Identification of microbiota present on the surface of Taleggio cheese using PCR-DGGE and RAPD-PCR.

UNLABELLED: Microbial DNA from 9 batches of Taleggio PDO cheese sampled at various times during ripening, brines, swabs of wooden shelves used for cheese dry-salting, and 13 commercial cheeses were analyzed by denaturing gradient gel electrophoresis (PCR-DGGE) and/or random amplification of polymorphic DNA (RAPD-PCR). Sequencing allowed the detection of 12 genera, 27 species, and 2 unclassified bacteria. Molecular analysis allowed for the detection of microorganisms not previously associated with Taleggio such as Lactobacillus paracasei, Carnobacterium maltaromaticum, Bacillus licheniformis, Corynebacterium variabile, Psychrobacter cibarius, and Staphylococcus carnosus. For the first time Massilia spp. was detected in a dairy ecosystem. PRACTICAL APPLICATION: Indigenous species and strains of bacteria identified by this study could be used for the selection of dairy cultures to be employed routinely by manufacturers to control the Taleggio cheese production. The new cultures may give the bases for driving dairy processes and, consequently, control the typical flavor resulting from metabolic actions of environmental microorganisms.

Identification and quantification of alphaS1, alphaS2, beta, and kappa-caseins in water buffalo milk by reverse phase-high performance liquid chromatography and mass spectrometry.

A method for the simultaneous quantitation of alpha(S1), alpha(S2), beta, and kappa-caseins in water buffalo (Bubalus bubalis) milk using reverse phase high-performance liquid chromatography was developed. The molecular masses of the peaks separated by the described chromatographic protocol were determined by ESI-MS. alpha(S1)- and kappa-caseins were found to be heteromorphic in several individual milk samples. In particular, alpha(S1)-casein showed two peaks with a molecular mass of 23,490 Da and 23,516 Da, and kappa-casein showed three peaks with molecular masses of 19,165 Da, 19,177 Da, and 19,247 Da. Only one form for beta-casein (24,033 Da) and alpha(S2)-casein (22,741 Da) were detected. The mean values of casein fraction concentration observed throughout the individual samples were 8.89 gL(-1) with a relative standard deviation (RSD) of 20% for alpha(S1)-casein, 5.08 gL(-1) with a RSD of 25% for alpha(S2)-casein, 20.91 gL(-1) with a RSD of 16% for beta-casein, and 4.13 gL(-1) with a RSD of 24% for kappa-casein. Linear and second-order polynomial correlations with total nitrogen were calculated for all casein fractions.

Quantification of bovine casein fractions by direct chromatographic analysis of milk. Approaching the application to a real production context.

The ability to quantify the casein content by an exact and cost-effective approach represents an issue of crucial importance in the dairy industry as the natural variations in milk protein concentration can markedly affect the yield of the cheesemaking processes, thus causing a direct and significant economic impact on the producers. In this work, the separation and quantification of alpha(s1)-, alpha(s2)-, kappa- and beta-casein was carried out by direct RP-HPLC analysis of milk. The identification of each casein was established by electrospray ionization mass spectrometry. The data show that this method is able to effectively separate the bovine casein fractions, it provides simplified analytical conditions (with special regard to mobile phase composition and gradient profile) and faster separation while ensuring adequate precision to achieve reliable quantifications in milk samples from dairy production.