Steffen F. Hansen scite author profile

During heat treatment of milk, β-lactoglobulin (β-LG) associates with the milk fat globule membrane (MFGM). The objective of this study was to examine different binding types that could be involved in this process. First, we tested the thiol-disulfide bond interchange between β-LG and MFGM by heating raw milk (87°C, 8 min) in the presence of different reagents capable of preventing this interaction, and then evaluated the presence of β-LG in resulting MFGM preparations by sodium dodecyl sulfate-PAGE. Contrary to commonly accepted theory, β-LG still associated with MFGM when milk was heated in the presence of 10 mM N-ethylmaleimide, dithiobis-nitrobenzoic acid, or dithioerythritol. This finding indicated that noncovalent binding could be involved in the interaction, and therefore these were studied next. Preventing noncovalent interactions by heating milk in the presence of 8 M urea (to inhibit formation of hydrogen bonds) or 2 M NaCl (to inhibit electrostatic and hydrophobic interactions) reduced the association of β-LG and MFGM. Inhibiting both hydrogen and disulfide bond formation by addition of 8 M urea and 10 mM dithioerythritol or inhibiting hydrophobic interactions with 0.2% sodium dodecyl sulfate completely prevented the association. In contrast to the simple thiol-disulfide interaction model, the results suggest a more complex understanding of the interactions between β-LG and MFGM during heating of milk. This indicates that disulfide formation between β-LG and proteins in the MFGM is not required for the association, but that hydrophobic interactions and hydrogen bonding may be crucial. This novel insight into β-LG and MFGM association is in contrast to the current literature and requires further study.

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Heat-induced changes in milk fat and milk fat globules and its derived effects on acid dairy gelation – A review

Wiking

Gregersen

Hansen³

et al. 2022

International Dairy Journal

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Thermal effects on IgM-milk fat globule-mediated agglutination

Hansen

Larsen

Wiking

2018

Journal of Dairy Research

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The process of agglutination causes firm cream layers in bovine milk, and a functioning agglutination mechanism is paramount to the quality of non-homogenized milks. The phenomenon is not well-described, but it is believed to occur due to interactions between immunoglobulins (Ig) and milk fat globules. For the first time, this paper demonstrates how the process of agglutination can be visualized using confocal laser scanning microscopy, rhodamine red and a fluoresceinisothiocynat-conjugated immunoglobulin M antibody. The method was used to illustrate the effect on agglutination of storage temperature and pasteurization temperature. Storage at 5 °C resulted in clearly visible agglutination which, however, was markedly reduced at 15 °C. Increasing storage temperature to 20 or 37 °C cancelled any detectable interaction between IgM and milk fat globules, whereby the occurrence of cold agglutination was documented. Increasing 20 s pasteurization temperatures from 69 °C to 71 °C and further to 73 °C lead to progressively higher inactivation of IgM and, hence, reduction of agglutination. Furthermore, 2-dimensional sodium dodecyl sulfate polyacrylamide gel electrophoresis showed that changes in storage temperature caused a redistribution of Ig-related proteins in milk fat globule membrane isolates. Poly-immunoglobulin G receptor was present in milk fat globule preparations stored at cold (4 °C) conditions, but absent at storage at higher temperature (25 °C). The findings provide valuable knowledge to dairy producers of non-homogenized milk in deciding the right pasteurization temperature to retain the crucial agglutination mechanism.

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Steffen F. Hansen

Microfiltration of raw milk for production of high-purity milk fat globule membrane material

Placing pasteurisation before or after microfiltration impacts the protein composition of milk fat globule membrane material

Disulfide bond formation is not crucial for the heat-induced interaction between β-lactoglobulin and milk fat globule membrane proteins

Heat-induced changes in milk fat and milk fat globules and its derived effects on acid dairy gelation – A review

Thermal effects on IgM-milk fat globule-mediated agglutination

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