spring wheat flour. Cereal Chemistry Journal, 92(5), 466–474.
  • [26] Nazari, Z., Karazhyan, R, Mehraban Sangh Atash, M., Ehtiati, A. (2022). Evaluation of the effect of fat replacer gel on physicochemical and rheological properties of low-calorie cake dough and texture. Food Science and Technology, 19(122), 211–222.
  • [27] Hojjatoleslami, M., Azizi, M.H. (2015). Impact of tragacanth and xanthan gums on the physical and textural characteristics of gluten-free cake. Nutrition and Food Sciences Research, 2(2), 29–37.
  • [28] AOAC (2005). Association of Official and Analytical Chemists International. Official methods of analysis (18th ed.). Gaithersburg, MD: AOAC Intl. Washington, DC, USA.
  • [29] AOAC (2019). Official Methods of Analysis of AOAC International, 21st Edition. Association Official Analytical Chemists, Washington, DC, USA.
  • [30] Palou, E., Lopez-Malo, A., Barbosa-Canovas, G.V., Welti-Chanes, J., Swanson, B.G. (1999). Polyphenoloxidase activity and color of blanched and high hydrostatic pressure treated banana puree. Journal of Food Science, 64(1), 42–45.
  • [31] Çelik C. (2021). Potential for use of watermelon peel powder in gluten-free cake [MSc Thesis] Denizli, Turkey: Pamukkale University Graduate School of Natural and Applied Sciences;
  • [32] Thaipong, K., Boonprakob, U., Crosby, K., Cisneros-Zevallos, L., Hawkins Byrne, D. (2006). Comparison of ABTS, DPPH, FRAP, and ORAC assays for estimating antioxidant activity from guava fruit extracts. Journal of Food Composition and Analysis, 19(6–7), 669–675.
  • [33] AOAC. (2012). Official method of analysis of AOAC International. 19th ed. Virginia.
  • [34] ISO13299:2016. (2016). Sensory analysis-Methodology-General guidance for establishing a sensory profile. ISO standard. Geneva, Switzerland: International Organization for Standardization.
  • [35] Turkey Nutrition Guidelines 2022 (TUBER). Ankara, Turkey: First edt. Merdiven Advertisement; 2022. Available from: https://hsgm.saglik.gov.tr/depo/birimler/saglikli-beslenme-hareketli-hayat-db/Rehberler/T%C3%BCrkiye%20Beslenme%20Rehber%20(T%C3%9CBER)%202022.pdf (Accessed Date 10.04.2023).
  • [36] IBM Corp. (2010). SPSS Statistics for Windows, v.19.0, Armonk, NY, USA; 2010. Available from: https://www.ibm.com/analytics/spss-statisticssoftware?lnk=STW_US_STESCH&lnk2=trial_SPSS&pexp=def&psrc=none&mhsrc=ibmsearch_a&mhq=spss. (Accessed Date 10.04.2023).
  • [37] Haynes, L.C., Bettge, A.D., Slade, L. (2009). Soft wheat and flour products methods review: Solvent retention capacity equation correction. Cereal Foods World, 54(4), 174–175.
  • [38] Kweon, M., Slade, L., Levine, H. (2011). Solvent Retention Capacity (SRC) Testing of wheat flour: principles and value in predicting flour functionality in different wheat-based food processes and in wheat breeding-A Review. Cereal Chemistry Journal, 88(6), 537–552.
  • [39] Wang, Z., Ma, S., Sun, B., Wang, F., Huang, J., Wang, X., Bao, Q. (2021). Effects of thermal properties and behavior of wheat starch and gluten on their interaction: A review. International Journal of Biological Macromolecules, 177, 474–484.
  • [40] Amin, T., Naik, H.R., Hussain, S.Z., Rather, S.A., Makroo, H.A., Dar, B.N., Wani, S.M., Bashir, O. (2021). Functional cake from rice flour subjected to starch hydrolyzing enzymes: Physicochemical properties and in vitro digestibility. Food Bioscience, 42, 101072.
  • [41] Meng, L.-W., Kim, S.M. (2020). Effects of different carbohydrases on the physicochemical properties of rice flour, and the quality characteristics of fermented rice cake. Food Science and Biotechnology, 29(4), 503–512.
  • [42] Shevkani, K., Singh, N. (2014). Influence of kidney bean, field pea and amaranth protein isolates on the characteristics of starch-based gluten-free muffins. International Journal of Food Science & Technology, 49(10), 2237–2244.
  • [43] Manisha, G., Soumya, C., Indrani, D. (2012). Studies on interaction between stevioside, liquid sorbitol, hydrocolloids and emulsifiers for replacement of sugar in cakes. Food Hydrocolloids, 29(2), 363–373.
  • [44] Bernasconi, M. (2011). The influence of water activity in meat. Fleischwirtschaft. 3, 41-52.
  • [45] Gökçe, C. (2019). The use of carob flour and stevia as sugar substitutes for cake production and enrichment with wheat germ. MSc. Thesis. Gaziantep University, Gaziantep, Turkey.
  • [46] Sumnu, S.G., Sahin, S. (Eds.). (2008). Food Engineering Aspects of Baking Sweet Goods (1st ed.). CRC Press.
  • [47] Lu, T.M., Lee, C.C., Mau, J.L., Lin, S.D. (2010). Quality and antioxidant property of green tea sponge cake. Food Chemistry, 119(3), 1090-1095.
  • [48] Ploypetchara, T., Suwannaporn, P., Pechyen, C., Gohtani, S. (2015). Retrogradation of rice flour gel and dough: plasticization effects of some food additives. Cereal Chemistry Journal, 92(2), 198–203.
  • [49] Ploypetchara, T., Gohtani, S. (2018). Effect of sugar on starch edible film properties: Plasticized effect. Journal of Food Science and Technology, 55(9), 3757–3766.
  • [50] Ataman, Ç., Gül, H. (2020). The effect of broken roasted chickpea flour as a by-product in roasted chickpea production on mufin quality. Black Sea Journal of Agriculture, 3(4), 308–316.
  • [51] O’Charoen, S., Hayakawa, S., Matsumoto, Y., Ogawa, M. (2014). Effect of D-psicose used as sucrose replacer on the characteristics of meringue. Journal of Food Science, 79(12), E2463–E2469.
  • [52] Bartolozzo, J., Borneo, R., Aguirre, A. (2016). Effect of triticale-based edible coating on muffin quality maintenance during storage. Journal of Food Measurement and Characterization, 10(1), 88–95.
  • [53] Gao, J., Brennan, M.A., Mason, S.L., Brennan, C.S. (2016). Effect of sugar replacement with stevianna and inulin on the texture and predictive glycaemic response of muffins. International Journal of Food Science & Technology, 51(9), 1979–1987.
  • [54] Karaoğlu, M.M., Bedir, Y. (2020). Kısmi pişirme yönteminin kek kalitesi üzerine etkisi. Akademik Gıda, 18(3), 256-263.
  • [55] Rangaraj, M.V., Rambabu, K., Banat, F., Mittal, V. (2021). Natural antioxidants-based edible active food packaging: An overview of current advancements. Food Bioscience, 43, 101251.
  • [56] Sun, Y., Hayakawa, S., Jiang, H., Ogawa, M., Izumori, K. (2006). Rheological characteristics of heat-induced custard pudding gels with high antioxidative activity. Bioscience, Biotechnology, and Biochemistry, 70(12), 2859–2867.
  • [57] Kim, H.J., Han, M.J. (2019). The fermentation characteristics of soy yogurt with different content of D-allulose and sucrose fermented by lactic acid bacteria from Kimchi. Food Science and Biotechnology, 28(4), 1155–1161.
  • [58] Konak Ü.İ. (2009). Effect of different cooking methods and ultraviolet irradiation on cake quality. MSc Thesis. Akdeniz University, Graduate School of Natural and Applied Sciences, Antalya, Turkey.
  • [59] Sarion, C., Codină, G.G., Dabija, A. (2021). Acrylamide in bakery products: A review on health risks, legal regulations and strategies to reduce its formation. International Journal of Environmental Research and Public Health, 18(8), 4332.
  • [60] Queneau, Y., Jarosz, S., Lewandowski, B., Fitremann, J. (2007). Sucrose chemistry and applications of sucrochemicals. Advances in Carbohydrate Chemistry and Biochemistry, 61, 217–292.
  • [61] Lee, J.W., Thomas, L.C., Jerrell, J., Feng, H., Cadwallader, K.R., Schmidt, S.J. (2011). Investigation of thermal decomposition as the kinetic process that causes the loss of crystalline structure in sucrose using a chemical analysis approach (Part II). Journal of Agricultural and Food Chemistry, 59(2), 702–712.
  • [62] Jing, H., Kitts, D.D. (2004). Antioxidant activity of sugar–lysine Maillard reaction products in cell free and cell culture systems. Archives of Biochemistry and Biophysics, 429(2), 154–163.
  • [63] Korkerd, S., Wanlapa, S., Puttanlek, C., Uttapap, D., Rungsardthong, V. (2016). Expansion and functional properties of extruded snacks enriched with nutrition sources from food processing by-products. Journal of Food Science and Technology, 53(1), 561–570.
  • [64] Yousif, E.I., Gadallah, M.G.E., Sorour, A.M. (2012). Physico-chemical and rheological properties of modified corn starches and its effect on noodle quality. Annals of Agricultural Sciences, 57(1), 19–27.
  • [65] Shintani, T., Yamada, T., Hayashi, N., Iida, T., Nagata, Y., Ozaki, N., Toyoda, Y. (2017). Rare sugar syrup Containing D-allulose but not high-fructose corn syrup maintains glucose tolerance and ınsulin sensitivity partly via hepatic glucokinase translocation in wistar rats. Journal of Agricultural and Food Chemistry, 65(13), 2888–2894.

Şeker İkamesi Olarak D-Alüloz Kullanımının Keklerin Bazı Fizikokimyasal, Dokusal ve Duyusal Özellikleri Üzerine Etkisi

Year 2023, Volume: 21 Issue: 3, 220 - 232, 30.10.2023
https://doi.org/10.24323/akademik-gida.1382915

Abstract

D-Alüloz, monosakkaritlerin doğada ender türevleri olarak bilinen şekerler sınıfına ait bir monosakkarittir. Bu çalışmanın amacı, şeker ikamesi olan D-alüloz keklerin fizikokimyasal, tekstürel ve duyusal özelliklerine etkilerini araştırmaktır. Kek üretiminde kullanılan unda yapılan çözücü su tutma kapasitesi analizi ve kek hamurunda yapılan kül, kuru madde, tekstür, renk ve indirgen şeker analizleri tek seferde; keklerde yapılan su aktivitesi, pH, titrasyon asitliği, antioksidan aktivite analizi ve duyusal analizler ise üç farklı günde yapılmıştır. Üretilen kontrol, AL50 ve AL100 kek gruplarının yükseklik ortalamaları sırasıyla 2.60±0.14, 1.75±0.1 ve 1.50±0.0 cm’dir. Keklerin kek verimlerinde ise sırasıyla %87.2±1.9, 86.2±4.1 ve 87.6±3.2 olarak saptanmıştır. Viskozite analizi sonuçlarına bakıldığında tüm gruplarda spindle hızının artmasıyla viskozite değerlerinin düştüğü görülmüştür. Toplam kuru madde oranı kontrol grubunda %76.1±3.0, AL50 grubunda %76.4±4.6 ve AL100 grubunda %75.0±2.6; toplam kül oranları kontrol grubu, AL50 ve AL100 grupları için sırasıyla %1.2±0.0, 1.3±0.0 ve 1.4±0.0 olarak bulunmuştur. Kontrol grubunun birinci gün ortalama radikal süpürme aktivitesi (RSA) 26.1±5.8, AL50 grubunda 51.6±1.3 ve AL100 grubunda 53.9±1.2’dir. Panelistlerin keklerin duyusal özelliklerine verdiği genel kabul edilebilirlik puanları incelendiğinde 1. gün en yüksek AL50 (7.9±1.2), 8. gün kontrol grubu (8.5±0.8) almıştır. AL100 grubu 8. analiz gününde en düşük puanı (6.7±1.4) almıştır. D-Alüloz, keklerde fizikokimyasal, tekstürel ve duyusal nitelikleri koruyarak antioksidan kapasitesini artırmıştır. Bu özellikleri nedeniyle gıda endüstrisinde yeni ürünlerin oluşturulmasında kullanılabilir.

References

  • [1] World Health Organization-WHO (2020a). Controlling the global obesity epidemic. World Health Organization-Nutrition. Available from: https://www.who.int/nutrition/topics/obesity/en/. (Accessed Date: 27.10.2022).
  • [2] WHO (2020b). Obesity and overweight. World Health Organization- Obesity and overweight. Available from: https://www.who.int/news-room/fact-sheets/detail/obesity-and-overweight (Accessed Date: 27.10.2022).
  • [3] Ofei F. (2015). Obesity-a preventable disease. Ghana Medical of Journal, 39, 98.
  • [4] WHO (2015). Sugars intake for adults and children: Guideline. Retrieved from https://www.who.int/nutrition/publications/guidelines/sugars_intake/en/ (Accessed Date: 29.10.2022).
  • [5] Shonkoff, E.T., Dunton, G.F., Chou, C.-P., Leventhal, A.M., Bluthenthal, R., Pentz, M.A. (2017). Direct and indirect effects of parent stress on child obesity risk and added sugar intake in a sample of Southern California adolescents. Public Health Nutrition, 20(18), 3285–3294.
  • [6] Kartiosuo, N., Ramakrishnan, R., Lemeshow, S., Juonala, M., Burns, T.L., Woo, J.G., Jacobs, D.R., Daniels, S.R., Venn, A., Steinberger, J., Urbina, E.M., Bazzano, L., Sabin, M.A., Hu, T., Prineas, R.J., Sinaiko, A.R., Pahkala, K., Raitakari, O., Dwyer, T. (2019). Predicting overweight and obesity in young adulthood from childhood body-mass index: comparison of cutoffs derived from longitudinal and cross-sectional data. The Lancet Child & Adolescent Health, 3(11), 795–802.
  • [7] Backholer, K., Vandevijvere, S., Blake, M., Tseng, M. (2018). Sugar-sweetened beverage taxes in 2018: a year of reflections and consolidation. Public Health Nutrition, 21(18), 3291–3295.
  • [8] Honorio, A.R., Soares, A.F., Lima, D.C. N. de, Tribst, A.A.L. (2021). Passion fruit nectar sweetened with stevia and sucralose: Is perception affected by the regular consumption of sweeteners or diabetes? International Journal of Gastronomy and Food Science, 25, 100404.
  • [9] van Opstal, A.M., Hafkemeijer, A., van den Berg-Huysmans, A.A., Hoeksma, M., Mulder, Theo. P.J., Pijl, H., Rombouts, S.A.R.B., van der Grond, J. (2021). Brain activity and connectivity changes in response to nutritive natural sugars, non-nutritive natural sugar replacements and artificial sweeteners. Nutritional Neuroscience, 24(5), 395–405.
  • [10] Saraiva, A., Carrascosa, C., Raheem, D., Ramos, F., Raposo, A. (2020). Natural sweeteners: The relevance of food naturalness for consumers, food security aspects, Sustainability and health impacts. International Journal of Environmental Research and Public Health, 17(17), 6285.
  • [11] Hossain, A., Yamaguchi, F., Matsuo, T., Tsukamoto, I., Toyoda, Y., Ogawa, M., Nagata, Y., Tokuda, M. (2015). Rare sugar D-allulose: Potential role and therapeutic monitoring in maintaining obesity and type 2 diabetes mellitus. Pharmacology & Therapeutics, 155, 49–59.
  • [12] Matsuo, T., Izumori, K. (2009). Retraction: D-psicose inhibits intestinal alpha-glucosidase and suppresses the glycemic response after ingestion of carbohydrates in rats. Journal of Clinical Biochemistry and Nutrition, 45(2), 202–206.
  • [13] Iida, T., Hayashi, N., Yamada, T., Yoshikawa, Y., Miyazato, S., Kishimoto, Y., Okuma, K., Tokuda, M., Izumori, K. (2010). Failure of D-psicose absorbed in the small intestine to metabolize into energy and its low large intestinal fermentability in humans. Metabolism, 59(2), 206–214.
  • [14] Longoria-García, S., Cruz-Hernández, M.A., Flores-Verástegui, M.I.M., Contreras-Esquivel, J.C., Montañez-Sáenz, J.C., Belmares-Cerda, R.E. (2018). Potential functional bakery products as delivery systems for prebiotics and probiotics health enhancers. Journal of Food Science and Technology, 55(3), 833–845.
  • [15] Kim, J.-N., Park, S., Shin, W.-S. (2014). Textural and sensory characteristics of rice chiffon cake formulated with sugar alcohols instead of sucrose. Journal of Food Quality, 37(4), 281–290.
  • [16] Hao, Y., Wang, F., Huang, W., Tang, X., Zou, Q., Li, Z., Ogawa, A. (2016). Sucrose substitution by polyols in sponge cake and their effects on the foaming and thermal properties of egg protein. Food Hydrocolloids, 57, 153–159.
  • [17] Kim, K.-H., Lee, G.-H. (2016). Characteristics of sponge cake prepared with yacon concentrates as sugar substitute. Journal of the Korean Society of Food Science and Nutrition, 45(10), 1453–1459.
  • [18] Quiles, A., Llorca, E., Schmidt, C., Reißner, A.-M., Struck, S., Rohm, H., Hernando, I. (2018). Use of berry pomace to replace flour, fat or sugar in cakes. International Journal of Food Science & Technology, 53(6), 1579–1587.
  • [19] Shahidi, B., Kalantari, M., Boostani. M. (2017). Effect of date syrup as a sugar replacement on the rheological and physical properties of sponge cake. Iranian Journal of Nutrition Sciences & Food Technology. 14, 63-72.
  • [20] Lee, P., Oh, H., Kim, S. Y., Kim, Y.S. (2020). Effects of D‐allulose as a sucrose substitute on the physicochemical, textural, and sensorial properties of pound cakes. Journal of Food Processing and Preservation, 44(6), e14472.
  • [21] Bolger, A.M., Rastall, R.A., Oruna-Concha, M.J., Rodriguez-Garcia, J. (2021). Effect of D-allulose, in comparison to sucrose and d-fructose, on the physical properties of cupcakes. LWT, 150, 111989.
  • [22] Goswami, D., Gupta, R.K., Mridula, D., Sharma, M., Tyagi, S.K. (2015). Barnyard millet based muffins: physical, textural and sensory properties. LWT-Food Science and Technology, 64(1), 374-380.
  • [23] Dizlek, H., Altan, A. (2021). The impacts of batter and baking temperatures and baking time on sponge cake characteristics. Electronic Letters on Science and Engineering, 17(2), 89–95.
  • [24] AACC. (2000). Approved methods of the American Association of Cereal Chemists, Method 56–11. MN: Author St Paul.
  • [25] Hammed, A.M., Ozsisli, B., Ohm, J.-B., Simsek, S. (2015). Relationship between solvent retention capacity and protein molecular weight distribution, quality characteristics, and breadmaking functionality of hard red spring wheat flour. Cereal Chemistry Journal, 92(5), 466–474.
  • [26] Nazari, Z., Karazhyan, R, Mehraban Sangh Atash, M., Ehtiati, A. (2022). Evaluation of the effect of fat replacer gel on physicochemical and rheological properties of low-calorie cake dough and texture. Food Science and Technology, 19(122), 211–222.
  • [27] Hojjatoleslami, M., Azizi, M.H. (2015). Impact of tragacanth and xanthan gums on the physical and textural characteristics of gluten-free cake. Nutrition and Food Sciences Research, 2(2), 29–37.
  • [28] AOAC (2005). Association of Official and Analytical Chemists International. Official methods of analysis (18th ed.). Gaithersburg, MD: AOAC Intl. Washington, DC, USA.
  • [29] AOAC (2019). Official Methods of Analysis of AOAC International, 21st Edition. Association Official Analytical Chemists, Washington, DC, USA.
  • [30] Palou, E., Lopez-Malo, A., Barbosa-Canovas, G.V., Welti-Chanes, J., Swanson, B.G. (1999). Polyphenoloxidase activity and color of blanched and high hydrostatic pressure treated banana puree. Journal of Food Science, 64(1), 42–45.
  • [31] Çelik C. (2021). Potential for use of watermelon peel powder in gluten-free cake [MSc Thesis] Denizli, Turkey: Pamukkale University Graduate School of Natural and Applied Sciences;
  • [32] Thaipong, K., Boonprakob, U., Crosby, K., Cisneros-Zevallos, L., Hawkins Byrne, D. (2006). Comparison of ABTS, DPPH, FRAP, and ORAC assays for estimating antioxidant activity from guava fruit extracts. Journal of Food Composition and Analysis, 19(6–7), 669–675.
  • [33] AOAC. (2012). Official method of analysis of AOAC International. 19th ed. Virginia.
  • [34] ISO13299:2016. (2016). Sensory analysis-Methodology-General guidance for establishing a sensory profile. ISO standard. Geneva, Switzerland: International Organization for Standardization.
  • [35] Turkey Nutrition Guidelines 2022 (TUBER). Ankara, Turkey: First edt. Merdiven Advertisement; 2022. Available from: https://hsgm.saglik.gov.tr/depo/birimler/saglikli-beslenme-hareketli-hayat-db/Rehberler/T%C3%BCrkiye%20Beslenme%20Rehber%20(T%C3%9CBER)%202022.pdf (Accessed Date 10.04.2023).
  • [36] IBM Corp. (2010). SPSS Statistics for Windows, v.19.0, Armonk, NY, USA; 2010. Available from: https://www.ibm.com/analytics/spss-statisticssoftware?lnk=STW_US_STESCH&lnk2=trial_SPSS&pexp=def&psrc=none&mhsrc=ibmsearch_a&mhq=spss. (Accessed Date 10.04.2023).
  • [37] Haynes, L.C., Bettge, A.D., Slade, L. (2009). Soft wheat and flour products methods review: Solvent retention capacity equation correction. Cereal Foods World, 54(4), 174–175.
  • [38] Kweon, M., Slade, L., Levine, H. (2011). Solvent Retention Capacity (SRC) Testing of wheat flour: principles and value in predicting flour functionality in different wheat-based food processes and in wheat breeding-A Review. Cereal Chemistry Journal, 88(6), 537–552.
  • [39] Wang, Z., Ma, S., Sun, B., Wang, F., Huang, J., Wang, X., Bao, Q. (2021). Effects of thermal properties and behavior of wheat starch and gluten on their interaction: A review. International Journal of Biological Macromolecules, 177, 474–484.
  • [40] Amin, T., Naik, H.R., Hussain, S.Z., Rather, S.A., Makroo, H.A., Dar, B.N., Wani, S.M., Bashir, O. (2021). Functional cake from rice flour subjected to starch hydrolyzing enzymes: Physicochemical properties and in vitro digestibility. Food Bioscience, 42, 101072.
  • [41] Meng, L.-W., Kim, S.M. (2020). Effects of different carbohydrases on the physicochemical properties of rice flour, and the quality characteristics of fermented rice cake. Food Science and Biotechnology, 29(4), 503–512.
  • [42] Shevkani, K., Singh, N. (2014). Influence of kidney bean, field pea and amaranth protein isolates on the characteristics of starch-based gluten-free muffins. International Journal of Food Science & Technology, 49(10), 2237–2244.
  • [43] Manisha, G., Soumya, C., Indrani, D. (2012). Studies on interaction between stevioside, liquid sorbitol, hydrocolloids and emulsifiers for replacement of sugar in cakes. Food Hydrocolloids, 29(2), 363–373.
  • [44] Bernasconi, M. (2011). The influence of water activity in meat. Fleischwirtschaft. 3, 41-52.
  • [45] Gökçe, C. (2019). The use of carob flour and stevia as sugar substitutes for cake production and enrichment with wheat germ. MSc. Thesis. Gaziantep University, Gaziantep, Turkey.
  • [46] Sumnu, S.G., Sahin, S. (Eds.). (2008). Food Engineering Aspects of Baking Sweet Goods (1st ed.). CRC Press.
  • [47] Lu, T.M., Lee, C.C., Mau, J.L., Lin, S.D. (2010). Quality and antioxidant property of green tea sponge cake. Food Chemistry, 119(3), 1090-1095.
  • [48] Ploypetchara, T., Suwannaporn, P., Pechyen, C., Gohtani, S. (2015). Retrogradation of rice flour gel and dough: plasticization effects of some food additives. Cereal Chemistry Journal, 92(2), 198–203.
  • [49] Ploypetchara, T., Gohtani, S. (2018). Effect of sugar on starch edible film properties: Plasticized effect. Journal of Food Science and Technology, 55(9), 3757–3766.
  • [50] Ataman, Ç., Gül, H. (2020). The effect of broken roasted chickpea flour as a by-product in roasted chickpea production on mufin quality. Black Sea Journal of Agriculture, 3(4), 308–316.
  • [51] O’Charoen, S., Hayakawa, S., Matsumoto, Y., Ogawa, M. (2014). Effect of D-psicose used as sucrose replacer on the characteristics of meringue. Journal of Food Science, 79(12), E2463–E2469.
  • [52] Bartolozzo, J., Borneo, R., Aguirre, A. (2016). Effect of triticale-based edible coating on muffin quality maintenance during storage. Journal of Food Measurement and Characterization, 10(1), 88–95.
  • [53] Gao, J., Brennan, M.A., Mason, S.L., Brennan, C.S. (2016). Effect of sugar replacement with stevianna and inulin on the texture and predictive glycaemic response of muffins. International Journal of Food Science & Technology, 51(9), 1979–1987.
  • [54] Karaoğlu, M.M., Bedir, Y. (2020). Kısmi pişirme yönteminin kek kalitesi üzerine etkisi. Akademik Gıda, 18(3), 256-263.
  • [55] Rangaraj, M.V., Rambabu, K., Banat, F., Mittal, V. (2021). Natural antioxidants-based edible active food packaging: An overview of current advancements. Food Bioscience, 43, 101251.
  • [56] Sun, Y., Hayakawa, S., Jiang, H., Ogawa, M., Izumori, K. (2006). Rheological characteristics of heat-induced custard pudding gels with high antioxidative activity. Bioscience, Biotechnology, and Biochemistry, 70(12), 2859–2867.
  • [57] Kim, H.J., Han, M.J. (2019). The fermentation characteristics of soy yogurt with different content of D-allulose and sucrose fermented by lactic acid bacteria from Kimchi. Food Science and Biotechnology, 28(4), 1155–1161.
  • [58] Konak Ü.İ. (2009). Effect of different cooking methods and ultraviolet irradiation on cake quality. MSc Thesis. Akdeniz University, Graduate School of Natural and Applied Sciences, Antalya, Turkey.
  • [59] Sarion, C., Codină, G.G., Dabija, A. (2021). Acrylamide in bakery products: A review on health risks, legal regulations and strategies to reduce its formation. International Journal of Environmental Research and Public Health, 18(8), 4332.
  • [60] Queneau, Y., Jarosz, S., Lewandowski, B., Fitremann, J. (2007). Sucrose chemistry and applications of sucrochemicals. Advances in Carbohydrate Chemistry and Biochemistry, 61, 217–292.
  • [61] Lee, J.W., Thomas, L.C., Jerrell, J., Feng, H., Cadwallader, K.R., Schmidt, S.J. (2011). Investigation of thermal decomposition as the kinetic process that causes the loss of crystalline structure in sucrose using a chemical analysis approach (Part II). Journal of Agricultural and Food Chemistry, 59(2), 702–712.
  • [62] Jing, H., Kitts, D.D. (2004). Antioxidant activity of sugar–lysine Maillard reaction products in cell free and cell culture systems. Archives of Biochemistry and Biophysics, 429(2), 154–163.
  • [63] Korkerd, S., Wanlapa, S., Puttanlek, C., Uttapap, D., Rungsardthong, V. (2016). Expansion and functional properties of extruded snacks enriched with nutrition sources from food processing by-products. Journal of Food Science and Technology, 53(1), 561–570.
  • [64] Yousif, E.I., Gadallah, M.G.E., Sorour, A.M. (2012). Physico-chemical and rheological properties of modified corn starches and its effect on noodle quality. Annals of Agricultural Sciences, 57(1), 19–27.
  • [65] Shintani, T., Yamada, T., Hayashi, N., Iida, T., Nagata, Y., Ozaki, N., Toyoda, Y. (2017). Rare sugar syrup Containing D-allulose but not high-fructose corn syrup maintains glucose tolerance and ınsulin sensitivity partly via hepatic glucokinase translocation in wistar rats. Journal of Agricultural and Food Chemistry, 65(13), 2888–2894.
There are 65 citations in total.

Details

Primary Language English
Subjects Food Engineering
Journal Section Research Papers
Authors

Mustafa Özgür 0000-0002-7801-7932

Asli Uçar 0000-0001-9724-9571

Publication Date October 30, 2023
Submission Date March 20, 2023
Published in Issue Year 2023 Volume: 21 Issue: 3

Cite

APA Özgür, M., & Uçar, A. (2023). Effect of D-Allulose Use as a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes. Akademik Gıda, 21(3), 220-232. https://doi.org/10.24323/akademik-gida.1382915
AMA Özgür M, Uçar A. Effect of D-Allulose Use as a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes. Akademik Gıda. October 2023;21(3):220-232. doi:10.24323/akademik-gida.1382915
Chicago Özgür, Mustafa, and Asli Uçar. “Effect of D-Allulose Use As a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes”. Akademik Gıda 21, no. 3 (October 2023): 220-32. https://doi.org/10.24323/akademik-gida.1382915.
EndNote Özgür M, Uçar A (October 1, 2023) Effect of D-Allulose Use as a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes. Akademik Gıda 21 3 220–232.
IEEE M. Özgür and A. Uçar, “Effect of D-Allulose Use as a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes”, Akademik Gıda, vol. 21, no. 3, pp. 220–232, 2023, doi: 10.24323/akademik-gida.1382915.
ISNAD Özgür, Mustafa - Uçar, Asli. “Effect of D-Allulose Use As a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes”. Akademik Gıda 21/3 (October 2023), 220-232. https://doi.org/10.24323/akademik-gida.1382915.
JAMA Özgür M, Uçar A. Effect of D-Allulose Use as a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes. Akademik Gıda. 2023;21:220–232.
MLA Özgür, Mustafa and Asli Uçar. “Effect of D-Allulose Use As a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes”. Akademik Gıda, vol. 21, no. 3, 2023, pp. 220-32, doi:10.24323/akademik-gida.1382915.
Vancouver Özgür M, Uçar A. Effect of D-Allulose Use as a Sugar Substitute on Some Physicochemical, Textural and Sensory Properties of Cakes. Akademik Gıda. 2023;21(3):220-32.

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