Genetic variability of milk proteins in two cattle breeds of Piedmont region and the potential effects on milk quality

• Main Authors: Melanie Salmasi, Riccardo Moretti, Stefania Chessa, Stefano Sartore, Antonio Mimosi, Paolo Cornale
• Format: Article
• Language: English
• Published: Taylor & Francis Group 2020-12-01
• Series: Italian Journal of Animal Science
• Subjects: cattle breeds; isoelectrofocusing; technological properties; lactoprotein; allele and haplotype frequencies
• Online Access: http://dx.doi.org/10.1080/1828051X.2020.1850217
• ISSN: 1594-4077; 1828-051X

In a scenario of climate change and risk of losing biodiversity, the safeguard of locally adapted breeds and their genetic reservoirs assumes a key role. Furthermore, these breeds are linked to their rearing territory maintenance also through the nutritional, economic or social value of their products. This study focussed on the analysis of milk protein genetic variability of the Piedmontese, the most abundant beef Italian breed, and the Barà-Pustertaler breed, through the testing of individual milk samples by isoelectrofocusing. Allelic and haplotypes frequencies were analysed and the presence of rare variants (CSN1S1*G, 0.7%, and CSN2*C, 0.7%, in Barà and Piedmontese breeds, respectively) was detected. The analysed breeds showed allelic frequencies close to the one found in breeds with good cheesemaking aptitude, like the Italian Brown and Reggiana breeds (e.g. CSN2*B, 20.7% and 16.4%, and CSN3*B, 41,1% and 35%, in Piedmontese and Barà breeds, respectively), and are a good reservoir of alleles that are decreasing (e.g. CSN2*B) in Italian Holstein. Moreover, they have higher frequencies of interesting haplotypes (e.g. BA1B, 8% and 11.2%, and BA2B, 20.8 and 13.1% in Piedmontese and Barà breeds, respectively) that could positively influence composition, nutritional, and technological properties of milk. These breeds could be used to further investigate the effects of variants and haplotypes that could help support the evolution and the changing demands of the dairy sector.Highlights In order to address the problem of climate change effects on animal biodiversity, local breeds should be safeguarded and valorised. The analysed breeds have discrete frequencies of milk protein variants and casein haplotypes associated with good technological properties. Knowing the genetic background of non-dairy commercial breeds is the first step to preserve potentially useful genetic variability.