با همکاری انجمن علوم و صنایع غذایی ایران

نوع مقاله : مقاله پژوهشی

نویسندگان

1 گروه علوم و صنایع غذایی، واحد ورامین- پیشوا، دانشگاه آزاداسلامی، ورامین، ایران.

2 گروه زراعت و اصلاح نباتات، واحد ورامین- پیشوا، دانشگاه آزاداسلامی، ورامین، ایران.

چکیده

استفاده از برخی افزودنی‌ها نظیر خمیرترش وآنزیم‌ها می‌توانند در بهبود کیفیت نان‌ها بسیار موثر واقع شوند. در تحقیق حاضر تاثیر آنزیم آلفاآمیلاز و خمیرترش لاکتیکی بر خواص کیفی نان‌های تست مورد بررسی قرار گرفت. سطوح مصرفی شامل 01/0و 03/0 درصد آنزیم آلفاآمیلاز همچنین 4و 6 درصد خمیر ترش لاکتیکی بودند. بررسی نتایج نشان داد که افزودن آنزیم آلفاآمیلاز و خمیرترش لاکتیکی سبب افزایش میزان رطوبت، فیبر، خاکستر وکاهش میزان چربی و پروتئین درنمونه‌های حاوی افزودنی‌های مذکور نسبت به نمونه شاهد می‌گردد ضمن آنکه افزودن مواد مذکورسبب بهبود ویژگی‌های حسی نان‌های تولیدی شد به‌نحوی که توانست قابلیت جویدن، تناسب شکل، عطر و بو، بافت و رنگ پوسته را نسبت به نمونه شاهد بهبود بخشد و بیاتی حسی و دستگاهی را کاهش دهد. سایر نتایج نیز نشان داد که کاربرد آنزیم آلفاآمیلاز وخمیرترش لاکتیکی بر بهبود ویژگی‌های رنگ‌سنجی، حجم‌سنجی و بافت‌سنجی نان‌های تولیدی در مقایسه با نمونه شاهد تاثیر معنی‌داری دارد. در نهایت با توجه به نتایج آزمون‌های به‌عمل آمده ، تیمار M4 که دارای بیشترین مقادیرآنزیم آلفاآمیلاز و خمیرترش لاکتیکی بود به‌عنوان بهترین تیمار در تحقیق حاضر معرفی شد.

کلیدواژه‌ها

عنوان مقاله [English]

Effect of Sourdough and α-amylase on qualitative properties of toast bread

نویسندگان [English]

  • Roya Nejatbakhsh 1
  • Sara Movahhed 1
  • Hossein Ahmadi Chenarbon 2

1 Department of Food Science, Varamin-Pishva Branch, Islamic Azad University, Varamin, Iran.

2 Department of Agronomy, Varamin - Pishva Branch, Islamic Azad University, Varamin, Iran.

چکیده [English]

Introduction: The quality of breads depends on the baking capability of flour, fermentation time, protein content, and type of additives. An economically important concern of the baking industry is delayingthe bread staling. In addition, the staling process changes outer and inner properties, scent, flavor, and chewiness of breads, which in turn leads to staled or, in other words, non-fresh breads. The application of lactic sourdough and/or other techniques such as improved dough making, improved baking quality, packaging, and use of additives and improvers can be highly effective in delaying this process. One of the additives that improve the properties of baked products is the α-amylase enzyme. α- amylase can improve the elastic properties of the texture while delaying staling. This enzyme can also form useful sugars for yeasts and increase gas formation in dough, which in turn improves and increases the bread volume. Against this background, the current study analyzed the effects of sourdough and α-amylase on qualitative characteristics, physicochemical properties, staleness, size and sensory profile of the toast breads.

Materials and methods: The ingredients of the toast bread dough, i.e. 78% wheat flour (1 kg), sugare (1-2 w/w%), salt (1.8-2.2%), oil (3-6%), yeast (1.5-2%), α-amylase (0.01-0.03%), lactic sourdough (4 and 6% of wheat weight), were prepared and weighed to make the dough required for the baking process. The dough samples were spread and then rolled after an initial resting of 10-15 minutes. The rolls (approx. 580 g) were transferred to a cast. The dough samples were finally moved to the fermentation chamber at 35°C and 80% relative humidity for final fermentation and baking. Their analyzed using different physical, chemical, and sensory tests. A completely randomized design with three replications was used to analyze experimental data (except for staleness data of bread samples from sensory and instrumental tests which were analyzed using factorial experiment with a completely randomized design). Means were compared by Duncan's multiple-range test (α = 1%) in SPSS 16.

Results and discussion: According to the results, α-amylase and lactic sourdough caused an increase in bread’s MC compared to the control samples. In other words, starch hydrolysis by α-amylase created free water in the dough. Moreover, sourdough increased water absorption of wheat through mechanisms including production of exopolysaccharides and increased production of pentosans. The application of α-amylase and lactic sourdough also increased the ash content of the breads compared to the control samples because they increased the production of dextrins and synthesis of exopolysaccharides. It should be mentioned that these additives decreased the pH of breads compared to the control samples. This is because the sourdough bacteria produced lactic, acetic and other acids that acidified the medium and reduced the pH. This enzyme also produced metabolites like dextrins and increased the amount of fermented active ingredients, which further reduced the pH. The proteolytic activity of lactic bacteria of the acid in sourdough led to decomposition of proteins, particularly gluten, into amino acids. This also reduced the protein content and diluted the gluten in breads. The results showed that the lactic acid bacteria of the sourdough hydrolyzed the fat control of bread samples by their lipase and thus lowered the fat content in bread samples compared to the control. The fiber content of samples was higher than that in the control as a result of enzyme and sourdough application. This is due to the fact that fermentation increases the pentosan content and reduces their molecular size. It also increased solubility of insoluble fibers like beta-glucans. On the other hand, their application led to larger bread size than the control because α-amylase hydrolyzes the starch and breaks the amylose and amylopectin chains to convert them into disaccharide substrates. Accordingly, yeasts could grow better and produce more CO2 in the dough, increasing the bread size. The application of this enzyme and lactic sourdough gave a brighter appearance to toast bread samples whereas a* and b* were reduced. This is because the bread undergoes changes in its crust color during the baking process, which are mainly caused by maillard and caramelization reactions. It is worth noting that these additives reduced the staleness of the samples. With respect to staling, the gluten content and its ratio to starch are highly effective. During the bread shelf life, as its kinetic energy decreases, the cross-linking increases and intensities. In other words, the bread becomes harder and staler. However, using α-amylase and sourdough, the bread hardness and staleness are decreased as the starch swelling is limited and cross-linking between protein and gluten is inhibited. These two additives improved most sensory properties including resistance to breakage and rupture, porosity, kernel color, crumb color, proportionality of shape, back-side uniformity, flavor, taste, texture, chewiness, and larger size of the bread samples. This reason for these improvements can be due to starch hydrolysis by α-amylase and production of dextrins and CO2. According to the results, the bread sample containing 0.03% α-amylase and 6% lactic sourdough was selected as the best sample.

کلیدواژه‌ها [English]

  • α-amylase
  • Lactic sourdough
  • Toast bread
  • Qualitative properties
Akbariyan Meymanad, M. J., Khomeiri, M., Sadeghi Mahoonak, A. R., Alami, M., Faraji Kafshgari, S., Vatan Khah, M. and Mahmoodi, E., 2016, Effect of sourdough on the quality of barbari bread. Journal of Food Science and Technology. 13 (51), 181-194.
Anonymous, 2003, Approved methods of the American Association of Cereal Chemists, S’t. Paul, MN. USA.
Anonymous, 1999, Iranian National Standard, No. 2338. Institute of Standards and Industrial Research of Iran, Specification and test methods for volume and semi volume breads.
Arendt, E. K., Ryan, L. A. M. and Bello, F. D., 2007, Impact of sourdough on the texture of bread. Food Microbiology. 24 (2), 165 - 174.
Azizi, M. H., Rajabzadeh, N. and Riahi, E., 2003, Effect of mono- diglyceride and Lecithin on dough rheological characteristics and quality of flat bread. LWT-Food Science and Technology, 36, 189-193.
Corsetti, A., Gobbetti, M., Balestrieri, F., Paletti, F., Russi, L. and Rossi, J., 1998, Sourdough lactic acid bacteria effects on bread firmness and staling. Journal of Food Science, 63, 347-351
Golshan Tafti, A., Peghambardoust, S. H., Behnam, F., Bahrami, A., Aghagholizadeh,R., Ghamari, M. and Rafat , S. A., 2013, Effects of spray-Dried Sourdough on Flour characteristics and Rheological Properties of dough.Czech Journal of Food Science, 31, 361-367.
Halima, N. B., Borchani, M., Fendri, I., Khemakhem, B., Gosset, D., Baril, P. and Abdelkafi, S., 2015, Optimised amylases extraction from oat seeds and its impact on bread properties. International Journal of Biological Macromolecules, 72, 1213-1221.
Katina, K., Poutanen, K. and Karin, A., 2004, Influence and interactions of processing conditions and starter culture on formation of acids, volatile compounds, and amino acids in wheat sourdoughs. Cereal Chemistry, 81(5), 598-610.
Katina, K., Salmenkallio-Marttila, M., Partanen, R., Forssell, P. and Autio, K., 2005, Effects of sourdough and enzymes on staling of high-fibre wheat bread. LWT-Food Science and Technology, 39(5), 479-491.
Kim, J. H., Maeda, T. and Morita, N., 2006, Effect of fungal α-amylase on the dough properties and bread quality of wheat flour substituted with polished flours. Food Research International,‌ 39(1), 117-126.
Lacaze, G., Wick, M. and Cappelle, S.‌, 2007, Emeging fermentation technologies: Developent of novel sourdough. Food Microbiology, 24, 155-160.
Lazaridou, A., Duta, D., Papageorgiou, M., Belc, N. and Biliaderis, C. G., 2007, Effects of hydrocolloids on dough rheology and bread quality parameters in gluten-free formulations. Journal of Food Engineering, 79, 1033-1047.
Loponen, J., Mikola, M., Katina, K., Sontag-Strohm T. and Salovaara, H., 2004, Degradation of HMW glutenins during wheat sourdough fermentations.Cereal Chemistry, 81, 87-93.
Majzoobi, M., Layegh, B. and Farahnaky, A., 2011, Effect of pectin and cross-linked pectin on characteristics of dough and pan bread. Journal of Food Research, 21(2), 141-269.
Mandala, I., Karabela, D. and Kostaropoulos, A., 2007, Physical properties of breads containing hydrocolloids stored at low temperature. Food Hydrocolloids, 21(8), 1397-1406.
Mortazavi, S. A., Shahidi, F., Sadeghi, A. and Sadeghi, B., 2015, Modeling of sourdough consistency and evaluation of its effect on Iranian breads properties as a function of specific starter culture fermentation conditions. Iranian Food Science and Technology Research Journal, 11(4), 296-308.
Movahed, S., Rooshenas, G. H. and Ahmadichenarbon, H., 2011. Evaluation of the effect of liquid sourdough method on dough yield, bread yield and organoleptic properties Iranian Lavash bread. World Applied Sciences Journal, 15(7), 1054-1058.
Movahed, S. 2012. Science of Bread. Marze Danesh Publications. Tehran, Iran; 188 pp. (In Farsi).
Movahed, S., Rooshenas, G. H. and Ahmadichenarbon, H., 2012, Evaluation of the effect of yeast- salt method on dough yield, bread yield and organoleptic properties Iranian Lavash bread. Annals of Biological Research, 3 (1), 595-600.
Movahhed, S., Mirzaei, N. and Ahmadi Chenarbon, H., 2012, Evaluation of additional barley flour and Lactobacillus plantarum (ATCC 43332) on quality properties of Toast Bread. Journal of Food Science and Technology, 9(37), 37-46.
Movahhed, S‌., Mirzaei, M., 2013, Evaluation of staling rate and Quality of Gluten-free Toast breads onrice flour basis. Reseaarch journal of Applied Sciences, Engineering and Technology, 5(01), 224-227.
Priscilla Nuernberg, R., Vivian, M. B. and Bordignon-Luiz, M. T., 2012, Effect of microbial transglutaminase on functionand rheological properties of ice cream with different fat contents. LWT-Food Science and Technology, 48, 224-230.
Rahimi, N., Karimi, M., Pour Azarang, H. and Mortazavi, S. A., 2015, Comparison of influence of acidic the improvers adding with sourdough on" Barbari Bread" staling score. Journal of Food Science and Technology, 12(47), 133-140.
Rajabzadeh, N. 2010. Bread Technology.University of Tehran Press, 341P. (In Farsi).
Ravi, R., Manhar, R. and Rao, P. H., 2000, Influence of additives on the rheological characteristics and baking quality of wheat flours. European Food Research and Technology, 2(10), 202-208.
Reed, G.‌, 2012, Enzymes in Food Processing. Elsevier Science Publishing. Co. Inc. New York.
Sadeghi, A., Shahidi, F., Mortazavi, S. A., Koocheki, A. and Mohebbi, M.‌, 2007, Evaluation of sourdough effect on Iranian Barbari staling, Department of food Science and Tecchnology, Faculty of Agricalture Ferdowsi University of Mashhad, 490-495.
Salehi Far, M., Shafi Soltani, M. and Hashemi, M., 2014, Effect of using of α- amylase fungal origin enzyme on qualitative characteristics of dough and Toast bread. Innovation in Science and Food Technology, 6(2), 43-54.
Wang, M., Vliet, T. V. and Hamer, R. J., 2005, Interaction of water unextractable solid and ‌ Xylanase with gluten protein .Jornal of Cereal Science, 41, 251-258.
Whitenhurst, R. J. and Oort, M. V., 2010, Enzymes in food technology. 2th edi, Indian: John Wiley Sons Publishing, PP 388.
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