Association of denatured whey proteins with casein micelles in heated reconstituted skim milk and its effect on casein micelle size

Anema, Skelte G.; Li, Yuming

doi:10.1017/s0022029902005903

Cited by 306 publications

(260 citation statements)

References 22 publications

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“…In those studies, it was clearly demonstrated that increasing heating time or temperature, as well as decreasing the heat-treatment pH led to an increase in average micelle size. These results correlated well with the amount of denatured whey protein found to be associated with the casein micelles as a function of heating time, heating temperature and heat-treatment pH [3,6]. The effect of the heat-treatment pH was, however, negligible and the effect of the heat-treatment itself seemed barely significant, at as low a heating regime as 90 °C for 30 s [3,4], as used in the present study.…”

Section: Micelle Sizesupporting

confidence: 72%

“…The analysis of the micellar phase of the same milk samples did not, however, indicate that less whey protein/κ-casein aggregates could be bound to the casein micelles as heat-treatment pH increased. Earlier studies using the same method, however, reported a clear correlation between a lower heat-treatment pH and a higher proportion of micelle-bound whey protein/κ-casein aggregates [3][4][5]. The results of the present study were accounted for by the mild heating regime.…”

Section: Discussioncontrasting

confidence: 44%

“…4) and swelling of the casein micelle due to the increase in the electrostatic repulsion between negativelycharged casein molecules. Earlier studies have reported in detail the effect of heattreatment pH values ranging from 6.5 to 6.7 and heating regime [3,4]. In those studies, it was clearly demonstrated that increasing heating time or temperature, as well as decreasing the heat-treatment pH led to an increase in average micelle size.…”

Section: Micelle Sizementioning

confidence: 96%

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Effect of heat treatment at alkaline pH on the rennet coagulation properties of skim milk

Ménard

Camier

Guyomarc’H

2005

Lait

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-Reconstituted skim milk was heated at 90 °C for 30 s at pH values ranging from 6.6 to 8.1, stored overnight at 5 °C then renneted at pH values ranging from 6.2 to 6.6. The heat-induced disimprovement of the rennet coagulation properties of the milk (longer rennet coagulation time and lower gel firmness) were partially reduced as heat-treatment pH increased, except at pH 6.6. These properties were related to the increased heat-induced dissociation of micellar κ-casein and subsequent formation of serum, rather than micelle-bound, heat-induced whey protein/κ-casein aggregates. It was postulated that such distribution of the denatured whey protein and κ-casein slightly reduced the detrimental effects of heating on the enzymatic coagulation, as well as helped earlier destabilisation of the micelles. These results are discussed with respect to the amplitude of the effect of the heat-treatment pH, as well as the side effects of alkalinisation and heat treatment on casein dissociation.whey protein / heat treatment / rennet coagulation / pHRésumé -Effets d'un traitement thermique à pH alcalin sur l'aptitude du lait écrémé à la coagulation présure. Du lait écrémé reconstitué est traité thermiquement à 90 °C pendant 30 s à des pH variant de 6,6 à 8,1, stocké à 5 °C pendant une nuit puis emprésuré à des pH variant de 6,2 à 6,6. La perte d'aptitude à la coagulation présure des laits chauffés (temps de coagulation plus long et moindre fermeté) a été réduite pour des pH de traitement thermique croissants, sauf à pH 6,6. Ces propriétés ont été mises en relation avec un taux de dissociation accru de la caséine κ quand le pH de traitement thermique augmente, et donc une proportion accrue d'agrégats thermo-induits de protéines sériques dénaturées et de caséine κ dans la phase soluble du lait. Il est postulé que cette distribution en protéines réduit légèrement les effets rédhibitoires du traitement thermique sur la coagulation enzymatique, et accélère la déstabilisation des micelles de caséines. Ces résultats sont discutés relativement à l'amplitude de l'effet du pH de traitement thermique ainsi qu'à la dissociation alcaline ou thermo-induite des autres caséines.protéine sérique / traitement thermique / coagulation présure / pH

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Section: Micelle Sizesupporting

confidence: 72%

Section: Discussioncontrasting

confidence: 44%

Section: Micelle Sizementioning

confidence: 96%

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Effect of heat treatment at alkaline pH on the rennet coagulation properties of skim milk

Ménard

Camier

Guyomarc’H

2005

Lait

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“…Unfortunately many different techniques have been used to separate the micellar and serum phases. Centrifugation is the most common but many different conditions have been used, ranging from 175 000× g/60 min to 19 200× g/240 min [2,4,11,17,18,22,29,32,33,[35][36][37]41]. Other researchers have rejected the use of centrifugation on the basis of being too harsh and likely to cause micellar disintegration and have used treatment with rennet to precipitate the micelle fraction instead [38].…”

Section: Resultsmentioning

confidence: 99%

Role of protein aggregation in heat-induced heat stability during milk powder manufacture

Williams

D'ath

Zisu

2008

Dairy Sci. Technol.

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-Although the inherent heat stability and the processes leading to the heat-induced coagulation of milk and reconstituted milk powders have been studied extensively, the processes that lead to heat-induced heat stability are less well established. An investigation has been undertaken into the effects of standardization with milk permeate or lactose and the heat-stabilization of milk powders. Standardized and unstandardized milk powders were produced in spring and autumn to determine seasonal effects on their heat stability. Other standardized powders were produced using a range of preheat treatments (85 • C/1800 s, 120 • C/120 s, and 140 • C/5 s) to evaluate the effects of preheat treatment and standardization on the heat stability of milk powders. Micelle size and the soluble aggregates formed during the preheat treatment were characterized by a combination of size-exclusion chromatography and SDS-PAGE. The heat stability of the powders was evaluated in a bench-scale model of retorted recombined evaporated milk manufacture. As has been generally accepted, the heat stability may be mediated by the way in which the milk responds to the preheat treatment given during milk powder manufacture. However, we have found that causing the denaturation of the whey proteins in itself, as is indicated by analytical measures such as the whey protein nitrogen index (WPNI) is not sufficient to impart heat stability. Our work suggests that milks with good heat stability are achieved by heating to give a low WPNI and a balance of moderately sized soluble aggregates and a decrease in the proportion of smaller micelles. The formation of these aggregates is influenced by the heating regime applied and varies at different times of year.heat stability / milk protein aggregation / micellar integrity Résumé -Rôle de l'agrégation des protéines dans la stabilité thermique thermo-induite au cours de la fabrication de poudre de lait. Bien que la stabilité thermique inhérente et les processus conduisant à la coagulation thermo-induite du lait et des poudres de lait reconstituées aient été largement étudiés, les processus qui conduisent à la stabilité thermique thermo-induite sont moins bien établis. Une étude a été entreprise concernant les effets de la standardisation avec du perméat de lait ou du lactose et la stabilisation thermique des poudres de lait. Des poudres de lait, standardisé et non standardisé, ont été produites au printemps et en automne pour déterminer l'effet saison sur leur stabilité thermique. D'autres poudres standardisées ont été produites en appliquant différents prétraitements thermiques (85 • C/1800 s, 120 • C/120 s et 140 • C/5 s) pour évaluer les effets du pré-traitement et de la standardisation sur la stabilité thermique des poudres de lait. La taille des micelles et les agrégats solubles formés au cours du prétraitement thermique ont été caractérisés en combinant chromatographie d'exclusion de taille et électrophorèse SDS-PAGE. La stabilité thermique des poudres était évaluée à l'aide d'un modèle simulant...

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“…Therefore, β-lactoglobulin and α-lactalbumin denaturation in milk and various model systems has been widely studied (Corredig and Dalgleish, 1999;Dannenberg and Kessler, 1988a;Parris et al, 1991). Numerous reports have found that heating milk to temperatures > 60℃ leads to whey protein denaturation, thereby facilitating their interaction with each other or with κ-casein to form aggregates (Anema and Li, 2000, 2003a, 2003bCorredig and Dalgleish, 1999;Dannenberg and Kessler, 1988a;Guyomarc'h et al, 2003;Pearse et al, 1985;Smits and Brouwershaven, 1980;.…”

Section: Introductionmentioning

confidence: 99%

Effects of Heating Conditions on Physicochemical Properties of Skim Milk Powder during Production Process

Miyamoto

Matsumiya

Kubouchi

et al. 2009

FSTR

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To investigate the effects of production-related heat treatments on physicochemical properties of skim milk powder, four kinds of skim milk powder were prepared under different heating conditions. The degree of heating was expressed as the integrated caloric content added to the powders. The four skim milk powders were dispersed in water, and the physicochemical properties of them were compared. Solution turbidity increased with an increase in integrated caloric content, but the protein content in the supernatant decreased; the latter characteristic indicated that severe heating conditions resulted in aggregate formation of denatured whey protein molecules. The content of sulfhydryl groups and surface hydrophobicity of skim milk solutions were closely related to the heating conditions in the production process. SDS-PAGE analysis revealed that β-lactoglobulin and α-lactalbumin were main proteins involved in aggregate formation. The powder that had been treated with the most severe heating condition was found to be the most suitable for making bread.

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Association of denatured whey proteins with casein micelles in heated reconstituted skim milk and its effect on casein micelle size

Cited by 306 publications

References 22 publications

Effect of heat treatment at alkaline pH on the rennet coagulation properties of skim milk

Effect of heat treatment at alkaline pH on the rennet coagulation properties of skim milk

Role of protein aggregation in heat-induced heat stability during milk powder manufacture

Effects of Heating Conditions on Physicochemical Properties of Skim Milk Powder during Production Process

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