20 research outputs found

    Effect of ultrasonic pretreatment on the rheology and structure of grass pea (Lathyrus sativus L.) protein emulsion gels induced by transglutaminase

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    In this study, emulsion gels were prepared by sonicated grass pea protein isolates (GPPI) at different ultrasonic amplitudes (25, 50 and 75 %) and times (5, 10 and 20 min). Formation of emulsion gels was induced by transglutaminase. Enzymatic gelation of emulsions stabilized by sonicated GPPI occurred in two stages. A relatively fast stage led to the formation of a weak gel which was followed by a slow stage that strongly reinforced the gel structure. Emulsion gels fabricated by sonicated GPPIs showed a homogeneous and uniform droplet distribution with higher elastic modulus compared to the native protein. A stiffer emulsion gel with a higher G' was formed after the protein was treated at 75 % amplitude for 10 min. After sonication of GPPI, the water holding capacity (WHC) of emulsion gels increased in accordance with the mechanical properties. Higher intermolecular cross-linking within the gel network increased the thermal stability of emulsion gels fabricated by sonicated GPPI. Although sonicated-GPPI emulsion gels clearly displayed homogenous microstructure in comparison to that made with native GPPI, the microstructures of these gels were nearly identical for all sonication amplitudes and times

    Formation of alginate/ Alyssum homolocarpum seed gum (AHSG) microgels through electrospraying technique to encapsulate and release curcumin

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    This study aimed to produce microgels by electrospraying of alginate/AHSG (Alyssum homolocarpum seed gum) dispersions at different mixing ratios (1:0, 3:1, 1:1) for encapsulation of curcumin. Addition of AHSG to alginate increased the ζ-potential while it reduced the viscosity of the dispersions. Increased alginate to AHSG ratio resulted in smaller microgels and more uniform morphology. Results confirmed that curcumin was physically entrapped within the microgels matrix. As the alginate to AHSG ratio decreased, the microgel's encapsulation efficiency and thermal stability (∆H) increased from 87.76 to 95.85 % and 23.84 to 40.33 (J/g), respectivly. The lowest curcumin release rate during storage was for 3:1 alginate:AHSG microgel (41.4 %). The microgels provided more protection for curcumin against UV irradiation. The release profiles of curcumin from microgels during in vitro digestion were controlled by the Fickian diffusion phenomenon. Overall, these results indicated that electrosprayed alginate/AHSG microgels enhanced the photostability and improved the controlled release of curcumin throughout the gastrointestinal tract

    Effects of glycerol and sorbitol on a novel biodegradable edible film based on Malva sylvestris flower gum

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    There has been an increasing interest in the investigation of novel eco-friendly packaging materials. An edible film based on Malva sylvestris flower gum was fabricated with 40%, 50%, and 60% glycerol and sorbitol using casting method. FTIR analysis was applied to identify the functional groups of films with different concentrations of plasticizers. The lightness of the samples did not affect upon increasing the sorbitol and glycerol; nevertheless, the samples tended to be green and yellow. SEM images indicated that glycerol-based films enjoy heterogeneous and porous surfaces compared to the sorbitol-based samples. Although Tensile Strength and Young's Modulus characteristics declined considerably (p < .05) upon plasticizer addition, elongation at break increased by more than 10% in glycerol-based samples. A significant (p < .05) decrement was observed in the density of film strips via the addition of glycerol and sorbitol. Moisture content of films incorporated with both plasticizers saw a considerable improvement (p < .05) upon increasing the plasticizer concentration from 40% to 60% and is ascribed to the water-holding capacity of plasticizers. Water contact angle and water solubility increased via plasticizer supplementation, which is attributed to the hydrophilic characteristic of glycerol and sorbitol, are in line with SEM analysis

    The rheological properties of ketchup as a function of different hydrocolloids and temperature

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    The flow properties of ketchup were assessed upon addition of commonly used food thickeners: guar, xanthan and CMC gum at three different concentrations (0.5%, 0.75% and 1%) and four temperatures (25, 35, 45 and 55 °C). The ketchup without supplementation served as a control. All ketchup formulations exhibited non-Newtonian, pseudoplastic behaviour at all temperatures and hydrocolloid levels. The Power-law and Herschel-Buckley model were successfully applied to fit the shear stress versus shear rate data. The flow behaviour indices, n and n′, varied in the range of 0.189–0.228 and 0.216–0.263, respectively. The consistency coefficients, k and k′, were in the range of 8.42–27.22 and 6.56–20.10 Pa sn, respectively. The addition of hydrocolloids increased the yield point (τ0) and apparent viscosity of the ketchup in comparison to that of the control. The Arrhenius equation was successfully used to describe the effects of temperature on the apparent viscosity of the prepared formulations. The Ea value appeared in the range between 5492.6 and 21475.8 J mol−1

    Use of quince seed mucilage edible films containing natural preservatives to enhance physico-chemical quality of rainbow trout fillets during cold storage

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    AbstractIn this study quality changes of rainbow trout fillet wrapped with quince seed mucilage QSM film incorporated with 0–2% (V/V) thyme or oregano essential oil, as natural preservatives, during storage of 18d at 4°C were investigated. The control and wrapped fillet samples were analyzed for texture, lipid oxidation, and color characteristics. After 6d of storage, a significantly increasing trend was observed for lipid oxidation in control samples. Peroxidation values (PV) varied for all treatments and remained lower than 8meq/kg throughout the storage time (18d). The lowest PV was obtained in fillets wrapped with QSM film containing 2% oregano essential oil. Compared to control samples, fillet samples wrapped with QSM films presented a significant reduction in pH after 12d (P<0.05). L* and b* color parameters were increased while parameter a* was decreased linearly for all treatments during the storage time
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