@article { author = {Amiri, Soheil and Khomeiri, Morteza and Alami, Mehran}, title = {Possibility of using Tragacanth gum and whey powder as an egg substitute in mayonnaise}, journal = {Iranian Food Science and Technology Research Journal}, volume = {12}, number = {1}, pages = {49-60}, year = {2016}, publisher = {Ferdowsi University of Mashhad}, issn = {1735-4161}, eissn = {2228-5415}, doi = {10.22067/ifstrj.v1395i1.28212}, abstract = {Introduction: Mayonnaise is typical oil in water emulsion prepared from vegetable oil, egg yolk, vinegar, sugar, salt, mustard and a variety of food additives. Among its ingredients, egg yolk is most critical in term of stability of the mayonnaise. Nevertheless, one main problem with egg yolk is its high cholesterol content; therefore different attempts have been carried out to develop low cholesterol sauces with similar characteristics to the real mayonnaise. Employing another emulsifier in addition to egg yolk, or completely replace this important ingredient, provides several advantages, including a decrease in cholesterol content. Therefore, several protein products such as whey and soy protein have been evaluated as emulsifying agents in oil / water emulsions. On the other hand, to achieve mayonnaise with appropriate emulsion properties and high stability, several investigations have been conducted mostly using proteins with various emulsifiers and gums such as xanthan and guar gums. According to the studies identified, whey powder and Tragacanth gum have considerable emulsification and consistency properties. Therefore, the goal of this research was to investigate of the effect of gum tragacanth and whey powder as an emulsifying agent in mayonnaise. Material and methods:Raw materials characterizationRaw materials wereused in this research in order to production of mayonnaise included vegetable oil (alia GolestanCompany), water, egg, vinegar (varda company), spices, gum tragacanth (herbal local market in gorgan city) and whey powder (Pegah dairy company).pH measurement and stability testpH was determined using AOAC standard method (AOAC 2005) at 25 °C. The samples were assessed for the stability test after 24 h storage at 35 °C. Mayonnaise stability was determined after centrifugation (10 min, 2,500 rpm), and was expressed as the volume of separated phase to the total emulsion volume.Color measurementMayonnaise samples were measured for color in the L*, a*, b* system using a Lovibond Colorimeter (Lovibond CAMSystem500).Sensory analysisAfter 1 day storage Sensory characteristics including appearance, color, odor, texture, taste, and overall acceptability were evaluated by 14 semi-trained panel on 5-point hedonic scale (1 0 the least or the lowest; 5 0 the most or the highest).Viscosity measurementViscosity measurements were performed after 24 h storage using a Brookfield viscometer Model RVDV-II(Engineering Lab Inc., Stoughton, Mass., U.S.A) with a spindle no.7 at 25°C.Texture analysisMayonnaise samples were stored in refrigerator for 24 h until texture analysis. The measurements were carried out using a Brookfield texture analyzer (Brookfield LFRA texture analyzer model number 4500 texture prolite) equipped with a 38 mm diameter cylindrical probe at 25 °C.Statistical analysisIn this study, to evaluate the effect of gum Tragacanth and whey powder on physicochemical and sensory characteristics of low cholesterol mayonnaise, statistical design was used by statistical software minitab (16) which eventually combining multiple of 10 mixed were obtained and also to draw the charts and calculation software Excel 2010 and minitab (16) were used. For this purpose, to show the relationship of each of the dependent variables in the regression model with independent variables, their mixed contour diagram was drawn by the mentioned software from the appropriate equations and also to model data, the coefficient of determination of R2 model was determined.Results and Discussions: The results of physicochemical, rheological and sensory tests of low cholesterol mayonnaise have been illustrated in table 1. In terms of stability, viscosity and textural properties, samples containing whey powder and gum tragacantwere appropriate as an egg substitute. Except M5, M8 and M10 samples, other samples were stable, completely. On the other hand, the maximum and minimum viscosity was observed in M6 and M5, respectively. The highest preference belonged to M9.Table 1 – Experimental results for viscosity, hardness, adhesiveness, cohesiveness, stability and total acceptability for each sample.sample Viscosity(cp) Hardness(g) Adhessivness(mj) Cohesiveness Stability (%) L* acceptabilityM1 8460 213 6.6 0.66 100 81.2 4.28M2 8615 215.6 6.7 0.65 100 77.6 4M3 9390 223.2 7.4 0.63 100 77.3 4.14M4 10910 268.5 9 0.63 100 77.6 3.71M5 4315 100.6 4.9 0.76 54.3 70.2 4.14M6 13998 301.5 18.2 0.63 100 78.4 4.28M7 9925 240 7.7 0.65 100 77.3 4.28M8 5580 125 5.3 0.69 58.5 74.1 4.28M9 9700 226.5 7.6 0.66 100 70.2 4.57M10 5505 111 5.2 0.71 78.7 65.1 4.28The numbers were obtained from 3 replications.Considering optimization of low cholesterol mayonnaise formulation and study of its properties, it was revealed that 2.17 g egg, 5.28 g whey powder and 2.74 g tragacanth was an appropriate mixture in order to substitute egg in mayonnaise and making of low cholesterol product.}, keywords = {Tragacanth gum,Optimization,Whey Powder,mayonnaise}, title_fa = {امکان استفاده از صمغ کتیرا و پودر آب‌پنیر به‌عنوان جایگزین تخم مرغ در فرمولاسیون سس مایونز}, abstract_fa = {در این پژوهش امکان استفاده از پودر آب‌پنیر و صمغ کتیرا به‌عنوان جایگزین تخم مرغ در سس مایونز موردمطالعه قرار گرفت. به‌منظور بهینه‌یابی فرمولاسیون سس مایونز کم کلسترول، از طرح آماری مخلوط استفاده شد. تیمارها با ترکیب تخم مرغ (0-10 گرم)، پودر آب‌پنیر (0-10 گرم) و ژل صمغ کتیرا (0-10 گرم) با استفاده از نرم‌افزار مینی‌تب تعیین شد و پایداری، ویسکوزیته، ویژگی‌های حسی و بافتی سس مایونز کم‌کلسترول موردبررسی قرار گرفت. نتایج آزمون پایداری نشان داد که به‌استثنای نمونه‌های M5 (تخم مرغ صفر، صمغ کتیرا صفر و 10 گرم پودر آب‌پنیر)، M8 (تخم مرغ صفر، 10 گرم صمغ کتیرا و پودر آب‌پنیر صفر) و M10 (تخم مرغ صفر، 5 گرم صمغ کتیرا و 5 گرم پودر آب‌پنیر) سایر نمونه‌ها صد در صد پایدار بودند. به‌لحاظ ویسکوزیته بیشترین و کمترین مقدار به‌ترتیب در نمونه‌های M6 (33/3 گرم تخم مرغ ، 33/3 گرم صمغ کتیرا و 33/3 گرم پودر آب‌پنیر) و M5 (تخم مرغ صفر، صمغ کتیرا صفر و 10 گرم پودر آب‌پنیر) مشاهده شد. از نظر سفتی و چسبندگی بیشترین مقدار متعلق به نمونه M6 (33/3 گرم تخم مرغ ، 33/3 گرم صمغ کتیرا و 33/3 گرم پودر آب‌پنیر) و کمترین مقدار در نمونه M5 (تخم مرغ صفر ، صمغ کتیرا صفر و 10 گرم پودر آب‌پنیر) بود. بیشترین میزان روشنی نیز در نمونه M1 (5 گرم تخم مرغ ، 5 گرم صمغ کتیرا و پودر آب‌پنیر صفر) مشاهده شد. درنهایت نتایج حاصل از بهینه‌یابی فرمولاسیون نشان داد که مقادیر 17/2 گرم تخم مرغ، 28/5 گرم صمغ کتیرا و 74/2 گرم پودر آب‌پنیر ، ترکیب مناسبی جهت جایگزینی تخم مرغ در سس مایونز و تولید فرآورده کم‌کلسترول می‌باشد.}, keywords_fa = {سس مایونز,صمغ کتیرا,بهینه‌یابی,پودر آب‌پنیر}, url = {https://ifstrj.um.ac.ir/article_35177.html}, eprint = {https://ifstrj.um.ac.ir/article_35177_1860aca29fa051503fed9b9bab609b2c.pdf} }