Composite genotypes of progestogen-associated endometrial protein gene and their association with composition and quality of dairy cattle milk

• Published in: Animal bioscience Vol. 34; no. 8; pp. 1283 - 1289
• Main Authors: Kolenda, Magdalena, Sitkowska, Beata, Kamola, Dariusz, Lambert, Barry D
• Format: Journal Article
• Language: Korean
• Published: 2021
• Subjects: Cattle; Progestogen-associated Endometrial Protein (PAEP); Genetics; Polymorphisms; {\beta}$-Lactoglobulin; Milk Performance
• ISSN: 2765-0189; 2765-0235

Objective: The progestogen-associated endometrial protein (PAEP) gene encodes the main whey protein in milk, β-lactoglobulin. The aim of the study was to investigate polymorphism in the PAEP gene and its association with milk yield, composition, and quality. Methods: Test-day records for 782 dairy cows were analysed. A total of 10 single nucleotide polymorphisms (SNP) within the PAEP gene were investigated. The following parameters were recorded: milk yield (MY, kg/d), percent milk fat (%), protein (PP, %), dry matter (DMP, %) and lactose (LP, %), urea content (UC, mg/L) as well as natural logarithm for somatic cell count (LnSCC, ln). Effect on genomic estimated breeding values accuracy was evaluated with pedigree and single step model. Results: Results show that only three SNPs were polymorphic, creating 5 composite genotypes: P1 to P5. Differences in MY between composite genotypes were noted in the two tested herds. Cows with P5 composite genotypes were characterised by the highest PP and LnSCC and the lowest LP and UC (p<0.05). P4 was linked to an increased DMP and UC, while P3 to an increase in LP and decrease in PP and LnSCC. Both factors are important markers in herd management and have high influences on the herds economics. For 5 out of 7 traits the accuracy of prediction was improved by including the haplotype as a fixed effect. Conclusion: Presented results may suggest a new way to optimise breeding programmes and demonstrate the impact of using genomic data during that process.