Peer-Reviewed Journal Details
Mandatory Fields
Chevalier, F;Hirtz, C;Sommerer, N;Kelly, AL
2009
July
Journal of Agricultural and Food Chemistry
Use of Reducing/Nonreducing Two-Dimensional Electrophoresis for the Study of Disulfide-Mediated Interactions between Proteins in Raw and Heated Bovine Milk
Validated
WOS: 45 ()
Optional Fields
HYDROSTATIC-PRESSURE TREATMENTS DENATURED WHEY PROTEINS RECONSTITUTED SKIM MILK BETA-LACTOGLOBULIN KAPPA-CASEIN ALPHA-LACTALBUMIN MASS-SPECTROMETRY K-CASEIN INDUCED REDISTRIBUTION FLUORESCENT DYES
57
5948
5955
The composition and interactions of proteins in bovine milk, and modifications resulting from milk storage and processing, are complex and incompletely understood. Analysis of the milk proteome pan elucidate milk protein expression, structure, interaction, and modifications. Raw milk was analyzed by two-dimensional electrophoresis (isolelectric focusing followed by sodium dodecyl sulfate-polyacrylamide, gel electrophoresis) under reducing and nonreducing, or combined, conditions, followed by mass spectrometry of separated protein spots; a small number of high-abundance proteins, that is, caseins (alpha(S1)-, alpha(S2)-, beta-, kappa-, and gamma-), beta-lactoglobulin, alpha-lactalbumin, and serum albumin, represented the vast majority of protein spots on the two-dimensional electrophoretograms of raw milk samples, but some cross-linked protein complexes (mainly homopolymers of kappa-casein and alpha(S2)-casein but also some heteropolymeric complexes) were resolved under native/unheated conditions. When skim milk was heated to 90 degrees C for up to 10 min, the level of native whey proteins decreased in parallel with an increase in disulfide-linked complexes, including very complex heteropolymers, for example, casein/whey protein polymers containing multiple species. The analysis strategy used in this study reveals numerous disulfide-mediated interactions and can be proposed to analyze reduction/oxidation of milk and dairy product proteins following processing treatments applied for processing and storage.
WASHINGTON
0021-8561
10.1021/jf900518n
Grant Details