Role of Individual Milk Salt Constituents in Cross-linking by Colloidal Calcium Phosphate in Artificial Casein Micelles

Aoki, Takayoshi; Kawahara, Akihiro; Kako, Yoshitaka; Imamura, Tsuneaki

doi:10.1080/00021369.1987.10868109

Cited by 5 publications

(4 citation statements)

References 2 publications

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“…This hypothesis was reinforced by the fact that part of the Ca (2 niM) is easily exchangeable (Yamauchi et al 1969;Pierre et al 1983). Furthermore, these results support the work of Aoki et al (1986Aoki et al ( , 1987a, which suggested that the casein-mineral crosslinking occurred as a function of the number of SerP residues present in casein sequences in the order a s2 -CN > a sl -CN > /?-CN. However, in our work we found only a small proportion of phosphopeptides derived from <x s2 -CN, probably because this protein is present in smaller amounts than a sl -CN and /5-CN and is therefore more difficult to detect.…”

Section: Discussionsupporting

confidence: 86%

Phosphopeptides interacting with colloidal calcium phosphate isolated by tryptic hydrolysis of bovine casein micelles

Gagnaire

Aimar

Mollé

et al. 1996

Journal of Dairy Research

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SummaryAfter extended tryptic hydrolysis of large bovine casein micelles, a mineral-rich peptide fraction was recovered by ultracentrifugation. Its mineral part contained 72% of the colloidal Ca and 49% of the colloidal Pi originally present in the native micelle. Colloidal nitrogenous components were also present, amounting to 27% of the original N content. They contained most of the phosphopeptides and 82% of the micellar phosphoseryl residues. These tryptic peptides were characterized by reversed-phase HPLC on-line electrospray ion source–mass spectrometry analysis. Among the peptides produced 14 phosphopeptides were identified: αs2-CN(l–24), αs2-CN(1–21), αs1-CN(43–79), αs1-CN(35–79)7P, αs1-CN(35–79)8P, αs1-CN(37–79), αs1-CN(104–119), αs1-CN(104–124), β-CN(1–25), β-CN(1–28), β-CN(1–29), β-CN(30–97), β-CN(33–97) and β-CN(29–97). The proportion of the phosphopeptides interacting with colloidal calcium phosphate was correlated with their relative content of phosphoserine residues, since phosphopeptides containing more than four phos-phoserine residues were consistently present within this fraction. It also appeared that other types of peptides, some of them hydrophobic in nature, were also partly or completely present within the colloidal fraction, including αs1-CN(91–100), αs1-CN(152–193), αs1-CN(23–34), αs1-CN(125–193), αs1-CN(125–199), β-CN(177–209), β-CN( 184–209), β-CN(114–169) and β-CN(108–169). Their possible involvement in the micellar backbone is discussed.

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Section: Discussionsupporting

confidence: 86%

Phosphopeptides interacting with colloidal calcium phosphate isolated by tryptic hydrolysis of bovine casein micelles

Gagnaire

Aimar

Mollé

et al. 1996

Journal of Dairy Research

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“…Whereas soluble Ca levels were significantly lower in the UHT-treated than in the retorted MCC, no difference was observed between the soluble Mg levels between the 2 treatments. It has been shown before that calcium phosphate can form cross-links in artificial casein micelle systems, whereas magnesium phosphate does not have this cross-linking ability (Kaminogawa et al, 1977;Aoki et al, 1987). Thus, it is reasonable to hypothesize that some of the calcium phosphate may have participated in the cross-linking and subsequent aggregation of casein micelles during the UHT treatment, which prevented it from returning into the soluble phase.…”

Section: Discussionmentioning

confidence: 98%

The effect of commercial sterilization regimens on micellar casein concentrates

Beliciu

Sauer

Moraru

2012

Journal of Dairy Science

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This work focused on evaluating the effects of UHT sterilization and in-container retorting on the stability and physical properties of micellar casein concentrates (MCC). The study was performed on MCC obtained by membrane separation, with casein concentrations between 5 and 10%. The UHT and retorting regimens were designed to achieve the same microbial inactivation effect. Ultra-high temperature treatment was performed in a pilot-scale MicroThermics heating system (MicroThermics Inc., Raleigh, NC), and retorting in an FMC multipurpose laboratory retort (Steritort; FMC Corp., San Jose, CA). The heat-treated and the non-heat-treated MCC controls were evaluated for pH, mineral profile, ζ-potential, particle size, and rheological properties for up to 24h after heat treatment. The treatments were performed in triplicate, and differences among samples were evaluated using statistical analyses. Retorting resulted in slight aggregation in the MCC, whereas UHT caused the formation of visible aggregates and coagulation. The UHT-treated MCC had higher viscosity than retorted MCC, and displayed predominantly solid-like rheological behavior, indicative of structure formation. These effects were, at least in part, attributed to a change in mineral equilibrium, which affected the stability of the casein micelles, but additional mechanisms such as κ-casein dissociation may also play a significant role in these heat-induced changes. Drying of MCC accentuated the observed instabilities, as dried and reconstituted micellar casein concentrates (R-MCC) were more unstable to UHT sterilization than the MCC that had not undergone drying. The results of this study provide valuable information about the sterilization behavior and physical properties of MCC, which can be useful to processors in the development and manufacture of shelf-stable casein-based products and beverages.

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“…It has been proved that caseins are cross-linked through their ester phosphate groups by CCP (Aoki et al 19876). The role of the individual milk salt constituents in crosslinking by CCP has also been examined (Aoki et al 1987a).…”

mentioning

confidence: 99%

Dissociation during dialysis of casein aggregates cross-linked by colloidal calcium phosphate in bovine casein micelles

Aoki

Yamada

Kako

et al. 1988

Journal of Dairy Research

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SummaryCasein micelles separated by ultracentrifugation of raw skim milk were dispersed at a casein concentration of 2·5% in simulated milk ultrafiltrate and dialysed against 10 mM-imidazole buffer (pH 7·0) at 5 °C. The amounts of colloidal Ca and inorganic P decreased from 77 to 11 mg and from 31 to 2 mg respectively in 100 ml during 72 h of dialysis. Micellar casein content was reduced to 43 and 11% after 48 and 72 h of dialysis respectively. In high-performance gel chromatography of casein micelles in the presence of 6 M-urea, fraction 1, consisting of the casein aggregates cross-linked by colloidal Ca phosphate (CCP) decreased during dialysis and the retention time of the peak of fraction 1 was prolonged, suggesting that the cross-linkage between CCP and casein molecules was disrupted. The dissociation rates of the individual casein constituents from the casein aggregates cross-linked by CCP during dialysis were in the order β-> αs1 - > αs2-casein. The higher the ester phosphate content, the slower was the dissociation rate of the individual casein constituent. It is suggested that the strength of interaction between CCP and casein molecules depends on the ester phosphate content.

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Role of Individual Milk Salt Constituents in Cross-linking by Colloidal Calcium Phosphate in Artificial Casein Micelles

Cited by 5 publications

References 2 publications

Phosphopeptides interacting with colloidal calcium phosphate isolated by tryptic hydrolysis of bovine casein micelles

Phosphopeptides interacting with colloidal calcium phosphate isolated by tryptic hydrolysis of bovine casein micelles

The effect of commercial sterilization regimens on micellar casein concentrates

Dissociation during dialysis of casein aggregates cross-linked by colloidal calcium phosphate in bovine casein micelles

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