95 research outputs found
Soft matter approaches for food proteins: interfacial and foaming properties
Soft matter approaches for food proteins: interfacial and foaming properties. STLOpenday
Propriétés interfaciales et moussantes des protéines
Propriétés interfaciales et moussantes des protéines. journée scientifique "science des aliments et valorisation des bio-produits
Comparison of rheological properties of acid gels made from heated casein combined with β-lactoglobulin or egg ovalbumin
Gelation of heat-treated milk protein solutions by acid fermentation was performed using a model system of micellar casein alone (systR), micellar casein and b-lactoglobulin (systB) or micellar casein and egg ovalbumin (systO) dissolved in a milk ultrafiltrate and heat-treated at 901C for 24 min. Solubility of globular proteins at given pH values and their interactions with casein were determined. Particle size and z-potential of the protein systems were measured before and after heat treatment. Acid gelation of the heated systems was monitored using dynamic low-amplitude strain oscillation. Ovalbumin alone or with casein produced largerparticles than casein alone or with b-lactoglobulin upon heat treatment. The systems gelled at different pH values, i.e. 4.88, 5.47 and 5.88 in systR, systB and systO, respectively. The latter two pH values were clearly related to the pH of the loss of solubility of the heated globular proteins. While the gelation pattern for systR resembled unheated milk, the pattern for systB and systO showed the usual maximum for tan d of heated milk
Comprehensive study of acid gelation of heated milk with model protein systems
The effect of heat treatment of milk on the formation of acid gels was investigated using model protein systems. Protein systems contained micellar casein alone (35 g kg−1) (systR) or in the combination with either β-lactoglobulin (βLG) (4 g kg−1; systB) or egg ovalbumin (4 g kg−1; systO). Proteins in a milk ultrafiltrate (UF) were heat-treated at 90°C for 24 min. The same heat-treated systems without casein were also prepared: the UF alone (systUFR), with βLG (4 g kg−1; systUFB) and with ovalbumin (4 g kg−1; systUFO). Proteins in pellet and supernatant fractions were analysed using reverse-phase high-pressure liquid chromatography and sodium dodecyl sulphate polyacrylamide gel electrophoresis. The solubility of globular proteins in heated systUFB and heated systUFO was determined at pH 1.6–6.5 by absorbance measurements. Rheological changes during gelation with a starter at 42°C were determined and microstructures of gels by scanning electron microscopy. High quantities of κ-casein and βLG in the form of complexes (disrupted by 2-mercaptoethanol) were found in supernatant of heated systB and not in that of systO. The gelation pH was related to the solubility of the globular proteins, and the gelation pattern for systB and systO resembled that of heated milk and the systR pattern resembled that of unheated milk. The gels of systR were coarse and consisted of large particles. Particles in gels from systB and systO were smaller and less clustered. Although the two globular proteins behave differently during heating, they both confer to the casein micelles their solubility properties as a function of pH. A model is presented where both soluble and colloidal complexes including the globular protein interact at pH 5.5 and initiate the acid gelation
Interfacial properties, film dynamics and bulk rheology:A multi-scale approach to dairy protein foams
International audienceHypothesis: The effective contribution of interfacial properties to the rheology of foams is a source of many open questions. Film dynamics during topological T1 changes in foams, essentially studied for low molecular weight surfactants, and scarcely for proteins, could connect interfacial properties to protein foam rheology. Experiments: We modified whey protein isolate (WPI), and its purified major protein b-lactoglobulin (b-lg) by powder pre-conditioning and dry-heating in order to obtain a broad variety of interfacial properties. We measured interfacial properties, film relaxation duration after a T1 event and bulk foam rheology. Findings: We found that, for b-lg, considered as a model protein, the higher the interfacial elastic modulus, the longer the duration of topological T1 changes and the greater the foam storage and loss moduli and the yield stress. However, in the case of the more complex WPI, these correlations were less clear. We propose that the presence in WPI of other proteins, lactose and minerals modify the impact of pre-conditioning and dry-heating on proteins and thereby, their behaviour at the interface and inside the liquid film
The surface properties of milk fat globules govern their interactions with the caseins: Role of homogenization and pH probed by AFM force spectroscopy
The surface of milk fat globules consists of a biological membrane rich in polar lipids and glycoproteins. However, high shear stress applied upon homogenization disrupts the membrane and leads to the adsorption of casein micelles, as the major protein fraction of milk. These changes in the interface properties could affect the interactions between native or homogenized milk fat globules and the surrounding protein matrix, at neutral pH and upon acidification. In this study, macroscale rheometry, microscopic observations, nanoscale AFM-based force spectroscopy and physico-chemical analysis were combined to examine the interfacial composition and structure of milk fat globules and to evaluate their interactions with casein micelles. We showed that the surface properties of milk fat globules (biological membrane vs. caseins) and pH govern their interactions with casein micelles. The adhesion between individual fat globules and casein micelles was higher upon homogenization, especially at acid pH where the work of adhesion increased from 3.3 x 10-18 to 14 x 10-18 J for native and homogenized fat globules, respectively. Consequently, casein-coated homogenized fat globules yield stiffer milk acid gels. These findings cast light on the importance of colloidal particle’s surface properties and pH on their connectivity with the surrounding matrix, which modulates the bulk microstructure and rheological properties with potential functional consequences, such as milk lipid digestion
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The role of Ovotransferrin in egg-white antimicrobial activity: a review
Eggs are a whole food which affordably support human nutritional requirements worldwide.
Eggs strongly resist bacterial infection due to an arsenal of defensive systems, many of which
reside in the egg white. However, despite improved control of egg production and distribution,
eggs remain a vehicle for foodborne transmission of Salmonella enterica serovar Enteritidis, which
continues to represent a major public health challenge. It is generally accepted that iron deficiency,
mediated by the iron-chelating properties of the egg-white protein ovotransferrin, has a key role
in inhibiting infection of eggs by Salmonella. Ovotransferrin has an additional antibacterial activity
beyond iron-chelation, which appears to depend on direct interaction with the bacterial cell surface,
resulting in membrane perturbation. Current understanding of the antibacterial role of ovotransferrin
is limited by a failure to fully consider its activity within the natural context of the egg white, where a
series relevant environmental factors (such as alkalinity, high viscosity, ionic composition, and egg
white protein interactions) may exert significant influence on ovotransferrin activity. This review
provides an overview of what is known and what remains to be determined regarding the antimicrobial
activity of ovotransferrin in egg white, and thus enhances understanding of egg safety through
improved insight of this key antimicrobial component of eggs
Propriétés interfaciales et moussantes des protéines
Propriétés interfaciales et moussantes des protéines. journée scientifique "science des aliments et valorisation des bio-produits
Soft matter approaches for food proteins: interfacial and foaming properties
Soft matter approaches for food proteins: interfacial and foaming properties. STLOpenday
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