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Full-Text Articles in Life Sciences
Observations On The Air-Serum Interface Of Milk Foams, B. E. Brooker
Observations On The Air-Serum Interface Of Milk Foams, B. E. Brooker
Food Structure
A new rapid method for the preparation of milk foams for transmission electron microscopy is described . The air-serum interface of foams made from skimmed milk consists of a uniform electron dense layer (5 nm thick) to which casein micelles become secondarily attached . Changes in bubble volume lead to the formation of folds of excess interfacial material which project into the aqueous phase. Using collapsed bubble ghosts to study the attachment of micelles to the airserum interface it was concluded that neither disulphide bridge formation nor hydrophobic interactions were of major importance. Similar preparations of interfacial material but without …
Structure Formation In Acid Milk Gels, I. Heertje, J. Visser, P. Smits
Structure Formation In Acid Milk Gels, I. Heertje, J. Visser, P. Smits
Food Structure
The structure formation in acid milk gels is influenced by many factors such as heat, salt system, pH, culture and thickening agents. Understanding of the mechanism of structure formation is important in order to be able to influence the final texture of these products.
In the present study the network formation in acid milk gels during acidification is monitored by freeze-fracture electron microscopy. Network formation appears to be a much more complex process than just an aggregation of the original milk casein micelles; it is accompanied by subtle dissociation and association phenomena of the milk caseins. The observed sequence of …
The Size Distribution Of Bovine Casein Micelles: A Review, C. Holt
The Size Distribution Of Bovine Casein Micelles: A Review, C. Holt
Food Structure
This review considers the average size and size distribution of bovine casein micelles as measured by electron microscopy, light scattering and controlled pore glass chromatography, and the origin and biological function of the size distribution.
Recent work by electron microscopy has given average sizes in reasonable agreement with measurements on the same milk sample by light scattering . It is suggested that natural variations in averaqe micelle size and overestimation of micelle radii by light scattering methods as well as deficiencies in electron microscopical methodology were responsible for past discrepancies.
Electron microscopy and controlled pore glass chromatography provide evidence that …