The robustness of the starter culture during cheese fermentation is enhanced by the presence of a rich consortium of microbes. Natural starters are consortia of microbes undoubtedly richer than selected starters. Among natural starters, natural whey starters (NWS) are the most common cultures currently used to produce different varieties of cheeses. Undefined NWS are typically used for Italian cooked, long-ripened, extra-hard, raw milk cheeses, such as Parmigiano Reggiano and Grana Padano. Together with raw milk microbiota, NWS are responsible for most cheese characteristics. The microbial ecology of these 2 cheese varieties is based on a complex interaction among starter lactic acid bacteria (SLAB) and nonstarter lactic acid bacteria (NSLAB), which are characterized by their different abilities to grow in a changing substrate. This review aims to summarize the latest findings on Parmigiano Reggiano and Grana Padano to better understand the dynamics of SLAB, which mainly arise from NWS, and NSLAB, which mainly arise from raw milk, and their possible role in determining the characteristics of these cheeses. The review is presented in 4 main sections. The first summarizes the main microbiological and chemical properties of the ripened cheese as determined by cheese-making process variables, as these variables may affect microbial growth. The second describes the microbiota of raw milk as affected by specific milk treatments, from milking to the filling of the cheese milk vat. The third describes the microbiota of NWS, and the fourth reviews the knowledge available on microbial dynamics from curd to ripened cheese. As the dynamics and functionality of complex undefined NWS is one of the most important areas of focus in current food microbiology research, this review may serve as a good starting point for implementing future studies on microbial diversity and functionality of undefined cheese starter cultures.
The lack of updated knowledge about the physical properties of milk powders aimed us to evaluate selected physical properties (water activity, particle size, density, flowability, solubility and colour) of eleven skim and whole milk powders produced in Europe. These physical properties are crucial both for the management of milk powder during the final steps of the drying process, and for their use as food ingredients. In general, except for the values of water activity, the physical properties of skim and whole milk powders are very different. Particle sizes of the spray-dried skim milk powders, measured as volume and surface mean diameter were significantly lower than that of the whole milk powders, while the roller dried sample showed the largest particle size. For all the samples the size distribution was quite narrow, with a span value less than 2. The loose density of skim milk powders was significantly higher than whole milk powders (541.36 vs 449.75 kg/m). Flowability, measured by Hausner ratio and Carr's index indicators, ranged from passable to poor when evaluated according to pharmaceutical criteria. The insolubility index of the spray-dried skim and whole milk powders, measured as weight of the sediment (from 0.5 to 34.8 mg), allowed a good discrimination of the samples. Colour analysis underlined the relevant contribution of fat content and particle size, resulted in higher lightness (*) for skim milk powder than whole milk powder, which, on the other hand, showed higher yellowness (*) and lower greenness (-*). In conclusion a detailed knowledge of functional properties of milk powders may allow the dairy to tailor the products to the user and help the food processor to perform a targeted choice according to the intended use.
Aims: Lactobacillus helveticus is the dominant microflora of the natural whey starters used for Parmigiano Reggiano cheese making. The aim of this work was to study the biodiversity of different strains of Lact. helveticus present in six cultures and to compare them with strains of the same species previously isolated from natural whey cultures used for Grana Padano and Provolone cheeses. Methods and Results: Twenty different biotypes of Lact. helveticus strains were identified combining the results deriving from SDS-PAGE of cell surface proteins and PCR fingerprinting using M13 as a primer. The biotypes were present in varying amounts in the six natural whey starters and the biodiversity was demonstrated not only within the whey cultures, but also between the whey cultures. Conclusions: Lact. helveticus strains isolated from Parmigiano Reggiano whey cultures analysed by PCR M13, SDS-PAGE and RFLP were distinguishable from Lact. helveticus strains of different dairy origin, namely Grana Padano and Provolone natural whey starters. Significance and Impact of the Study: The presence of different Lact. helveticus biotypes seems to be related to the specific ecosystem of cheesemaking and may be considered as one of the elements contributing to the typicality of Parmigiano Reggiano cheese.
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