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Wheat is harvested in a short period of time, but it takes several months to be processed and consumed. So wheat flour needs to be stored in suitable condition to retain its good quality for nutrition and industrial uses. On the other hand, exposure of wheat under improper conditions may deteriorate the quality resulting in high economic losses. In this study accelerated ageing of wheat grains was carried out by increasing moisture content (16, 18 and 20%) and keeping the samples in different temperatures (30, 40 and 50°C) for different periods (2, 5 and 8 days).Samples were then milled and physicochemical properties including moisture content, protein, ash, wet gluten, pH and falling number were determined. Response surface methodology with central composite design was applied to minimize total numbers of experimental runs and to determine the significance of the factors.Results showed that increasing storage temperature and time resulted in increasing protein, falling number and ash, while wet gluten, pH and moisture content decrease. By increasing moisture content, wet gluten, protein, ash and falling number decreased while moisture content and pH increased. Optimization using response surface methodology showed that the optimum condition for accelerated ageing of wheat grain contained 16% moisture content, storage temperature of 40.74°C for 2.57 days.

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Food fortification for the prevention and treatment of micronutrient deficiency disorders is one of the most widely methods that because of its low cost and no need to change dietary habits was used all around the world. In grain fortification, immersion and spraying methods are usually used, and extrusion processes are used for cereal flour. In extrusion fortification method, the used extensions are into the food matrix so their output during different processing stages is less than other enrichment methods. In this study, rice reconstituted by extrusion cooking method, was enriched with vitamin D₃ (100000 IU/g) at concentrations of 2.5, 5, 7.5 and 10 µg/100g and Zinc (as Zinc oxide) concentrations of 5, 10, 15 and 20 mg/100g and then remaining of Vitamin D3 and Zinc were measured before and after extrusion and before and after cooking in 30 days intervals during 180 days storage period. According to the results, storage period and also the cooking process at all initial concentrations have a significant effect (p<0.5) on Vitamin D₃ and Zinc stability of extruded fortified rice so that the average content of Vitamin D₃ and Zinc at the end of storage period of 180 days showed a loss of 32.9 and 11.3% (before cooking), 38.9 and 24.0% (after cooking), respectively but these materials had a good stability during the extrusion process. Overall, during the different processing stages, the average content of Vitamin D₃ and Zinc showed a loss of 87.1 and 39.0%, respectively.
 

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 This study was tested to evaluate the influences of different maize starches (native, modified with sonication, pre–gelenized, Heat Resistant) replacement in batter coating, based on factorial experiments in a completely randomized design to determine the best formulation of breadcrumbs. Samples were sonicated with 70 kHz for 5 minutes and a fryer equipped with a temperature controller (150, 190 and 170 degrees centigrade) and time (1, 3 and 5 minutes) was used for frying. Quality parameters (texture, Crust color values, oil absorption, sensory properties) of chicken nugget were measured during frying.Obtained result indicated that addition of ultrasound pretreatment batters and temperature influenced in texture hardness reduction of nuggets. Oil content of whole nuggets was found to decrease significantly (P< 0.05) with frying time and temperature. Chicken nuggets with native maize starch compared to control ones showed better scores for organoleptic properties. Color evaluation in samples containing native and sonication pretreatment showed significant (P< 0.05) reduction in a* and b* values at 3 minute frying, whereas L* values were significantly (P< 0.05) increased compared to control treatments at 170 and 190° c. Samples hardness was decreased due to frying temperature.

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The demand of low-fat and reduced-fat product has greatly increased due to consumer’s awareness of the relationship between diet and health. This has led the dairy food industry to continuously work on formulating and developing “functional dairy foods” with good textural qualities. In this research, the influence of different levels of Alyssum homolocarpum seed gum (AHSG) (0-1%) and Flaxseed gum (FG) (0-1%) on the physicochemical, sensory and microbial properties of low-fat synbiotic cream cheese during 45 days of storage were evaluated. The results showed that AHSG and FG increase caused significant increment in moisture content, hardness, springiness, adhesiveness and spreadability of samples. Evaluation of the organoleptic properties showed that addition of AHSG and FG caused a double impact on the sensory properties, and sensory parameters improved up to medium concentrations of AHSG and FG. Results showed that during the storage, acidity increased while pH, hardness, springiness, adhesiveness and spreadability were decreased. Based on the probiotic count test, only optimized sample had the amount of probiotic bacteria in the standard range at the end of storage time. The findings of this study showed that incorporation of AHSG and FG into the formulation of low-fat synbiotic cream cheese could be an effective strategy to overcome the problems associated with fat reduction.

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In the present study, to optimize the lycopene and phenolic compounds extraction from tomato paste, pulsed electric field in different intensities including 2, 4, 6 KW. Cm^-1 and different pulse numbers including 10, 30, 60 were designed and applied. Therefore the extraction efficiency of lycopene and phenolic compounds, DPPH free radical scavenging activity as well as ferric reducing activity of the extracted oil were predicted. The statistical analysis and optimization process with the use of response surface methodology were performed. The achieved results presented that with enhancements in pulsed electric field intensity, at the beginning parameters including the efficiency of lycopene extraction and phenolic compounds extraction, DPPH free radical scavenging activity and ferric reducing power increased and then showed reductions. With enhancements in pulse number, at the beginning lycopene extraction slightly decreased then showed enhancements, but the phenolic compounds extraction rate as well as DPPH free radical scavenging activity increased slightly. The achieved results of optimization process expressed that to obtain extracts with high quantities of lycopene and phenolic compounds, pulsed electric field and pulse number should be set on 3.7 KW. Cm^-1 and 6 respectively to achieve the desirability value equals to 0.915. Finally the achieved results of the comparison of control sample with the treated ones expressed that,  treated sample with pulsed electric field presented higher quantities for the extracted lycopene and phenolic compounds, DPPH free radical scavenging activity as well as reducing power (111.4, 45.64, 146.28 and 73.43) compared to the standard samples.

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The use of quinoa seeds and its derivatives in the bakery products formulation, in addition to improving the nutritional value of the final product, reduces dependence on plant sources with high water requirements such as wheat and rice, so in this study the effect of rice flour replacement by whole quinoa enzymatic malt at levels of 0, 2.5, 5, 7.5 and 10% on physicochemical and textural properties and internal structure of gluten-free bread was investigated. The results showed that by increasing the amount of quinoa malt (up to 10%) in the product formulation no significant effect on moisture content and water activity was observed. However, the firmness of the texture in 2 and 72h after baking increased by 10% of quinoa malt. Also, the specific volume and porosity of the product was reduced only at level of 10% of quinoa malt flour. On the other hand, by increasing the amount of quinoa malt flour, the enthalpy of the samples decreased (2 and 72h after baking), while the enthalpy increased with increasing product storage time. The results of crust color evaluation showed a decrease in the amount of L* value and an increase in the amount of a* and b* values by increasing the amount of malt flour in the formulation, which indicates more turbidity of the product. The results of images obtained by Scanning Electron Microscope showed the average values ​​of diameter and pore area of ​​the product decreased by addition quinoa malt. Finally, the panellists gave the highest overall acceptance score to three samples containing 0, 2.5 and 5% of quinoa malt, which indicates the improvement of quantitative and qualitative properties of the final product using enzymatic derivatives and gluten-free quinoa.

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The objective of this study was to make optimum use of hops medicinal plant as a flavoring compounds (bitter taste) and extract bioactive compounds. To optimize the extraction efficiency, total phenolic compounds (TPC), bitter taste compounds (α and β acids) and antioxidant activity (inhibition of DPPH free radicals, ferric reducing/antioxidant power) with ultrasound – assisted methods, the Box-Behnken design was used. Sonication exposure time (5, 15 and 25 min), extraction temperature (25, 35 and 45 C) and ultrasound amplitude (20, 60 and 100%) were considered as variables for the extraction of bioactive compounds. The results showed that with increasing the time and intensity of sonication, the extraction efficiency, the amount of bioactive compounds and the antioxidant power of the extract increased; while the extraction rate and antioxidant activity of the extracts decreased with increasing temperature. According to the resulting models, in the optimal conditions of extraction with ultrasound- assisted process (extraction time 12.73 min, extraction temperature 25 C and sonication amplitude 100 %), the extraction efficiency (16.5 %), TPC (75. 1191 mg/100 g), bitter taste compounds (α and β acids 1.01 and 3.09 mg/l respectively) and antioxidant activity (based on DPPH free radical scavenging and reducing power Iron was obtained 40.70% and 409.87 µmol/liter, respectively), higher than the conventional extraction method (maceration, control). Extraction at the optimal point confirmed the obtained results.
 

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Oxidation of fats in food greatly reduces their shelf life and causes food of unacceptable quality to be presented to the customer. In this regard, this research was conducted with the aim of increasing the oxidative stability of sesame oil with nanoliposomes containing the antioxidant extract of yarrow plant. In this study, 6 concentrations of nanoliposomes containing yarrow plant extract (0, 50, 100, 200, 500 and 1000 ppm) were used in sesame oil, and tests such as acidity, peroxide, thiobarbituric acid index, conjugate diene were performed on those oils. And after finding the best concentration of nanoliposome containing yarrow extract, this sample was compared with the sample containing the same amount of free yarrow extract and also the sample with 200 ppm BHT after 7 days of storage at 63 degrees Celsius. The results showed that with increasing storage time, acidity level, thiobarbituric acid index and conjugate diene increased, but with the increase of nanoliposome containing 500 ppm of yarrow extract, these characteristics decreased and then increased. Unlike other characteristics, the peroxide content of the samples decreased from the 5th day onwards. On the other hand, it was found that the sample containing 500 ppm of free yarrow extract had the highest level of acidity, peroxide, thiobarbituric acid index and conjugate diene. The highest oxidative stability (14.21 hours) belonged to the oil with nanoliposome containing 500 ppm of yarrow extract. The dominant fatty acid in sesame oil containing nanoliposome as well as control was linoleic acid, and the use of antioxidants did not significantly change the fatty acid profile of sesame oil. Finally, it can be stated that the use of nanoliposome containing yarrow plant extract is a suitable alternative for synthetic antioxidants available in the market.
 

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The purpose of this research was to study the inhibitory effect of different levels of black seed ethanol extract on the growth of mold in lactic cheese. For this purpose, first, one kilogram slices of ready-made cheese and different concentrations of the extract (including: 0, 1, 2 and 3%) were taken. added to them. The physicochemical, textural and sensory characteristics of the samples were evaluated on days 1, 15, 30, 45 and 60. The results indicated an increase in the pH of the samples compared to the control sample. The amount of moisture in the samples first decreased and then increased during storage. The results related to cheese texture hardness showed that the highest and lowest texture hardness was related to 0, 1, 2, and 3 percent extracts on the 60th day and the control sample on the first day, respectively. Also, the highest amount of elasticity was found in the sample of 3% black seed extract on the 60th day and the lowest amount in the control sample on the first day.There was a significant difference in the amount of phenolic compounds in cheese samples with black seed extract compared to the control sample (P<0.05). Examination of microbial characteristics showed that mold and yeast counts were negative in all samples.
 

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