L. Savoie scite author profile

Whey protein beads were successfully produced using a new emulsification/cold gelation method. The principle of this method is based on an emulsifying step followed by a Ca(2+)-induced gelation of pre-denatured (80 degreesC/30 min) whey protein. Beads are formed by the dropwise addition of the suspension into a calcium chloride (CaCl(2)) solution. IR results show that bead formation has a pronounced effect on the secondary structure of whey protein, which leads to the formation of intermolecular hydrogen-bonded beta-sheet structures. Their preparation conditions (CaCl(2) concentrations of 10, 15, and 20% (w/w)) influence their sphericity and homogeneity: an increase in CaCl(2) favors regular-shaped beads. The physicochemical and mechanical characterizations of beads were also carried out. Their properties, such as swelling, elasticity, deformability, and resistance at fracture, change according to pH levels (1.9, 4.5, and 7.5) and preparation conditions. Indeed, protein chain networks exhibit different behavior patterns with respect to their charge. Finally, bead degradation by enzymatic hydrolysis reveals that beads are gastroresistant and form good matrixes to protect fat-soluble bioactive molecules such as retinol, that have in vivo intestinal absorption sites. The experiment demonstrated the potential of whey protein beads to protect molecules sensitive (i.e., vitamins) to oxidation.

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Dialysis Cell for the In Vitro Measurement of Protein Digestibility

Savoie

Gauthier

1986

Journal of Food Science

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A dialysis cell was devised to study in vitro digestion of proteins. The inner reaction vessel (surrounded by a tubular membrane with molecular weight cutoff of 1000) was fixed into a cylindrical outer compartment where buffer circulation was provided. The dimensions of compartments, membranes and buffer flow rate were determined with labelled amino acids in order to ensure the most efficient diffusion pattern. For the digestion assay, casein was first hydrolyzed with pepsin (pH 1.9) for 30 min. The mixture was then made alkaline (pH 7.5) and poured into the dialysis tube with pancreatin. Nitrogenous material collected with the sodium phosphate buffer was analyzed without further fractionation for the direct measurement of hydrolysis kinetic or of protein digestibility.

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Characterization of physicochemical forces involved in adhesion of Listeria monocytogenes to surfaces

Mafu

Roy

Goulet

et al. 1991

Appl Environ Microbiol

106

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This study investigated the physicochemical forces involving the adhesion ofListeria monocytogenes to surfaces. A total of 22 strains of L. monocytogenes were compared for relative surface hydrophobicity with the salt aggregation test. Cell surface charges and hydrophobicity of L. monocytogenes Scott A were also determined by electrophoretic mobility, hydrophobic-interaction chromatography, and contact angle measurements. Electrokinetic measurements indicated that the strain Scott A has a negative electrophoretic mobility. Physicochemical characterization of L. monocytogenes by various methods indicates that this microorganism is hydrophilic. All L. monocytogenes strains tested with the salt aggregation test method aggregated at very high ammonium sulfate molarities. The hydrophobicity-interaction chromatography results show that L. monocytogenes Scott A cells do not adhere to octyl-Sepharose unless the pH is low. Results from contact angle measurements showed that the surface free energy of strain Scott A was 65.9 mJ m-2, classifying this microorganism as a hydrophilic bacterium. In addition, the interfacial free energy of adhesion of L. monocytogenes Scott A estimated for polypropylene and rubber was lower than that for glass and stainless steel. However, these theoretical implications could not be correlated with the attachment capabilities of L. monocytogenes.

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The Effect of Milk Fermentation by Lactobacillus helveticus on the Release of Peptides During In Vitro Digestion

Matar

Amiot

Savoie

et al. 1996

Journal of Dairy Science

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This study evaluated the effect of protein hydrolysis by lactic acid bacteria during milk fermentation on the release of amino acids and peptides duing subsequently simulated peptic and pancreatic digestion. After digestion with trypsin, we compared the elution patterns of proteins and peptides obtained from unfermented milk and from milk fermented by Lactobacillus helveticus under pH control, using HPLC gel filtration and reverse-phase HPLC. The results indicate that milk fermentation affects the release of some amino acids during simulated gastrointestinal digestion and has a major impact on the modification of protein elution profiles obtained after digestion with trypsin. We conclude that proteolysis during fermentation may lead to the formation of novel peptides during gastrointestinal digestion.

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Relationship between dietary proteins, their in vitro digestion products, and serum cholesterol in rats

1986

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L. Savoie

Elaboration and Characterization of Whey Protein Beads by an Emulsification/Cold Gelation Process: Application for the Protection of Retinol

Dialysis Cell for the In Vitro Measurement of Protein Digestibility

Characterization of physicochemical forces involved in adhesion of Listeria monocytogenes to surfaces

The Effect of Milk Fermentation by Lactobacillus helveticus on the Release of Peptides During In Vitro Digestion

Relationship between dietary proteins, their in vitro digestion products, and serum cholesterol in rats

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