Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
Shopping Cart: ( empty )
You are here: Home > Journals > AN > AN24146
RESEARCH ARTICLE
Contents Vol 64(18)

Frequencies of β-casein variants and their influence on genetic merit for production traits in Holstein cows

María Eugenia Caffaro https://orcid.org/0000-0002-5814-2293 A # * , María Agustina Raschia A # , Daniel Omar Maizon B C and Mario Andrés Poli A D
+ Author Affiliations
- Author Affiliations

A Instituto Nacional de Tecnología Agropecuaria, CICVyA-CNIA, Instituto de Genética ‘Ewald A. Favret’, Nicolás Repetto y de Los Reseros s/n, Hurlingham B1686, Buenos Aires, Argentina.

B Instituto Nacional de Tecnología Agropecuaria, E.E.A. Anguil, Ruta 5 Km 580, Anguil 6326, La Pampa, Argentina.

C Universidad Nacional de La Pampa, Facultad de Agronomía, Ruta 35 Km. 334, Santa Rosa, La Pampa, Argentina.

D Universidad del Salvador, Facultad de Ciencias Agrarias y Veterinaria, B1630AHU Pilar, Campus del Pilar, Champagnat 1599, Argentina.

* Correspondence to: caffaro.maria@inta.gob.ar

# These authors contributed equally to this work

Handling Editor: Suzanne Mortimer

Animal Production Science 64, AN24146 https://doi.org/10.1071/AN24146
Submitted: 1 May 2024  Accepted: 28 November 2024  Published: 16 December 2024

© 2024 The Author(s) (or their employer(s)). Published by CSIRO Publishing

Abstract

Context

Traits considered for selection are influenced by social, consumer, and breeder demands. In the past decades, there has been increasing global interest in producing milk free from the β-casein (CSN2) A1 allele because of the health benefits it may have. This has encouraged many breeders to select A2A2 cows in their dairy cattle herds.

Aims

This study aimed to evaluate the genetic variation in the bovine CSN2 gene regarding A1-like and A2-like variants and to assess the potential association between these variants and production traits in Holstein cows.

Methods

In total, 2600 Holstein cows from three commercial dairy farms with different breeding objectives and phenotypic records taken over different seasons, periods, and lactations were genotyped for single-nucleotide polymorphism rs43703011, which distinguishes A1-like from A2-like β-casein variants. Allele and genotype frequencies were determined and their breeding values for milk, fat, and protein yields, and fat and protein percentages were estimated. The influence of CSN2 genotypes on these breeding values was studied through a one-way ANOVA. For the significant CSN2 genotype–breeding value associations, allele substitution effects were estimated.

Key results

We found allele frequencies for A1-like and A2-like alleles in the ranges 0.262–0.366 and 0.634–0.738 respectively, and genotype frequencies in the ranges of 0.043–0.125, 0.43–0.537, and 0.393–0.523 for A1A1, A1A2 and A2A2 genotypes respectively. We demonstrated that the A2-like CSN2 variant correlates with higher estimated breeding values (EBVs) for milk, protein, and fat yields, and lower EBVs for fat and protein percentages.

Conclusions

These results are valuable to visualize the trends in CSN2 allele and genotype frequency changes over the years and to analyze the effect of the different variants of β-casein on production performance.

Implications

Our findings contribute to evaluating the consequences on dairy performance of selection for the A2-like variant.

Keywords: A2-milk, allele and genotype frequencies, association, β-casein variants, dairy cattle breeding, estimated breeding values, Holstein cattle, production traits.

References

Ardicli S, Aldevir O, Aksu E, Gumen A (2023) The variation in the beta-casein genotypes and its effect on milk yield and genomic values in Holstein-Friesian cows. Animal Biotechnology 34(8), 4116-4125.
| Crossref | Google Scholar | PubMed |

Ardicli S, Aldevir Ö, Aksu E, Kucuk K, Gümen A (2024) Associations of bovine beta-casein and kappa-casein genotypes with genomic merit in Holstein Friesian cattle. Archives Animal Breeding 67, 61-71.
| Crossref | Google Scholar |

Bentivoglio D, Finco A, Bucci G, Staffolani G (2020) Is there a promising market for the A2 milk? Analysis of Italian consumer preferences. Sustainability 12(17), 6763.
| Crossref | Google Scholar |

Bisutti V, Pegolo S, Giannuzzi D, Mota LFM, Vanzin A, Toscano A, Trevisi E, Ajmone Marsan P, Brasca M, Cecchinato A (2022) The β-casein (CSN2) A2 allelic variant alters milk protein profile and slightly worsens coagulation properties in Holstein cows. Journal of Dairy Science 105(5), 3794-3809.
| Crossref | Google Scholar | PubMed |

Boettcher PJ, Caroli A, Stella A, Chessa S, Budelli E, Canavesi F, Ghiroldi S, Pagnacco G (2004) Effects of casein haplotypes on milk production traits in Italian Holstein and Brown Swiss cattle. Journal of Dairy Science 87(12), 4311-4317.
| Crossref | Google Scholar | PubMed |

Çardak AD (2005) Effects of genetic variants in milk protein on yield and composition of milk from Holstein-Friesian and Simmentaler cows. South African Journal of Animal Science 35(1), 41-47.
| Crossref | Google Scholar |

Chitra P (2022) Bovine milk: A1 and A2 beta casein milk proteins and their impact on human health: a review. Agricultural Reviews 43(3), 374-378.
| Crossref | Google Scholar |

Cieślińska A, Fiedorowicz E, Rozmus D, Sienkiewicz-Szłapka E, Jarmołowska B, Kamiński S (2022) Does a little difference make a big difference? Bovine β-casein A1 and A2 variants and human health: an update. International Journal of Molecular Sciences 23(24), 15637.
| Crossref | Google Scholar | PubMed |

Dantas A, Kumar H, Schwinden Prudencio E, Borges de Avila Junior L, Orellana-Palma P, Dosoky NS, Nepovimova E, Kuča K, Cruz-Martins N, Verma R, Manickam S, Valko M, Kumar D (2023) An approach on detection, quantification, technological properties, and trends market of A2 cow milk. Food Research International 167, 112690.
| Crossref | Google Scholar |

De Noni I, FitzGerald RJ, Korhonen HJT, Le Roux Y, Livesey CT, Thorsdottir I, Tomé D, Witkamp RF (2009) Review of the potential health impact of β-casomorphins and related peptides: report of the DATEX working group on β-casomorphins. EFSA Scientific report/European Food Safety Authority, no. 231, European Food Safety Authority. Available at https://edepot.wur.nl/8139

Di Rienzo JA, Casanoves F, Balzarini MG, Gonzalez L, Tablada M, Robledo CW (2008) InfoStat, versión 2008. In ‘Grupo InfoStat, FCA’. (Universidad Nacional de Córdoba: Argentina)

Farrell HM, Jr, Jimenez-Flores R, Bleck GT, Brown EM, Butler JE, Creamer LK, Hicks CL, Hollar CM, Ng-Kwai-Hang KF, Swaisgood HE (2004) Nomenclature of the proteins of cows’ milk: sixth revision. Journal of Dairy Science 87(6), 1641-1674.
| Crossref | Google Scholar | PubMed |

Gai N, Uniacke-Lowe T, O’Regan J, Faulkner H, Kelly AL (2021) Effect of protein genotypes on physicochemical properties and protein functionality of bovine milk: a review. Foods 10(10), 2409.
| Crossref | Google Scholar |

Gai N, Uniacke-Lowe T, O’Regan J, Goulding DA, Kelly AL (2023) Influence of β-casein genotype on physicochemical properties and functionality of bovine milk. Journal of Dairy Science 106(12), 8357-8367.
| Crossref | Google Scholar | PubMed |

Giribaldi M, Lamberti C, Cirrincione S, Giuffrida MG, Cavallarin L (2022) A2 milk and BCM-7 peptide as emerging parameters of milk quality. Frontiers in Nutrition 9, 842375.
| Crossref | Google Scholar | PubMed |

Heck JM, Schennink A, van Valenberg HJF, Bovenhuis H, Visker MHPW, van Arendonk JAM, van Hooijdonk ACM (2009) Effects of milk protein variants on the protein composition of bovine milk. Journal of Dairy Science 92(3), 1192-1202.
| Crossref | Google Scholar | PubMed |

Höxter ST (2023) Association between technological properties of bovine milk, cold induced depletion and genetic variants of β- and κ-casein. Masters thesis in Food science. Swedish University of Agricultural Sciences, SLU; SLU Department of Molecular Sciences; Agricultural Programme – Food Science. Molecular Sciences, 2023:30, Uppsala.

Ikonen T, Ojala M, Ruottinen O (1999) Associations between milk protein polymorphism and first lactation milk production traits in Finnish Ayrshire cows. Journal of Dairy Science 82(5), 1026-1033.
| Crossref | Google Scholar | PubMed |

Jinsmaa Y, Yoshikawa M (1999) Enzymatic release of neocasomorphin and β-casomorphin from bovine β-casein. Peptides 20(8), 957-962.
| Crossref | Google Scholar | PubMed |

Kamiński S, Cieslińska A, Kostyra E (2007) Polymorphism of bovine beta-casein and its potential effect on human health. Journal of Applied Genetics 48(3), 189-198.
| Crossref | Google Scholar | PubMed |

Kaplan M, Baydemir B, Günar BB, Arslan A, Duman H, Karav S (2022) Benefits of A2 milk for sports nutrition, health and performance. Frontiers in Nutrition 9, 935344.
| Crossref | Google Scholar | PubMed |

McLachlan CN (2006) Breeding and milking cows formilk free of β-casein A1. United States Patent 7094949. Available at https://imageppubs.uspto.gov/dirsearchpublic/print/downloadPdf/7094949

Meyer K (2007) WOMBAT: a tool for mixed model analyses in quantitative genetics by restricted maximum likelihood (REML). Journal of Zhejiang University SCIENCE B 8(11), 815-821.
| Crossref | Google Scholar | PubMed |

Miluchová M, Gábor M, Candrák J (2023) The effect of the genotypes of the CSN2 gene on test-day milk yields in the slovak holstein cow. Agriculture 13(1), 154.
| Crossref | Google Scholar |

Morris CA, Hickey SM, Cullen NG, Prosser CG, Anderson RM, Tate ML (2005) Associations between β-casein genotype and milk yield and composition in grazing dairy cows. New Zealand Journal of Agricultural Research 48(4), 441-450.
| Crossref | Google Scholar |

Olenski K, Kamiński S, Szyda J, Cieslinska A (2010) Polymorphism of the beta-casein gene and its associations with breeding value for production traits of Holstein-Friesian bulls. Livestock Science 131(1), 137-140.
| Crossref | Google Scholar |

Raschia MA, Nani JP, Maizon DO, Beribe MJ, Amadio AF, Poli MA (2018) Single nucleotide polymorphisms in candidate genes associated with milk yield in Argentinean Holstein and Holstein × Jersey cows. Journal of Animal Science and Technology 60, 31.
| Crossref | Google Scholar | PubMed |

Raschia MA, Caffaro ME, Rossi ÚA, Poli MA (2023) Modification of a previously patented method to unequivocally score A2-like and A1-like bovine β-casein variants. MethodsX 10, 102183.
| Crossref | Google Scholar | PubMed |

Scott BA, Haile-Mariam M, MacLeod IM, Xiang R, Pryce JE (2023) Evaluating the potential impact of selection for the A2 milk allele on inbreeding and performance in Australian Holstein cattle. Frontiers in Animal Science 4, 1142673.
| Crossref | Google Scholar |

Sebastiani C, Arcangeli C, Ciullo M, Torricelli M, Cinti G, Fisichella S, Biagetti M (2020) Frequencies evaluation of β-casein gene polymorphisms in dairy cows reared in central Italy. Animals 10(2), 252.
| Crossref | Google Scholar |

Tobler AR, Short S, Andersen MR, Paner TM, Briggs JC, Lambert SM, Wu PP, Wang Y, Spoonde AY, Koehler RT, Peyret N, Chen C, Broomer AJ, Ridzon DA, Zhou H, Hoo BS, Hayashibara KC, Leong LN, Ma CN, Rosenblum BB, Day JP, Ziegle JS, De La Vega FM, Rhodes MD, Hennessy KM, Wenz HM (2005) The SNPlex genotyping system: a flexible and scalable platform for SNP genotyping. Journal of Biomolecular Techniques 16(4), 398-406.
| Google Scholar | PubMed |

Truswell AS (2005) The A2 milk case: a critical review. European Journal of Clinical Nutrition 59, 623-631.
| Crossref | Google Scholar | PubMed |

Vigolo V, Visentin E, Ballancin E, Lopez-Villalobos N, Penasa M, De Marchi M (2023) β-casein A1 and A2: effects of polymorphism on the cheese-making process. Journal of Dairy Science 106(8), 5276-5287.
| Crossref | Google Scholar | PubMed |

Visker MHPW, Dibbits BW, Kinders SM, van Valenberg HJF, van Arendonk JAM, Bovenhuis H (2011) Association of bovine β-casein protein variant I with milk production and milk protein composition. Animal Genetics 42(2), 212-218.
| Crossref | Google Scholar | PubMed |