Abstract
The use of biodiverse autochthonous natural starter cultures to produce typical and PDO cheeses contributes to establishing a link between products and territory of production, which commercial starters, constituted by few species and strains, are not able to. The purpose of this work was the assessment of biodiversity, at strain level, and safety of natural scotta-innesto cultures whose use is mandatory for the Pecorino Romano PDO cheese manufacturing, according to its product specification. The biodiversity of three scotta-innesto, collected in the 1960s and preserved in lyophilised form, was assessed by molecular biotyping using both PFGE and (GTG)5 rep-PCR profiling on 209 isolates belonging to Streptococcus thermophilus (30), Lactobacillus delbrueckii subsp. lactis (72), Enterococcus faecium (87), and Limosilactobacillus reuteri (20), revealing high biodiversity, at the strain level, in the cultures. The cultures’ safety was proved through a new approach assessing phenotypic and molecular antibiotic resistance of the cultures in toto, instead of single strains, while the safety of Enterococcus faecium isolates was investigated according to EFSA guidelines. The use of natural biodiverse cultures for the production of microbial starters for typical and PDO cheeses, such as Pecorino Romano, could be an opportunity for recovering the cheese microbiota biodiversity lost during years of commercial starters use.
Highlights
The Pecorino Romano PDO is one of the most exported Italian cheeses in the world and, with more than 3000 tons per year being produced, it represents about 20% of total pecorino cheese [1,2,3]
Scotta-innesto has usually been prepared by inoculating scotta with an aliquot of the stock scotta-innesto culture obtained from previous Pecorino Romano manufacturing the day before, and incubated overnight until acidification
The composite analysis (93% similarity cut-off) carried out on the 30 S. thermophilus isolates from SR30 revealed five different biotypes (Figure 2)
Summary
The Pecorino Romano PDO is one of the most exported Italian cheeses in the world and, with more than 3000 tons per year being produced, it represents about 20% of total pecorino cheese [1,2,3]. According to the cheese product specification [6,7], to overcome this problem, the scotta can be integrated with commercial starter cultures consisting of few selected strains of lactic acid bacteria (LAB), such as Streptococcus thermophilus, Lactobacillus delbrueckii, Lactobacillus helveticus, certified as autochthonous [8]. This practice, in the long term, could lead to the replacement of natural microbial communities colonising the dairy plants, with few selected
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