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Sour orange is a citrus with high antioxidant content (mainly ascorbic acid and phenolic compound). Its juice is consumed as a food seasoning. Thermal pasteurization is a common way to improve safety of sour orange juice. By considering the high thermal sensitivity of ascorbic acid and phenolic compounds, the aim of this study is the investigation of the effect of thermal processing on ascorbic acid, total phenol and an antioxidant capacity of sour orange juice at 70, 75, 80, 85 and 90 °C in 76, 66, 48, 35 and 21 min, respectively. Ascorbic acid and total phenolic content were measured according iodine titration and Folin- Ciocalteu methods, respectively. Ascorbic acid and total phenol degradation during thermal processing were evaluated by Arrhenius and Eyring models. Enthalpy of ascorbic acid degradation changed slightly due to its high thermal resistance (29.15°C) and free energy (101.11-102.64 kJ/mole). With  5°C increase in temperature, the half-life of ascorbic acid and the total phenol content decreased about 1.31 to 1.80 and 1.39 to 2.05 times, respectively. Also there was a good correlation between total phenol content and DPPH of sour orange juice (R²> 0.97).

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The hawthorn fruits have been used as food and medicine for centuries. In the present study, pulp and seed extract of Crataegus elbursensis Rech. F. fruits belonging to the family Rosaceae and native of northern part of Iran were evaluated for the polyphenol contents, antiradical, antioxidant, and antibacterial activities. The total phenolic, flavonoid, and anthocyanin contents of methanolic pulp extract were found to be more than those of methanolic seed extract. The DPPH radical scavenging, iron (III) reducing capacity, and total antioxidant activity of the extracts depended on concentration. A 200 μg ml^-1 of C. elbursensis pulp and seed extract and butylated hydroxytoluene (BHT) exhibited 82.13, 83.47, and 85.44% inhibition, respectively. However, effect of the extracts in the total antioxidant activity and reducing power were not significantly as good as BHT. In addition, the results showed that both pulp and seed extract had inhibitory activity against the four bacteria tested, with the pulp extract showing more activity than the seed extract. Also, phenolic acids were identified by RP-HPLC and chlorogenic acid was the predominant phenolics in the samples. In conclusion, our results showed that C. elbursensis pulp and seed extract had strong antioxidant and antibacterial activities, which were correlated with its high level of polyphenols.

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Antimicrobial packaging is one of the most important applications of active packaging. The purpose of this study was to investigate the effect of antimicrobial packaging on the quality of strawberry fruit cv. Camarosa The experiment was conducted as factorial in a completely randomized design with four types of fruit packaging control with no inoculation and inoculation of fungi, 12 and 24 μl of essential oil /ml air and the second factor was sampling time (harvest time, 4, 8 and 12 days). During the experiment, traits qualitative and biochemical properties were investigated. The results showed that with increasing storage time in all treatments, decay percentage, weight loss, total anthocyanin, total phenol and flavonoid increased, while the amount of vitamin C and antioxidant capacity decreased. The amount of vitamin C, flavonoids and antioxidant capacity in fruits treated with peppermint essential oil were significantly higher than those of the control group. The microbial populations during the storage period was decreased in the treatment of essential oils. Totally, It seems that The concentration of 24 μl / ml peppermint essential oil loaded with microselle foam with slow release could reduce the percentage of fruit decay and microbial populations and maintain the qualitative and biochemical properties of strawberry fruit during cold storage. Considering that the essential oil of peppermint is very effective on the growth of Botrytis cinerea due to the presence of dominant components such as menthol and menthol at relatively low concentrations, so using this essential oil instead of artificial preservatives, It looks like something useful and effective.
 

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Certain potato cultivars such as native potato species (NPS) from the Andes are known to have resistances to different pests and diseases. Some accessions are also interesting from a nutritional and culinary perspective. A collection of 35 NPS and 11 old Spanish accessions were analysed for Streptomyces scabies, Rhizoctonia solani and Globodera rostochiensis, as well as dry matter, reducing sugars, minerals, glycoalkaloid concentrations, and total antioxidant capacity. A wide variability was found between and also within the species. Most accessions showed favourable characteristics, while high concentrations values of glycoalkaloids were observed in certain accessions. The results suggest that some NPS and old Spanish accessions have a great potential for exploitation in potato breeding programmes as a source of resistances and nutritional variability.

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The purpose of the present research was to investigate four commercial cultivars of tomato (Karoon, 3402, LS0019 and H1015) in order to determine the physicochemical attributes of the cultivar. During this investigation, fruit qualities were evaluated: Soluble solids, total solids, and moisture, pH, lycopene, β-carotene, lutein, and β-cryptoxanthin contents, color indexes (CIE a* b^* L*), hue angle (h), chroma (C), total polyphenols and antioxidant activity.The amounts of total solids, a^*, b^*, L^*, carotenoids (lycopene, β-carotene, lutein, β-cryptoxanthin), total polyphenols, and antioxidant activity (Free radical scavenging capacity, reducing power, total antioxidant capacity) remained significantly different among the investigated cultivars (p<0.05). The results showed that the H1015 cultivar had the highest antioxidant activity and carotenoids content especially lycopene. Moreover, this cultivar had the best color indexes (highest a^*) in comparison with the other cultivars, it is concluded that the H1015 cultivar is comparable to other cultivars and thus is recommended for cultivation and processing.

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There are different methods for the preparation of infusions that can affect the properties of these infusions. The usual method for preparing of infusion is a maceration method that is made using boiling water and a filter. The aim of this study was to prepare marjoram infusion and evaluate the effect of the method of maceration and ultrasonic for different times (5 and 15 min) on phenolic, compounds, free-radical scavenging capacity (DPPH) and heavy metals (arsenic, lead and Cadmium) in the form of a completely randomized design. The results of data analysis obtained from the experiment showed that the preparation method of infusion had a significant effect on all the parameters of the study. The results showed that the amount of phenolic compounds, free-radical scavenging capacity (DPPH) and heavy metals (arsenic, lead and Cadmium)  increased by increasing the time of both processes (ultrasound and maceration). On the other hand, the use of ultrasound waves was found to increase the usefulness of the compounds and also the heavy metals in the marjoram infusion. The total amount of heavy metals measured in this study was less than the standard defined for heavy metals for plant and fruit infusions. Finally, according to the results of this research, it can be stated that using 15 min ultrasound was the best method for making marjoram infusion.
 

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The purpose of this study was investigating the effect of wheat flour replacement with triticale flour (0-30%) and β-glucan fiber (0-10%) on physicochemical, texture and sensory properties of Barbari bread with using of two-level factorial design containing central points based on D-optimal. The results showed that with substitution of these two factors, the water activity, moisture and ash content in bread samples significantly increased and the fat, carbohydrate and calorie of the samples decreased. Antioxidant capacity and protein of samples increased with replacement of triticale flour. However, high levels of β-glucan decreased the protein and antioxidant capacity of the samples. Also the fiber content of samples decreased and increased with addition of triticale flour and β-glucan, respectively. The effect of replacement of triticale flour on the specific volume of bread was dependent on the amount of β-glucan; so that the specific volume of bread with replacement of triticale in the samples without β-glucan significantly decreased but it increased in the samples containing high levels of β-glucan. Loss weight, crust and crumb color, firmness and penetration energy of bread were not significantly affected by the substituted factors. According to the sensory evaluation, the replacement of triticale flour and β-glucan increased the flavor score and overall acceptance of barbari bread samples. According to the results, bread samples enriched with 30% triticale flour and 10% β-glucan have desirable physicochemical, texture and sensory properties and are recommended as optimum samples for production.

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Persian Shallot is a vegetable and at the same time a rare medicinal plant with a short shelf life. Edible coatings increased shelf life and maintain the quantitative and qualitative characteristics of some vegetable crops in the post-harvest stage. In this study, the effect of different amounts of chitosan (0.5, 1 and 2%), gelatin (0.25, 0.5 and 1%) and aloe gel (50, 75 and 100%) as edible coatings on fresh-cut persian shallot during 14 days of storage under refrigerated conditions (4±1 °C and 75-80% relative humidity) were investigated. The weight loss, pH, flavor index and total soluble solids during storage in coating treatments compared to control samples showed significantly less increase and amount of ascorbic acid, titratable acidity, pyruvic acid, total antioxidant capacity, total phenol, and soluble carbohydrates, showed significantly less decline. In this study, it was observed that edible coatings of chitosan (2%), gelatin (1%) and aloe gel (100%) had the greatest effect on maintaining the shelf life and quality properties of fresh-cut Persian shallot, respectively. According to the results obtained of this study, chitosan coating (2%) is recommended as a more suitable coating for fresh-cut Persian shallot.

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Oleaster Powder can be used to enrich and improve the nutritional value of gluten-free baked products, which often have low fiber content, due to their desirable nutritional properties such as minerals, vitamins and rich in dietary fiber; therefore the aim of this study was to enrich gluten-free bread with Oleaster Powder and create a new product with suitable texture and nutritional quality; for this purpose in this study, the effect of replacing of Oleaster Powder at levels 0-30% with gluten-free flours (chickpea flour, Rice flour and corn starch) on physicochemical, textural and sensory properties of gluten-free bread was evaluated based on response surface methodology (RSM). The results showed that by increasing the level of Oleaster Powder moisture content, ash, fiber, antioxidant capacity, lightness (L­*)  and yellowness value (b­*) of the samples significantly increased and the amount of fat, protein, carbohydrate, calories and redness (a *) of the samples decreased (P <0.05). Also the water activity was not affected by the factor (P>­0.05).With increasing the level of Oleaster Powder, the firmness and gumminess of breads increased significantly. On the other hand, at levels higher than 7.5% of Oleaster Powder, specific volume, cohesiveness and resilience of samples decreased and the loss weight of samples increased (P <0.05). In spite of increasing springiness and chewiness of samples with addition of Oleaster Powder, they were not statistically significant (P>­0.05). According to sensory evaluation, the sample containing 7.5% Oleaster Powder had a higher overall acceptance. Finally, the results showed that the sample enriched with 7.5% Oleaster Powder had desirable properties compared to other samples and can be used as a pragmatic raw material in the production of gluten-free breads with high and desirable nutritional value.

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In this study, qualitative traits and bioactive compounds of edible oil that extracted from three olive promising genotypes (T2, T7, and T18) and two cultivars (Zard and Koroneiki) from Tarom olive collection in Zanjan province were evaluated during two crop seasons (2017-2018). Edible oil quality traits including free fatty acids (FFA), peroxide value (PV) and extinction coefficients (K232 and K270), total chlorophyll, total carotenoids, total phenols, total flavonoids and antioxidant capacity were measured. The results of analysis of variance of year Í cultivar / genotype on oil qualitative traits showed that their interactions on all traits except K270 were significant at 1% probability level. The results showed that edible oil of T7 genotype (0.79% as oleic acid) and Zard cultivar (0.43% as oleic acid) in 1997 had the lowest and highest FFA contents, respectively. Edible oil of T7 in 2018 (17.22 m Eq / kg of oil) and T2 in 2017 (96.67 m Eq / kg) showed the highest and lowest PV levels, respectively. The K232 extinction coefficient of T18 oil was the lowest in both years (0.8 and 1.03 for 2017 and 2018, respectively). Edible oil of Zard cultivar had the highest amount of total phenol in 2017 (243.94 mg gallic acid per kg of oil). T7 genotype had the highest amounts of total flavonoids in 2018 )21.45 mg of quercetin per kg of oil(. Koroneiki cultivar with 90.55% had the highest antioxidant capacity in 2017 and T7 genotype with 41.65% had the lowest value of this index. T2 genotype in both years in terms of antioxidant capacity was in a statistical group with commercial cultivars.

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The therapeutic value of plums is provided by the contained bioactive compounds, but in consumers choice an essential role is played by the product flavour in which volatile compounds are important contributors. The content in bioactive compounds, the antioxidant activity as well as the volatile profile of three plum cultivars were determined during fruit development. In the analyzed samples, depending on cultivar, harvesting time and the position of fruit in the tree crown, the determined total phenolic content varied between 60.31–699.92 mg GAE 100 g^-1, while the flavonoids and anthocyanins content ranged between 11.24–254.46 mg QE 100 g^-1, and 0.09–1.65 mg CE 100 g^-1, respectively. Using ITEX/GC-MS technique, there were 99 volatile compounds detected in the samples of which 93 were tentatively identified. The volatiles present in the plums cultivars included alcohols, aldehydes, ketones, esters, terpenoids, lactones and others. The most abundant class (in all plum cultivars and developmental phases) was that of aldehydes (49.40–87.01%), the main representatives being hexanal, benzaldehyde, nonanal, heptanal and 2-hexenal, with hexanal having the largest relative peak areas. The identification and quantification of volatile compounds and knowing their accumulation dynamic throughout the ripening process may allow better valorising of fruits depending on cultivar and harvesting time.

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Microencapsulation process is down in protecting volatile and sensitive compounds to chemical reactions. Process modeling can be effective in assessing and predicting the impact of conditions affecting the qualitative properties of the product.
In order to investigated the effect of wall material concentration, protein/polysaccharide ratio and ultrasound waves time on the microencapsulation efficiency, total phenolics, antioxidant capacity and volatile compounds, nano-emulsion of Thymus vulgaris  essential oil in aqueous phase containing protein (sodium caseinate) and polysaccharide (maltodextrin and modified starch) was prepared by ultrasound waves. Modeling of dependent variables was done by response surface methodology and artificial neural network. The results showed that increasing the wall concentration and protein/polysaccharide ratio improved the retention of volatile compounds and antioxidant capacity of the encapsulated essential oil, and at higher values of variables the same trend was observed for the phenolic content. Increasing the protein/polysaccharide ratio and ultrasound waves resulted in increased the microencapsulation efficiency. Models obtained from the interaction effects of neural network and Response Surface Method at higher values resulted in better preservation of total phenolic, antioxidant activity and increased of Microencapsulation efficiency of microcapsules. Microencapsulation produced containing of 20% wall material, 31% protein/polysaccharide ratio and 97s ultrasound time were the best treatment in terms of the microencapsulation efficiency and volatile compounds.Experimental results of the experiments indicative appropriate and uniform function of both response surface and neural network methods and the superiority of the artificial neural network in predicting the desired variables.

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Food gums are additives that play variety of roles such as consistency, gel formation, and stabilizing in food solutions. In this study, the best conditions for extracting Quince seed gum as well as its antioxidant and physicochemical properties were investigated. Extraction of gum was optimized using microwave power (250 -850 W), water to grain ratio (20-60) and time (2-9 min), by the response surface methodology. Gum physicochemical properties including ash, moisture, protein and fat were measured and antioxidant properties were evaluated by DPPH, ABTS, FRAP and β-carotene/linoleic acid bleaching assay. The extraction efficiency was in the range of 8.9% to 15.2%. As the microwave power increases in constant time, gum extraction efficiency increases, but the simultaneous power increases with increasing treatment time, resulted in decreasing gum extraction. Increasing time by keeping the power constant, initially resulted in an increase in extraction and afterward resulted in lower gum extraction. Results of scavenging capacity and antioxidant properties measured using DPPH, FRAP, ABTS and beta –carotene bleaching assay were 53.19 μg/ml, 1.06 μg/ml, 69.61 μg/ml, 2.92 μg/100g respectively, and the amount of total phenol and flavonoids were 74.66 mg GAE/g  and 670.21mg QE/g respectively.

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Various nutraceutical properties of olives are ascribed to their different oil compositions and diversity of their active substances. Iran is endowed with great olive diversity which deserves to be studied. Accordingly, nine minor Iranian olive varieties, i.e. Tarom (T) varieties, were studied. Characterization of these minor varieties (T10, T15, T16, T17, T18, T20, T22, T23, T24) along with 3 major Iranian and 4 Mediterranean varieties with 11 chromosomal SSR markers revealed remarkable diversity among them. Most of T varieties had oil and Total Phenolic Content (TPC) comparable to Mediterranean olives. In comparison with Mediterranean varieties, T18 and T22 had higher Oleic Acid (OlA). T24 and T18 contained the highest and the lowest Linoleic Acid (LiA), respectively. T18 exhibited the highest OlA/LiA ratio. T24 was exceptionally phenols-rich variety followed by T20. Radical Scavenging Activities (RSA) results hardly suggested linear correlation between TPC and antioxidant capacity of the examined varieties. Nonetheless, T22 showed Phenol Antioxidant Coefficient higher than Mediterranean samples. Harvest time was influential on LiA content and the (RSA/TPC) ratios. Considering nutraceutical potential, some of T varieties are superior to the prevailing Iranian and Mediterranean varieties, so, they deserve to be introduced to olive improvement programs.

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In this paper, the possibility of producing sponge cake by replacing triticale flour (TF) (0-30%) and beta-glucan fiber (BG) (0-10%) was investigated by utilizing a two-level factorial design containing central points. According to the results, by increasing TF and BG replacement ratio in the cake formulation, moisture content, water activity, ash, fiber, and antioxidant capacity increased, whereas carbohydrates, calories, and lightness of cases decreased. Moreover, the specific volume of cakes in those samples containing TF decreased, while adding the BG fiber can lead to improving it. Meanwhile, as BG and TF levels increased, the hardness of the samples increased while their cohesiveness and springiness decreased. On the other hand, BG replacement did not have a significant effect on the chewiness and gumminess, whereas TF may lead to increasing them. The overall acceptance of the samples increased with the simultaneous replacement of TF and BG. Furthermore, the numerical optimization confirmed that it is possible to produce enriched and desirable cakes via high utility through a combination of 30% TF and 8.3% BG.
 

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Cucumber fruits have a short shelf life in the post-harvest stage due to high water content, high metabolic activity, and spoilage caused by the growth of microorganisms. In this research, the effects of putrescine (0, 0.5, 1, and 2 mM) and chitosan (0, 0.5, 1, and 1.5%) on some characteristics of cucumber fruit during storage at 12±1 degrees Celsius during storage (0, 10, and 20 days) and one day at 25 degrees Celsius was investigated. The results showed that chitosan and putrescine significantly prevent weight loss, maintain total soluble solids, titratable acidity, pH, firmness, total chlorophyll of skin, and ascorbic acid and improve the sensory quality of cucumber fruit during storage. The lowest weight loss and the highest firmness were obtained in the treatment of 1.5% chitosan and 2 mM putrescine at 10 and 20 days of storage. Also, the highest amount of soluble solids, titratable acidity, total chlorophyll, vitamin C, total antioxidant, total phenol, and the lowest amount of pH, and decrease in sensory quality in 10 and 20 storage times related to the treatments of 1.5% chitosan and 2 mM putrescine that showed a significant difference with the control treatment. 1% and 1.5% chitosan coating treatments showed no significant difference in other traits measured during storage, except for weight loss. It seems that pretreatment of putrescine (2 mM) and chitosan coating (1 to 1.5%) can maintain the quality of fruits for a more extended period while increasing the storage life of cucumber.
 

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This work's main objective was to investigate the gum Arabic effect on reducing oxidative stress in bell peppers during ripening. Gum Arabic in 6, 9, 12, and 15% aqueous solutions was applied as an edible coating before storage on mature bell peppers stored at 8°C and 90-95% relative humidity for 28 days. The fruits that were coated with 12% gum Arabic had the lowest rate of decay, weight loss, total carotenoid content, and peroxidation of membrane lipids, as well as the highest total antioxidant capacity, total phenol, ascorbic acid, and antioxidant enzyme activity (superoxide dismutase, peroxidase, and catalase) during storage compared to the control without coating and the fruit treated with 6 and 9% gum. Still, there was no statistically significant difference with the fruit treated with 15% gum Arabic except for the total carotenoid content. The amount of peroxidation of membrane lipids showed positive and high correlation coefficients with decay (**0.93) and physiological weight loss (**0.89), but with antioxidant capacity (-0.93**), ascorbic acid (**) -0.94), total phenol (-0.92**), activity of SOD (-0.96**), CAT (-0.87**) and POD (-0.86**) correlation. It was negative and high. The results showed that the use of 12% gum Arabic as an edible coating can delay oxidative stress and decay and maintain the antioxidant properties of the fruit for up to 28 days during storage at 8 degrees Celsius.

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Hot chocolate (a cocoa-based beverage) has gained popularity in recent decades due to its many health benefits. However, during the processing of the base powder, some of the nutrients in the product are lost. Therefore, fortification is an effective method to increase the overall nutrient content of hot chocolate. Jujube fruit powder contains ascorbic acid, triterpenic acids, phenolic acids, amino acids, saponins, cerebrosides, flavonoids, polysaccharides, and minerals. In this study, jujube fruit powder was added to hot chocolate powder formulations at 0 (control), 10, 20, and 30%, and the physical, chemical, sensory, and microbial properties; phenolic and flavonoid content, and antioxidant capacity of the product were evaluated. The results showed that the addition of jujube powder significantly increased the total phenolic compounds, flavonoids, and antioxidant activity of the hot chocolate powder. Jujube powder reduced the sugar, fat and pH of the product and increased the total ash and acid-soluble ash. Adding jujube powder up to 20% improved the sensory properties of the product, but adding 30% jujube powder reduced the overall acceptance score of the product from the sensory evaluators' perspective. Therefore, adding 20% ​​jujube powder to the hot chocolate powder formulation can be acceptable.