Moisture‐Absorption and Water Dynamics in the Powder of Egg Albumen Peptide,Met‐Pro‐Asp‐Ala‐His‐Leu

Moisture absorbed into the powder of Met‐Pro‐Asp‐Ala‐His‐Leu (MPDAHL)—a novel egg albumen antioxidant peptide—profoundly affects its properties. In this study, we elucidated water dynamics in MPDAHL using DVS, DSC, and low‐field ¹H NMR. Based on the DVS data, we found that MPDAHL sorption kinetics obey a parallel exponential model. DSC results indicated that both water and heating could change the microstructure of MPDAHL. The T₂ parameters of NMR reflected the different phases of moisture absorption revealed that there were 4 categories of water with different states or mobility in the MPDAHL during the moisture absorption process. The fastest fraction T_2b mainly dominated the hygroscopicity of MPDAHL and the absorbed water significantly changed the proton distribution and structure of MPDAHL. Thus, this study shows that DVS, DSC, and low‐field ¹H NMR are effective methods for monitoring water mobility and distribution in synthetic peptides. It can be used to improve the quality assurance of functional peptides.     

Preparation and Oxidation Stability Evaluation of Tea Polyphenols‐Loaded Inverse Micro‐Emulsion

Compared to synthetic antioxidants, tea polyphenols (TPs) has its own advantages in edible oil industry, however, the hydrophilic properties have restricted its applications. In this study, the ternary phase diagram of TPs‐loaded micro‐emulsion (ME) system was constructed, in which glyceryl monooleate (GMO), Tween80, linoleic acid as the surfactants, ethanol as the co‐surfactant and soybean, corn, sunflower oil as the oil phase, have been used for the preparation of ME. The results indicated that a composition of ME (57.5% oil, 18% Tween80, 18% GMO, 4% Linolic acid, and 2.5% water+ethanol) could dissolve maximum water and could stable for 2 mo at room temperature with an average diameter of 6 to 7 nm, as detected by means of dynamic light scattering (DLS). The loaded of TPs into ME led to an increase of particle size to 15 to 16 nm, due to increased polarity of the water phase. The antioxidant capacity of TPs in ME was characterized by the peroxide value (POV) method. The addition of 1% water phase with 0.1 g/mL TPs could retain the POV at low value for 30 d at accelerating temperature 50 °C. Meanwhile, comparing the three edible oil, ME with corn oil has lower conductivity and higher value of POV during the storage. This work provides an efficient and environmentally friendly approach for the preparation of TPs‐loaded ME, which is beneficial to the application of TPs in edible oil.     

Hair and nail water‐holding capability measurements by using condenser‐TEWL method

We have developed a new method for studying human hair and nail water‐holding capabilities by using the condenser‐chamber trans‐epidermal water loss (TEWL) method. Healthy hair and nail always contain certain amount of water, and they will lose this water to the environment naturally through evaporations. We monitored this desorption process by continuously measuring the water vapour flux density from hair and nail using the condenser‐TEWL method, which is a condenser‐based closed‐chamber TEWL technology that is particularly suitable for this kind of measurements. We have also develop mathematical models for modelling the hair and nail desorption process. By fitting the normalized hair and nail desorption data with the mathematical models, we can get the water diffusion coefficient information, which can then be related to the water‐holding capabilities of the hair and nail samples.     

Genotyping of the kappa‐casein and beta‐lactoglobulin genes in Anatolian water buffalo by PCR‐RFLP

The objective of this study was to identify allele and genotype frequencies of the κ‐CN and β‐LG genes in Anatolian water buffalo. A total of 126 water buffalos from Turkey were genotyped using the PCR‐RFLP method. For gene κ‐CN, only B allele and BB genotype were observed. And for gene β‐LG, two types of alleles (A and B) and three types of genotypes were observed. The genotype frequencies of AA, AB and BB of β‐LG in Anatolian water buffalo were 0.254, 0.698 and 0.048, respectively. Surprisingly, the frequency of allele A was higher than that of allele B in contrast to world buffalo breeds.     

Cleaning in place with onsite‐generated electrolysed oxidizing water for water‐saving disinfection in breweries

The use of acid electrolysed water (AcEW) is a relatively new sanitizing technique for brewery equipment. Experiments showed that a 30% AcEW (a free chlorine concentration of above 17 mg/L) was a sufficient and effective alternative to conventional sanitizers such as peracetic acid (2%). On the basis of the results of industrial‐scale clean‐in‐place tests, an effective AcEW‐based clean‐in‐place procedure, which requires only 10 min of cleaning and does not require final water rinsing after sanitation, was established for the bright beer tank. Copyright © 2013 The Institute of Brewing & Distilling     

Initial Droplet Size Impacts pH‐Induced Structural Changes in Phase‐Separated Polymer Dispersions

The effect of pH change on the morphology of whey protein isolate (WPI)–pectin dispersions obtained from phase‐separated systems after mild shear was studied. The purpose of this study was to examine the impact of mixing speed on the initial particle size of biopolymer complexes and their structure morphology after sequentially changing the pH. Therefore, solutions of WPI and pectin were combined at pH 6.1, allowed to phase separate and were then mildly homogenized at 50, 100, and 150 rpm, respectively, to form a dispersion containing differently sized WPI droplets in a surrounding pectin‐rich phase. Each dispersion was then subjected to a pH change, such as 6.1 to 5.2 and 3.2, by slowly adding hydrochloric acid. The systems morphology, size, appearance, rheology, and storage stability was then characterized by optical microscopy, static light scattering, visual inspections, and steady shear rheometry to gain insights into the structural rearrangements. Results indicated substantial changes in the structure of the dispersion when the pH was changed. Formation of core‐shell structures from the WPI droplets was observed at an intermediate pH. There, initial droplet size was found to affect structures formed, that is, core‐shell type particles would only form if droplets were large (>1.5 μm) prior to pH change. Insights gained may be of importance to food manufacturers intending to create new structures from mixtures of proteins and carbohydrates.     

Antibiofilm formation and anti‐adhesive (to HEp‐2 cells) effects of rosemary water extract against some food‐related pathogens

The present work aimed to determine the bioactive compounds in two rosemary water extracts (RWE1 and RWE2) and to assess their antimicrobial, anti‐adhesive and antibiofilm potentials against the food‐related Bacillus and Pseudomonas species at concentrations; 4, 8, 12, 16 and 20 mg mL^?1. Phenolic compounds and isoflavones in the RWEs were determined using HPLC. The concentrations of most bioactive compounds of RWE1 (benzoic, ellagic, gallic and rosmarinic acids, daidzein and genistein) were higher than that of RWE2. The MIC₉₀ of RWE1 and RWE2 against all tested bacteria was 12 and 16 mg mL^?1, respectively. The anti‐adhesive and antibiofilm doses were higher than MIC₉₀. RWE1 and RWE2 showed potential reduction in the bacterial cell adhesion to HEp‐2 cells – 17.5–64.7 and 12.2–52.9%, respectively. In conclusion, this study emphasises the effective use of RWE as a natural anti‐adhesive and antibiofilm agent against Bacillus and Pseudomonas, without difficult extraction procedure.     

Improved Extraction and Quality Characterization of Water‐Soluble Polysaccharide from Gamma‐Irradiated Lentinus edodes

Gamma irradiation was applied to the improved extraction of water‐soluble polysaccharides (WSPs) from dried Lentinus edodes. Irradiation provided a dose‐dependent increase in extraction yield (0 kGy, 2.01%; 7.5 kGy, 4.03%; 15 kGy, 7.17%) and purity (0 kGy, 78.8%; 7.5 kGy, 83.1%; 15 kGy, 85.6%) of the WSPs from hot‐water extraction. The effect of irradiation was evident in the degraded microstructures and reduced molecular weights of the WSPs. However, nuclear magnetic resonance, Fourier‐transform infrared, and X‐ray diffraction spectroscopic analyses provided comparable structures of WSPs from nonirradiated and irradiated samples. UV–visible spectra showed a dose‐dependent decline in intensity, but an improvement in thermal properties of the WSPs from the irradiated mushroom samples was observed.     

Antimicrobial activities of high molecular weight water‐soluble chitosans against selected gram‐negative and gram‐positive foodborne pathogens

Antimicrobial activities of high molecular weight water‐soluble chitosans (HMWWS) against selected Gram‐negative and Gram‐positive foodborne pathogens (initial inoculation of ca. 6.5 Log CFU mL^?1) were evaluated. Chitosans with 789 kDa and/or 1017 kDa were dissolved in aspartic acid (AS) to obtain 1–4% w/v solutions. Among HMWWS, only 4% 789 kDa AS chitosan reduced E. coli counts by 2 Log CFU mL^?1 from 7.33 at 0 h to 5.16 Log CFU mL^?1 at 96 h, and they were not effective against S. Typhimurium. Depending on the concentrations, HMWWS completely inhibited V. cholerae, V. vulnificus and V. parahaemolyticus as well as B. cereus and L. monocytogenes after 48 h or 96 h of incubation. Compared with the control (no HMWWS), 2% or 3% 1017 kDa AS chitosans showed about 3 Log CFU mL^?1 lower (4.72–4.86 vs. 7.71) for S. aureus at 96 h of incubation.     

The effect of tapioca maltodextrins on the stability of oil‐in‐water emulsions

The effect of concentration of tapioca maltodextrin with three different DE values on the viscosity, depletion attraction potential (W_dep), rate of coalescence (K_c), and creaming rate of oil‐in‐water emulsion have been investigated. The relative viscosity and W_dep increased with increasing maltodextrin concentration. Critical flocculation concentration (CFC) of emulsions containing maltodextrin with DE of 16 (DE16), 12 (DE12), and 9 (DE9) were 11, 7, and 5.5 wt%, respectively. At maltodextrin concentrations below CFC, there was no change in K_c and no creaming was observed. At maltodextrin concentrations above CFC, an increase in the concentration of DE9 and DE12 resulted in an increase in K_c until it reached a constant value. K_c values remained to be constant in the concentration range between 30 and 40 wt% for DE9 and that between 35 and 45 wt% for DE12. Further increasing in concentration of DE9 and 12 decreased K_c. K_c of DE16 monotonically increased with increasing concentration from CFC to 50 wt%. The rate of creaming decreased with increasing maltodextrin concentration over CFC until it reached zero. Creaming was not observed at maltodextrin concentrations more than 35 wt% for DE9 and 40 wt% for DE12 whereas DE16 showed creaming at all concentrations above CFC. A maltodextrin with a lower DE inhibited creaming more efficiently than maltodextrin with a higher DE because of higher viscosities. The K_c tended to increase with decreasing DE because the strength of interaction between oil droplets increased.     

Preparation and characterisation of isoflavone aglycone‐rich calcium‐binding soy protein hydrolysates

Isoflavone aglycone‐rich calcium‐binding soy protein hydrolysates were prepared by subcritical water treatment and subsequent protease hydrolysis. Contaminated β‐glucosidase in the Protease M preparation could effectively convert glycosides into aglycones. Compared with Alcalase hydrolysates, Protease M hydrolysates exhibited higher molecular weight (>5000 Da) and more hydrophobic characteristics because of its weaker proteolytic activity. The antioxidant activity of Protease M hydrolysates was obviously improved. Initial increased DPPH and ABTS radical scavenging rate of Protease M hydrolysates may be ascribed to the conversion of isoflavones (<30 min) and a gradual release of antioxidant peptides. In the later hydrolysis, a gradual exposure of isoflavones involved in the interior of heat‐induced protein aggregates was mainly responsible for further improved antioxidant activities. Higher calcium‐binding capacity (up to 7.86%) with lower yield of peptide–calcium complex was observed for Protease M hydrolysates. These results could help researchers to develop a feasible protocol for producing nutrient‐enhanced soy protein hydrolysates.