Food Chemistry
Mohammad Taghi Golmakani; Gholam Reza Mesbahi; Nasireh Alavi; Azita Hosseinzade Farbudi
Abstract
Introduction: Food wastes and losses are produced during all phases of food life cycles. The highest wastes belong to the processing of fruits and vegetables. Bioactive compounds have the potential to be extracted from the by-products of fruits and vegetables which can be used in the food processing. ...
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Introduction: Food wastes and losses are produced during all phases of food life cycles. The highest wastes belong to the processing of fruits and vegetables. Bioactive compounds have the potential to be extracted from the by-products of fruits and vegetables which can be used in the food processing. Extraction of flavor compounds, phenolic compounds, enzymes, and organic acids from wastes of fruits – pomace, peel, and seeds of citrus fruits, pomace and leave of apple, seeds of grape, and peel of kiwifruit – and vegetables – pomace of carrot, husk of garlic, skin of onion, peel of potato, and skin of tomato – have been reported (Sagar et al., 2018).Sour orange, Citrus aurantium, is one of the species of citrus fruits. Sour orange seeds contain fats, protein, and bitter compounds which affect citrus processing (Ye et al., 2017). Naringin, neohesperidin, flavon, caffeic acid, p-coumaric acid, ferulic acid, and sinapic acid have been detected in methanolic extract of sour orange seeds (Bocco et al., 1998).Bioactive compounds are recovered from food wastes through various conventional and novel extraction techniques. Microwave-assisted extraction is one of the most used novel and environmentally friendly extraction methods. Advantages of microwave-assisted extraction over conventional extraction techniques include automated operation, more effective and selective heating, and less extraction time (Vinatoru et al., 2017).The objective of this study was optimization of microwave-assisted extraction of sour orange seed coat extract in terms of microwave power level, extraction time, sample quantity, and solvent volume on yield, bioactive compounds (total phenolic content and total flavonoid content), and antioxidant activity (free radical scavenging activity, ferric ion reducing antioxidant power, cupric ion reducing antioxidant capacity, and ferrous ion chelating). Also, optimum conditions of microwave-assisted extraction was compared to that of conventional magnetic stirrer-assisted extraction method. Materials and methods: Sour orange seeds were purchased from Limondis Company (Beyza, Fars province, Iran). Microwave-assisted extraction conditions including microwave power level (100, 200, and 300 W), extraction time (5, 10, and 15 min), sample quantity (5, 10, and 15 g), and solvent (methanolvolume 100, 150, and 200 mL) were optimized. Yield, bioactive compounds (total phenolic content (Habibi et al., 2015) and total flavonoid content (Habibi et al., 2015)), and antioxidant activity (free radical scavenging activity (Habibi et al., 2015), ferric ion reducing antioxidant power (Rekha et al., 2012), cupric ion reducing antioxidant capacity (Pascu et al., 2014), and ferrous ion chelating (Oyetayo et al., 2009)) of sour orange seed coat extract were evaluated. After determining the optimum conditions of microwave-assisted extraction, yield, bioactive compounds (total phenolic content and total flavonoid content), and antioxidant activity of sour orange seed coat extract were compared to those of conventional magnetic stirrer-assisted extraction method. Design Expert software (Version 10, Stat-Ease, Minneapolis, MN) was employed for analyzing four variables – microwave power level, extraction time, sample quantity, and solvent volume – at three levels consisting 30 experimental runs. Response surface methodology concerning central composite design (6 center points, quadratic model, and face center = 1) was applied. Results and discussion: Optimum conditions of microwave-assisted extraction were microwave power level of 200 W, extraction time of 12 min, sample quantity of 5 g, and solvent volume of 200 mL. Under optimum conditions, yiled, total phenolic content, total flavonoid content, IC50, ferric ion reducing antioxidant power, cupric ion reducing antioxidant capacity, and ferrous ion chelating were11.57%, 15550.50 µg gallic acid equivalent/g, 1476.22 µg quercetin equivalent/g, 11.33 mg/mL, 7.12 mg ascorbic/g, 6.44 mg ascorbic acid/g, and 0.43 mg EDTA/g, respectively. Intermediate microwave power level (200 W) can be more suitable from an industrial perspective and energy consumption (Jokić et al., 2012). Further increase in microwave power level, i.e. higher than 200 W, causes thermal degradation of bioactive compounds (Dahmoune et al., 2013), decreasing total phenolic content, total flavonoid content, and antioxidant activity of sour orange seed coat extract. The highest extraction time gives the bioactive compounds a chance to diffuse and release from the cell matrix to the surrounding environment (solvent). The highest solvent volume was selected as the optimum extraction condition. By increasing solvent volume up to 200 mL, meaning a greater gradient in bioactive compound concentration, mass transfer was also improved (Dahmoune et al., 2013). Also, the minimum sample quantity (5 g) was determined in optimum conditions. Increasing sample quantity (while the solvent volume remained constant) reduces the surface area available for the solvent to penetrate the sample matrix. As a result, higher sample quantity caused lower extraction of bioactive compounds (Ballard et al., 2010). There were no significant differences between yield, bioactive compounds, and antioxidant activity of extract obtained by conventional-assisted extraction method in comparison with those of microwave-assisted extraction. In conclusion, microwave-assisted extraction, as a green and fast method, can be proposed as a suitable and practical method for extraction of bioactive compounds from sour orange seed coat.
Maryam Farahmand; Mohammad Taghi Golmakani; Asgar Farahnaki; Gholam Reza Mesbahi
Abstract
Introduction: The pomegranate (Punica granatum L.) belongs to the family Punicaceae, which is planted around the world in different microclimatic areas. The pomegranate production has grown uninterruptedly, which is presumably due to the increasing consumer awareness of the benefits attributed to pomegranate ...
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Introduction: The pomegranate (Punica granatum L.) belongs to the family Punicaceae, which is planted around the world in different microclimatic areas. The pomegranate production has grown uninterruptedly, which is presumably due to the increasing consumer awareness of the benefits attributed to pomegranate and its polyphenols. Pomegranate fruit has valuable compounds with functional and medicinal effects like antioxidant, anticancer, and anti-atherosclerotic effects. Storage of juice concentrate can have a dramatic impact on physicochemical quality. The bioactive compounds and antioxidant activity in fruit juice products are influenced by many external factors like different storage temperatures. Knowledge of the rheological behaviour of juice products is essential for product development, design and evaluation of process equipment like pumps and piping. Pomegranate concentrate is so susceptible to the condition of storage, which results in a reduction in consumer acceptability and quality losses. Accordingly, the industrial concentrate stores frozen (-20 °C) which has a lot of costs to the producer. The objectives of this study were to evaluate the degradation visual color, the rheological characteristics of pomegranate juice concentrates, the stability of phytochemicals, the antioxidant activity, and the haze formation of reconstituted pomegranate juice concentrate during storage at different temperatures to determine the best storage conditions to reduce the quality losses and solving the problem about high cost of storage.
Materials and methods: The concentrated pomegranate (Punica granatum (L.) cv. Rabab) juice used in this study supplied from Narni (Green farm, Neyriz, Iran) factory. The pomegranate juice concentrate was poured into falcons for measuring physicochemical attributes, and micro tubes for determination of antioxidant activities. Then the samples were divided into four parts and stored equally in four different temperatures (-20, 4, 20, and 35 °C). The control samples were stored at -80 °C as fresh sample for the storage period (140 days). Folin-Ciocalteu reagent and 2,2-diphenyl-1-picrylhydrazyl radical (DPPHº) were supplied from Sigma-Aldrich Company (St. Louis, MO, USA). All other chemicals were of analytical grade and purchased from Merck Company (Darmstadt, Germany). The total soluble solid (TSS) was determined with a digital refractometer (Carl Zeiss, Germany). Total insoluble solid was measured by centrifugation at (5,000 × g) according to the IFFJP method 60, using a high speed centrifuge (Ibarz et al., 2011). The haze formation of reconstituted juice was determined by “settling” in a glass tube for 3 hour at room temperature. Color measurements of the juice samples were carried out using a HunterLab (CHROMA METER CR-400/410, KONICA MINOLTA, Japan) after dilution. The rheological characteristics of the pomegranate juice concentrate stored in different temperatures were studied by using a computer controlled rotational viscometer. Sample compartment was monitored at a constant temperature (25°C) using a water bath/circulator, while TSS was 65 °Brix. The viscosity measurements, was carried out According to the methods described by Cárdenas et al., (1997), using a Brookfield cone and plate viscometer (DVII pro Brook field, USA) between the shear rate of 0.5–200 (1/s). Total phenolic content of samples was measured according to the Folin-Ciocalteu colorimetric method (Sun et al., 2007). Total flavonoid content in juices was determined via a spectrophotometer according to the method of Chang et al. (2002). Radical scavenging activities of the samples were measured by using DPPHº as described by Mazidi et al., (2012). The ferrous ion reducing antioxidant power (FRAP) of the samples was measured calorimetrically according to the method by Fawole and Opara (2013). All analyses were performed by the Statistical Analysis System (SAS) software V 9.1 (SAS Institute, Inc., Cary, NC, USA). By using the analysis of variance (ANOVA), the differences among means were determined for significance at P< 0.05.
Results and discussion: The industrial pomegranate juice concentrate stored at (-20, 4, 20, and 35 °C) for 20 weeks, and some physicochemical properties like the second turbidity, CIE Lab color parameters, the rheological properties, the bioactive component (total phenolic and flavonoid contents), and antioxidant properties (FRAP and DPPH) investigated in order to determine the best condition of storage. The second turbidity was obvious among the samples stored at 35 °C in the last fourth weeks. Although there were no significant differences among L* value of the samples stored at -20, 4, and 20 °C, a* and b* value of the samples stored at -20 and 4 °C had the same reduction trend for 14 weeks. Even though the control samples had shear thinning behavior, the samples showed a dilatant behaviour after storage. Antioxidant activities measured via DPPH and FRAP sowed reduction with increasing time and temperature. Flavonoid content increased by increasing time and temperature. In conclusion, storage at 4 °C for 14 weeks was the best storage condition to keep the quality and reduce the costs.
Sareh Boostani; Marzieh Moosavi-Nasab; Mahmoud Aminlari; Mehrdad Niakosari; Gholam Reza Mesbahi
Abstract
Introduction: Proteins play a fundamental role in biological systems and are often sensitive against organic solvents, heat and other damaging factors. Proteins are the basic component of food formulations and enhancement the functional characteristics and stability of the proteins has always been the ...
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Introduction: Proteins play a fundamental role in biological systems and are often sensitive against organic solvents, heat and other damaging factors. Proteins are the basic component of food formulations and enhancement the functional characteristics and stability of the proteins has always been the main goal of food industry engineers. One of the natural ways used for protein modifications is Maillard reaction. Maillard reaction as a result of covalent binding between the available amino groups of the proteins and carbonyl containing moiety of the polysaccharides, causes a loss in free amino group content of the mixture. Protein- polysaccharide hybrids, as a result of dry heating of two biopolymers mixture under controlled reaction conditions, cause the emergence of conjugates with novel functionalities. Much research has shown that conjugation can increase thermal stability and functional characteristics of food proteins and also reduce the allergenicity of suspected proteins. Although many studies have been conducted on the effects of conjugation on functional properties of proteins, the impacts of conjugation on proteins behavior after food processing have been less investigated. So, in this paper the influences of Maillard reaction on functional properties of soy proteins have been investigated. In addition, characteristics of conjugated proteins after pasteurization treatment was also studied. Materials and methods: Construction of protein- polysaccharide conjugates was done in several steps. First, soy proteins and dextran were mixed with phosphate buffer (0.1 M, pH: 8.5) and 1 to 4 ratio of protein to polysaccharide. After mixing and incubating at ambient temperature for some hours, solutions were frozen at –80 ℃ and freeze dried. Then the lyophilized powder was incubated at different times, at 60℃, under the 79 percent relative humidity in presence of saturated KBr. For each treatment a non conjugated sample was prepared in the exact same condition. Conjugation of proteins to polysaccharides was monitored by SDS-PAGE electrophoresis, browning intensity measurement and UV absorbance analysis. SDS-PAGE was conducted according to Laemmli procedure using a discontinuous buffer system. A vertical gel electrophoresis unit was used with 3% acrylamide stacking gel and 10% acrylamide running gel. Evaluation of the color changes as an indicator of grafting intensity was investigated by monitoring absorption at a wavelength of 420 nm. To investigate the UV absorption of conjugated proteins, the samples were diluted with SDS (Sodium dodecyl sulfate) solution and the absorption was read by a UV-visible spectrophotometer at 294 nm. The impact of modification on characteristics of soy proteins was monitored by examining the functional properties changes of protein samples. In the last stage soy drinks were prepared from conjugated and non conjugated proteins then the prepared beverages were subjected to thermal processing conditions and the influences of Maillard conjugation on the stability of soy drinks was monitored over time. Results and Discussion: SDS-PAGE electrophoresis profile showed that proteins-polysaccharide conjugates were formed. As a result of conjugation, the protein-dextran covalent binding occurs, leads to the formation of higher molecular weight components, resulting in its accumulation on the top of the separating gel. When heating time increased a wider and higher molecular weight bands appeared near the top of the running gel however they were not observed in the native soy pattern. Covalent linkage between amino group of proteins and carbonyl group of polysaccharides causes a color changes from light yellow to brown, browning intensity results showed that the even during early incubation time, a significant absorption was observed at 420 nm compared to the control samples. UV absorption results showed similar trend of changes in browning intensity measurement. Increasing UV absorption is due to the intermediate Maillard reaction products (MRP). Increasing UV absorption with increasing heating time indicates the fact that Maillard reaction products (MRP) formation are more favorable in the long incubation time. Data of UV absorption are a good evidence for SDS-PAGE and browning intensity results. Functional properties results indicated that grafted proteins had better functional properties. The storage stability of soy drinks prepared from conjugated proteins was significantly higher than the samples prepared from non conjugated proteins. Stability of beverages after thermal processing and during storage is one of the most important features of protein drinks and many efforts have been made to develop mentioned characteristics. Stability of soy drinks produced from the conjugated proteins was significantly higher than those prepared from non conjugated soy proteins. Functional characterization of proteins is dependent on several factors, the majority of soy drink composed of proteins that could be denaturated by heating applied during thermal processing, as the results showed conjugation with dextran caused an increase in denaturation temperature of soy proteins which enhance the resistance of proteins during thermal processing treatment. In addition, the solubility and emulsifying properties of soy proteins increased with conjugation which can be a good reason for improvement the relation between protein and surrounding water molecules and therefore increases the protein storage stability. It can be concluded that Maillard reaction could be applied as a means to prepare soy proteins–dextran conjugates with better functional properties and more stable during processing and storage.
Sareh Boostani; Mahmoud Aminlari; Marzieh Moosavi-Nasab; Mehrdad Niakosari; Gholam Reza Mesbahi
Abstract
Introduction : Soybean is an excellent plant protein source with diverse applications in food systems. Despite numerous commercial applications and rich nutritional properties of soybeans, soy proteins are sensitive to heat and other damaging agents during food processing which can limit their applications ...
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Introduction : Soybean is an excellent plant protein source with diverse applications in food systems. Despite numerous commercial applications and rich nutritional properties of soybeans, soy proteins are sensitive to heat and other damaging agents during food processing which can limit their applications in food industries. Maillard reaction includes a series of chemical reactions between the free carbonyl groups of carbohydrates and the un-protonated amino groups of proteins under mild experimental conditions. This is one of the most desirable approaches for applying in food systems, because of the safety of the procedure and the independency of adding extra chemicals. Natural occurring Maillard reaction can be a relatively safe and inexpensive method in order to improve functionalities of food proteins. The production of conjugates haspositive influences on food proteins functionality such as solubility, water holding capacity, emulsion activity and stability, foaming properties, thermal stability, whipping ability, textural and gelation properties and also reduce allergenicity of proteins. Due to the positive characteristics and reasonable price of both soy proteins and maltodextrin in food industries, the aim of current study was to enhance the heat stability and functional properties of soy proteins through glycosylation with maltodextrin. In addition, assessment of changes in protein properties as a function of incubation time were evaluatedMaterials and methods: Preparation of purified soy proteins (Acid precipitated soy proteins) was done by a multistage process of washing, centrifugation, dialysis and freeze drying. The resulting powder contained pure soy globulins. Conjugation of acid precipitated soy proteins with maltodextrin was performed according to the method described as follows: protein-polysaccharide at a weight ratio of 1: 3 were dissolved in 0.01 M phosphate buffer, at pH values of 8, and were incubated at ambient temperature for 1 hr. Solutions were frozen at –80°C and then freeze dried. Lyophilized powders were incubated at 60 °C for 1, 3, 5 and 7 days, under 79% of relative humidity provided by saturated KBr. For each treatment an un-conjugated (control) sample was prepared under the same conditions. The formation of protein-polysaccharide conjugates was confirmed by sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) and gel filtration chromatography (Sephadex G-100 chromatographic system was used to separate the conjugated proteins from the un conjugated samples). Determination of protein denaturation temperature changes were carried out using METTLER TA Q100-DSC thermal analyser.The emulsifying properties of the samples including emulsifying activity and emulsion stability were assessed according to the procedure established by Pearce and Kinsella. Protein solubility was measured by calculating the amount of nitrogen in the supernatant and total nitrogen content of the samples and reported as percentage of protein solubility at pH 3, 5, 7 and 9. Foaming properties of the samples including foaming capacity and foaming stabilitywere determined using calibrated measuring cylinderDiscussion & Results: When the heating duration is increased, wider and heavier molecular weight bands emerge near the top of the running gel of SDS-PAGE, and yet these were not observed in the control. As a result of conjugation, the protein-carbohydrate covalent binding occurs, producing heavier molecular weight species, and thus leading to its accumulation on top of the separating gel. Compared with un-modified soy proteins, the conjugated soy proteins eluted in the void volume of G-100 gel permeation chromatography column, suggesting increase in the size and molecular weight of soy proteins due to the covalent attachment of maltodextrin. According to differential scanning calorimetry (DSC) analysis, thermal stability of soy proteins was remarkably increased by conjugation with maltodextrin and maximum denaturation temperature was observed for the mixture incubated for 7 days. The improved thermal stability is manifested in increase in denaturation temperature of globular proteins, hence conjugation leads to significant improvement of soy proteins stability. Increase in thermal stability is the result of inclusion of the hydrophilic carbohydrate moiety to the surface of the proteins. Compared to control sample, the solubility, foaming characteristics and emulsifying properties were significantly improved by increasing incubation time. The protein solubility of conjugate remarkably increased at all pH’s compared with the un-conjugated proteins. Covalent links between hydrophilic maltodextrin and soy proteins could enhance the reaction tendency between proteins and water molecules under unfavorable conditions. Improvements in the emulsifying properties of the conjugated samples can be explained by the fact that there is a combination among the emulsifying activity of proteins and the stabilizing impacts of polysaccharides per molecule. Foaming capacity of proteins can be affected by the solubility of proteins. Furthermore, maltodextrin is a hydrophilic carbohydrate which can improve the stability of soy proteins foams by acting as a thickener, thus increasing the strength of bubbles. It should also be considered that functionality of proteins are frequently influenced by protein solubility, and this could also serve the understanding of why improvements occur in functional properties of conjugated proteins, compared to un-conjugated ones. The results indicate that physiochemical and functional properties of soy proteins were modified and improved by conjugation with maltodextrin.
Sareh Boostani; Mahmoud Aminlari; Marzieh Moosavi-Nasab; Mehrdad Niakosari; Gholam Reza Mesbahi
Abstract
Introduction: Engineering of food proteins with improved functional properties and higher resistance to heat is the main goal of food scientists. Food technologists are always seeking for innovative, simple and effective methods to manipulate proteins, hence natural modification has had the most attention ...
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Introduction: Engineering of food proteins with improved functional properties and higher resistance to heat is the main goal of food scientists. Food technologists are always seeking for innovative, simple and effective methods to manipulate proteins, hence natural modification has had the most attention in last decades. One of the natural ways used for protein modifications isMaillard grafting reaction. Maillard reaction as a consequence of covalentbindingbetween the available amino groups of the proteins and carbonyl containing moiety of the polysaccharides, causes a loss in free amino group content of the mixture that can be measured through different methods. Protein-polysaccharide hybrids, as a result of dry heating of two biopolymers mixture under controlled reaction conditions, cause the emergence of conjugates with novel functionalities.Selecting appropriate reaction conditions has a significant impact on the properties of the final conjugates. Among the factors affecting the degree of conjugation, temperature, pH and incubation time have considerable roles in determining the degree of conjugation. There are various methods by which conjugation degree can be assessed and factors such as accuracy, cost, accessibility and etc. must be considered when selecting a measuring method. Therefoe, in this study the effect of different Maillard reaction conditions on the conjugation degree of soy proteins-dextran heated mixtures have been investigated. In addition, the glycation degree was compared and reported by both OPA assay and UV absorbance methods.Materials and methods: Soy proteins–dextran conjugates were prepared as described later. First, soy proteins and dextran were mixed with phosphate buffer (0.1 M, pH: 8.5 and 7) and 1 to 4 ratio of protein to polysaccharide. After mixing and incubating at ambient temperature for some hours, solutions were frozen at –80 ℃ and freeze dried. Then, the lyophilized powder was incubated at 40 ℃ for 0, 4, 8, 24 hours and 2, 4, 6, 8, 12 days, at 60 ℃ for 0, 1, 2, 3, 4, 6, 8 days and at 80 ℃ for 0, 1, 2, 4, 8, 16, 24, 48 hours, under the 79 percent relative humidity in presence of saturated KBr. For each treatment a non conjugated sample was prepared in the exact same condition. Conjugation of proteins to polysaccharides was monitored by two methods (OPA assay and UV absorbance). Determining degree of glycation by OPA method was done as follows, in this procedure the level of available amino groups was estimated using the ortho- phthaldialdehyde (OPA) reagent, the absorbance was measured at 340 nm and degree of glycation was measured using a formula. To investigate the UV absorption of conjugated proteins, the samples were diluted using distilled water and the absorption was read using a UV-visible spectrophotometer.Results & Discussion: Covalent linkage between amino group of proteins and carbonyl group of polysaccharides causes depletion in the amount of available amino groups. The extent of soy proteins-dextran conjugation under various Maillard reaction conditions was evaluated by the reduction of available amino groups of proteins, the more reduction in amount of amino groups, the more conjugation between protein and polysaccharide. OPA results showed that, in the samples heated at 40 °C and 80 °C (at both pH 7 and 8.5), the amount of free amino groups slightly reduced compared to 60 °C heated samples. The disappearance of available amino groups at 60°C was faster than other temperatures and formation of conjugates in this temperature was more successful. A stepwise reduction in free amino group content observed with increasing incubation time. When soy proteins were incubated at pH 8.5 for 8 days at 60 °C, a considerable decrease in available amino group contents occurred. UV absorption results showed similar trend of changes in OPA method. Increasing UV absorption is due to the intermediate Maillard reaction products (MRP). Increasing incubation time, temperature and pH cause a significant increase in UV absorbance. Increasing UV absorption with increasing heating time indicates the fact that Maillard reaction products (MRP) formation is more favorable at alkaline pH. Data of UV absorption are a proper evidence for OPA assay results. Conclusion: As a conclusion, both OPA assay and UV absorption methods are cost effective, accurate and simple methods which can represent valuable information concerning the Maillard conjugation.
Sara Hoseinpoor; Mohammad Hadi Eskandari; Gholam Reza Mesbahi; Shahram Shekarforoush; Asgar Farahnaki
Abstract
Nitrite is responsible for some characteristics of cured meat products such as color, flavor and suppressing
the outgrowth and production of toxin from Clostridium botulinum. Despite all of its desired properties, nitrite is
responsible for the formation of carcinogenic N-nitrosamine. In this study, ...
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Nitrite is responsible for some characteristics of cured meat products such as color, flavor and suppressing
the outgrowth and production of toxin from Clostridium botulinum. Despite all of its desired properties, nitrite is
responsible for the formation of carcinogenic N-nitrosamine. In this study, nitrite-free and low-nitrite meat
curing systems were developed to eliminate or reduce nitrite from meat products. Thirteen different formulations
were made including standard frankfurter ingredients with or without nitrite in combination with cochineal and
paprika as natural coloring agents. For example, control sample was with 120 mg/kg nitrite, low-nitrite sample
was contained 40 mg/kg nitrite and some samples were without nitrite. The samples were stored at 4 oC for eight
weeks. During the storage, color changes (L*, a*, b*) were determined and evaluated. Also, the produced
samples were exposed to natural and artificial light and their color stability were compared. In addition, the
colors of samples were evaluated by trained panelists. The results showed that the sample with 40 mg/kg nitrite
and 0.002 % cochineal, the sample contained 40 mg/kg nitrite and 1 mg/kg paprika and the sample without
nitrite and contained 0.015 % cochineal had no significant different color (p
Hassan Afshari Jooybari; Asgar Farahnaki; Mahsa Majzoobi; Gholam Reza Mesbahi; Mehrdad Niakosari
Abstract
Mazafati date is a wet and semi-dried date fruit type with dark red to black color that has premier quality. Because of its high moisture content, date fruits of this variety are very perishable at room temperature and therefore must be refrigerated during storage. In this study, effect of air temperature ...
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Mazafati date is a wet and semi-dried date fruit type with dark red to black color that has premier quality. Because of its high moisture content, date fruits of this variety are very perishable at room temperature and therefore must be refrigerated during storage. In this study, effect of air temperature (50, 60, 70, 80 and 90 ˚C) and air flow rate (1, 1.5 and 2 m/s) in hot air drying of Mazafati date were investigated. The results showed that for all samples, drying occurred at the falling rate stage of drying and the main factor affecting the drying rate was air temperature. Air flow rate did not have significant effect on drying rate. Overall, it was concluded that moisture of Mazafati dates can be reduced by cabinet drying and therefore using drying process, the need for their cold storage can be eliminated.
Sara Hoseinpoor; Behnaz Layegh; Asgar Farahnaki; Gholam Reza Mesbahi; Mahsa Majzoobi; Nazanin Darabzadeh
Abstract
Pectin is used as a gelling, texturizing and emulsifying agent in many foods. Sugar beet pulp is a good source of pectin, however due to its low molecular weight and poor gelling characteristic its uses in food industry are limited. In this research, pectin extracted from sugar beet pulp was cross-linked ...
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Pectin is used as a gelling, texturizing and emulsifying agent in many foods. Sugar beet pulp is a good source of pectin, however due to its low molecular weight and poor gelling characteristic its uses in food industry are limited. In this research, pectin extracted from sugar beet pulp was cross-linked by phosphorus oxycholride at pH 11 to improve it functional properties. Rheological tests carried out revealed that modified pectin had a higher viscosity and greater intrinsic viscosity and molecular weight than native pectin confirming the cross-linking of pectin polymers. Ketchup sauces formulated using modified and native pectins were compared with the control sample without pectin. The results showed that the sample containing modified pectin had a higher consistency and a lower syneresis value compared to the native pectin.
Keywords: Pectin, Sugar beet pulp, Cross-linking, Viscosity, Functional properties
Mahsa Majzoobi; Gholam Reza Mesbahi; Farnaz Sariri; Asgar Farahnaki; Jalal Jamalian
Abstract
The main aim of this study was to improve the bread quality and to postpone its staling. Therefore, sugar beet pulp powder was added to Barbari bread dough formulation at five levels of 1, 3, 5 and 10% (w/w, flour basis). Then the properties of dough and the resulting bread were studied. The results ...
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The main aim of this study was to improve the bread quality and to postpone its staling. Therefore, sugar beet pulp powder was added to Barbari bread dough formulation at five levels of 1, 3, 5 and 10% (w/w, flour basis). Then the properties of dough and the resulting bread were studied. The results showed that with increasing the sugar beet pulp powder, the water absorption of the dough and the fiber content of the bread increased while, bread density and hardness decreased. The electro-micrographs of the bread crumb containing sugar beet pulp powder indicated the improved texture which can delay bread staling. Sensory evaluation of the samples revealed that the bread made with up to 5% sugar beet pulp powder had the highest general acceptability. However, higher levels of sugar beet pulp powder had diverse effects on bread color which would reduce general acceptability of the samples. It was concluded that sugar beet pulp powder can improve the quality of bread and delay its staling.
Keywords: Sugar beet pulp, Dietary fiber, Bread staling, Bread texture
Gholam Reza Mesbahi; Ali Asghar Zomorodian; Mojtaba Dadashzadeh; Asgar Farahnaki
Abstract
In recent years immense interest has been focused on the use of solar dryers especially when taking into consideration economical and ecological aspects and increasing in fuel costs. The aim of this study was to compare the qualitative factors of raisins made by five different drying methods. At the ...
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In recent years immense interest has been focused on the use of solar dryers especially when taking into consideration economical and ecological aspects and increasing in fuel costs. The aim of this study was to compare the qualitative factors of raisins made by five different drying methods. At the first step, pretreatments were applied to grapes (Var. Sultanas) and then the grapes were dried by five methods, including open-sun drying, shade drying, drying by industrial cabinet dryer and two different modes of solar drying namely mixed and indirect type. The shortest drying time was obtained with industrial cabinet drying, but mixed and indirect solar drying were more effective than open-sun drying and shade drying. Moisture content, acidity, sensory properties (color, texture, flavor and overall acceptance) and microbial level of the produced raisins were determined and compared. The texture of the raisin samples was evaluated by texture analyzer device as well. The color of the samples was measured and analyzed by a novel digital imaging method for measuring color of foods.The results indicated that the solar dryers were not only able to produce raisins similar to other drying methods but also the raisins produced by these dryers were in some qualitative factors (consumers overall acceptance and color) better than the other raisins.
Keywords: Raisin, Grape, Drying, Solar dryer, cabinet dryer.