Impact of Transglutaminase Enzyme on some Characteristics of Strained Yoghurt Prepared from Cow and Buffalo Milk Mixture

Document Type : Complete scientific research article

Authors

1 1Professor, Department of Food Science and Technology, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Iran

2 Assistant Professor, Department of Food Science and Technology, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Iran

3 Associate Professor, Department of Food Science and Technology, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Iran

4 M.Sc., Department of Food Science and Technology, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Iran

Abstract

Background and objective: Strained or concentrated yoghurt is a traditional milk product that its popularity and consumption has increased during recent years due to its higher nutritional value, longer shelf life, desirable textural and sensory properties, and today it is widely produced industrially. This product can be produced from many different animal milks such as buffalo, cow, goat, ewe and camel. The milk of various animals differs in composition and therefore this factor can affect the characteristics of the final product. Identical to the other dairy products, strained yoghurt manufactured from buffalo milk has the higher quality than those produced from cow milk due to the higher total solids and fat content; but its utilization has limited because of its higher cost. Transglutaminase enzyme (TG), by createing inter- and intra-molecular cross linkages among proteins is known as an effective strategy to improve the functional properties of dairy products. TG treatment has been considered as a practical technique instead of increasing the total solids of utilized milk (by adding skim milk powder). Therefore, the aim of this study was to investigate the effect of TG enzyme treatment on physicochemical and sensory properties of strained yoghurt prepared from cow and buffalo milk mixture and to introduce the best product with the lower buffalo milk substitution (the lower of cost).

Materials and methods: Strained yoghurt samples with different amounts of buffalo milk replacement with cow (0, 25, 50, 75 and 100%, v/v) and using TG enzyme (0 and 0.015%, w/v) were produced and 10 experimental treatments evaluated for physicochemical (pH, acidity (% lactic acid), syneresis (%) and dry matter (%)) and sensory properties (texture, colour, odour and flavour) during 21 days of storage (1, 7, 14 and 21 days) under refrigeration conditions. The obtained mean values were analyzed using a random factorial design and compared by Duncan test at 5% level.

Results: The results showed that increasing the substitution amount of buffalo milk with cow milk caused a significant increase in acidity and dry matter while it expressively reduced the pH and syneresis of yoghurt samples (p<0.0001). Also, with increasing the TG enzyme concentration, the amount of acidity and syneresis decreased and the pH increased significantly (p<0.0001), but this variable had no significant effect on dry matter (p>0.005). Over time, the pH decreased significantly and its initial value of 4.11 at the first day of storage reached to 3.98 at the end of 21 days of storage. The initial values of acidity, dry matter and syneresis as 0.98%, 20.69% and 4.45% increased till the end of storage and reached to 1.23%, 22.16% and 10.35%, respectively. In terms of sensory acceptability, increasing the concentration of enzyme caused a significant increase in texture score of the samples (p<0.0001), while the enzyme had no significant effect on other sensory scores of the samples. With increasing the mixing rate of buffalo milk, the texture, colour and flavour scores of the samples increased significantly (p<0.0001) and the aroma score decreased (p<0.0001). Furthermore, during the storage period, the sensory properties of the samples decreased significantly (p<0.0001).

Conclusion: According to the results of this study, by replacing 75% of buffalo milk with cow milk and using transglutaminase enzyme treatment (0.015%), it is possible to produce a strained yoghurt with suitable quality characteristics.

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Main Subjects

References

  1. Ahmad, S., Anjum, F.M., Huma, N., Sameen, A., and Zahoor T. 2013. Composition and physicochemical characteristics of buffalo milk with particular emphasis on lipids, proteins, minerals, enzymes and vitamins. Journal of Animal and Plant Sciences. 23(1 Suppl.) 62-74.
  2. Dimitreli, G., Exarhopoulos, S., Antoniou, K.K., Zotos, A., and Bampidis, V.A. 2017. Physicochemical, textural and sensory properties of white soft cheese made from buffalo and cow milk mixtures. International Journal of Dairy Technology. 70:4.506-513.
  3. Yilmaz-Ersan, L., Ozcan, T., Akpinar-Bayizit, A., and Delikanli-Kiyak, B. 2017. The characterization of the textural and sensory properties of buffalo milk yogurts. International Journal of Advances in Science Engineering and Technology. 5:3.37-42.
  4. Petridis, D., Dimitreli, G., Vlahvei, K., and Deligeorgakis, C. 2014. Effects of buffalo and cow milk mixtures enriched with sodium caseinates on the physicochemical, rheological and sensory properties of a stirred yogurt product. Journal of Food Research. 3:6.54.
  5. Dinkci, N. 2012. The influence of transglutaminase treatment on functional properties of strained yoghurt. Journal of Animal and Veterinary Advances. 11:13.2238-2246.
  6. Kouravand, F., Jooyandeh, H., Barzegar, H. and Hojjati, M. 2017. Characterization of cross‐linked whey protein isolate‐based films containing Satureja khuzistanica Jamzad essential oil. Journal of Food processing and preservation. 42:3.e13557: 1-10.
  7. Milanović, S.D., Carić, M.Đ., Đurić, M.S., Iličić, M.D., and Duraković, K.G. 2007. Physico-chemical properties of probiotic yoghurt produced with transglutaminase. Acta Periodica Technologica. 38.45-52.
  8. Ozer, B., Kirmaci, H.A., Oztekin, S., Hayaloglu, A., and Atamer, M. 2007. Incorporation of microbial transglutaminase into non-fat yogurt production. International dairy journal. 17: 3.199-207.
  9. Iličić, M.D., Milanović, S.D., Carić, M.Ð., Dokić, L.P., and Kanurić, K.G. 2014. Effect of transglutaminase on texture and flow properties of stirred probiotic yoghurt during storage. Journal of Texture Studies. 45:1.13-19.

10.Danesh, E., Jooyandeh, H., and Goudarzi, M. 2017. Improving the rheological properties of low-fat Iranian UF-Feta cheese by incorporation of whey protein concentrate and enzymatic treatment of transglutaminase. Iranian Journal of Food Science and Technology. 14:67.285-298. (In Persian)

11.Torabi, F., Jooyandeh, H., and Noshad, M. 2021. Evaluation of physicochemical, rheological, microstructural, and microbial characteristics of synbiotic ultrafiltrated white cheese treated with transglutaminase. Journal of Food Processing and Preservation. 45: e15572.1-11.

  1. Jooyandeh, H., Danesh, E., and Goudarzi, M. 2017. Effect of microbial transglutaminase on physical, rheological, textural and sensory properties of light ice cream. Iranian Journal of Food Science and Technology. 13:4.469-479. (In Persian)

13.Jooyandeh, H., Namvar, H., Niakosari, M., and Hojjati, M. 2017. Effect of enzymatic treatment of milk by transglutaminase on physical properties of low fat milk powder. Iranian Journal of Food Science and Technology. 14:66.131-143. (In Persian)

14.Shirkhani, M., Madadlou, A., and Khosrowshahi, A. 2015. Enzymatic modification to stabilize the fermented milk drink, doogh. Journal of Texture Studies. 46.22e33.

15.Beirami, F., Hojjati, M. and Jooyandeh, H. 2021. The effect of microbial transglutaminase enzyme and Persian gum on the characteristics of traditional kefir drink. International Dairy Journal. 112.1-13 (104843).

16.Şanlı, T., Sezgin, E., Deveci, O., Şenel, E., and Benli, M. 2011. Effect of using transglutaminase on physical, chemical and sensory properties of set-type yoghurt. Food Hydrocolloids. 25:6.1477-1481.

17.Farnsworth, J.P., Li, J., Hendricks, G.M., and Guo, M.R. 2006. Effects of transglutaminase treatment on functional properties and probiotic culture survivability of goat milk yogurt. Small Ruminant Research. 65:1-2.113-121.

  1. Gauche, C., Tomazi, T., Barreto, P.L.M., Ogliari, P.J., and Bordignon-Luiz, M.T. 2009. Physical properties of yoghurt manufactured with milk whey and transglutaminase. LWT-Food Science and Technology. 42:1.239-243.

19.Ziarno, M. and Zaręba D. 2020. The effect of the addition of microbial transglutaminase before the fermentation process on the quality characteristics of three types of yogurt. Food Science and Biotechnology 29:109–119.

20.Yademellat, M., Jooyandeh, H., and Hojjati, M. 2018. The effect of application of Persian and Balangu-Shirazi gums on textural properties of low-fat stirred yogurt. Journal of Food Research. 27:4.171-181. (in Persian)

  1. Oner, Z., Karahan, A.G., Aydemir, S., and Aloglu, H.S. 2008. Effect of transglutaminase on physicochemical properties of set-style yogurt. International Journal of Food Properties. 11:1.196-205.

22.Institute of Standards and Industrial Research of Iran. 1993. Milk and Milk products – Determination of titrable acidity and value pH (Test method). ISIRI No. 2852. 1rd revision, Karaj. (In Persian)

23.AOAC. 2002. Official Methods of Analysis of AOAC International, 17th ed. AOAC International, Gaithersburg, MD.

24.Stone, H., and Sidel, J.L. 2004. Sensory Evaluation Practices”, 3rd ed., Oxford: Academic. p. 377.

25.Jooyandeh, H. and Minhas K.S. 2009. Effect of Addition of Fermented Whey Protein Concentrate on Cheese Yield and Fat and Protein Recoveries of Feta Cheese.  Journal of Food Science and Technology. 46:3.221-224.

26.Tamime, A.Y., and Robinson, R.K. 2007. Yoghurt: Science and Technology. 4th ed., Woodhead Publishing, UK.

27.Hasani Zaferani, S., Aminifar, M., and Moslehi Shad, M. 2017. The study on relationship between microstructure and technological properties of yoghurt produced from different types of milk during storage. Iranian Jornal of Biosvstems Engineering. 48:4.457-465. (In Persian)

28.Aloğlu, H.Ş., and Öner, Z. 2013. The effect of treating goat's milk with transglutaminase on chemical, structural, and sensory properties of labneh. Small Ruminant Research. 109:1.31-37.

29.Arianfar, A., Sardroodian, M., and Abdullahi, H. 2017. Investigation of Aloe Vera gel powder on physicochemical and sensory properties of non-fat concentrated yogurt. Journal of Innovation in food Science and Technology. 9:4.75-87. (In Persian)

30.Heidari, M., Jahadi, M., Fazel, M., and Ghasemi-Sepero, N. 2017. The Effect of Amaranthus cruentus Grain Powder on Quality Properties of Strained Yoghurt. Iranian Journal of Food Science and Technology. 14:65.271-284. (In Persian)

31.Akgun, A., Yazici, F., and Gulec, H.A. 2016. Effect of reduced fat content on the physicochemical and microbiological properties of buffalo milk yoghurt. LWT-Food Science and Technology. 74. 521-527.

32.Lucey, J.A. 2004. Cultured dairy products: an overview of their gelation and texture properties. International Journal of Dairy Technology. 57: 2‐3.77-84.

33.Vareltzis, P., Adamopoulos, K., Stavrakakis, E., Stefanakis, A., and Goula, A.M. 2016. Approaches to minimise yoghurt syneresis in simulated tzatziki sauce preparation. International Journal of Dairy Technology. 69: 2.191-199.

35.Razmkhah Sharbiani, S., Razavi, S.M.A., Behzad, K., and Mazaheri Tehrani, M. 2010. The effect of pectin, Basil seed gum and Sage seed gum on physicochemical and sensory characteristics of non-fat concentrated yoghurt. Iranian Food Science and Technology Research Journal. 6:1.27-36. (In Persian)

36.Ikram, A., Raza, S.Q., Saeed, F., Afzaal, M., Munir, H., Ahmed, A., Bin Zahid, M.B., and Muhammad Anjum, F. 2021. Effect of adding Aloe vera jells on the quality and sensory properties of yogurt. Food Science and Nutrition. 9:1.480-488.‏

37.Ababaf, K., Jooyandeh, H., and Nasehi, B. 2020. Effect of transglutaminase enzyme treatment on the physicochemical and microbial properties of synbiotic soy yogurt. Journal of Food Research. 30:3.189-201. (In Persian)

38.Ismail, M.M., Ghoneem, G.A., EL-Boraey, N.A.L., Tabekha, M.M., and Elashrey, H.F. 2017. Effect of mixing soy milk with buffalo or cow milk on the chemical composition, microbial properties and sensory evaluation of yoghurt. Journal of Biotechnology Research. 3:7.56-65.

39.Mohameed, H.A., Abu-Jdayil, B., and Al-Shawabkeh, A. 2004. Effect of solids concentration on the rheology of labneh (concentrated yogurt) produced from sheep milk. Journal of Food Engineering. 61:3.347-352.

40.Hanif, M.S., Zahoor, T., Iqbal, Z., and Ihsan-ul-Haq, A.A. 2012. Effect of storage on rheological and sensory characteristics of cow and buffalo milk yogurt. Pakistan Journal of Food Sciences. 22:2.61-70

41.Lorenzen, P.C., Neve, H., Mautner, A., and Schlimme, E. 2002. Effect of enzymatic cross‐linking of milk proteins on functional properties of set‐style yoghurt. International Journal of Dairy Technology. 55: 3.152-157.

42.Jooyandeh, H., and Mortazavi, A. 2019. Impact of addition of milk powder and microbial transglutaminase (TG) on the sensory and textural properties of set yoghurt. Electronic Journal of Food Processing and Preservation. 10:2.121-136. (In Persian)

43.Han, X., Lee, F.L., Zhang, L., and Guo, M.R. 2012. Chemical composition of water buffalo milk and its low-fat symbiotic yogurt development. Functional Foods in Health and Disease. 2:4.86-106.

44.Routray, W., and Mishra, H.N. 2011. Scientific and technical aspects of yogurt aroma and taste: a review. Comprehensive Reviews in Food Science and Food Safety. 10:4.208-220.

Food Processing and Preservation Journal
Volume 14, Issue 2
December 2022
Pages 17-34

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