Associations between milk protein polymorphisms and milk production traits.
Associations between milk protein genotypes and milk production traits were estimated from 6803 first lactation records. Exact tests of associated hypotheses and unbiased estimates of genotype effects were from an animal model. Milk protein genotype effects were estimated using a model in which each milk protein gene was analyzed separately (single-gene analysis) and a model in which all milk protein genes were analyzed simultaneously (multigene analysis). The results of the two models indicate that some effects ascribed to certain milk protein genes in the single-gene analysis are not effects of the milk protein gene itself but of linked genes. Results from this study and from literature indicate that the K-casein gene or a very closely linked gene affects protein percentage, and the ß-lactoglobulin gene or a very closely linked gene affects fat percentage. Furthermore, effects of ß-casein genotypes on milk production, fat percentage, and protein yield were significant, and ß-lactoglobulin genotypes had significant effects on milk production and protein yield. It is less clear whether those effects are due to effects of milk protein genes themselves or to effects of linked genes.
Main Authors: | , , |
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Format: | Article/Letter to editor biblioteca |
Language: | English |
Subjects: | QTL, genetic variants, milk production traits, milk protein, quantitative trait locus, |
Online Access: | https://research.wur.nl/en/publications/associations-between-milk-protein-polymorphisms-and-milk-producti |
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Summary: | Associations between milk protein genotypes and milk production traits were estimated from 6803 first lactation records. Exact tests of associated hypotheses and unbiased estimates of genotype effects were from an animal model. Milk protein genotype effects were estimated using a model in which each milk protein gene was analyzed separately (single-gene analysis) and a model in which all milk protein genes were analyzed simultaneously (multigene analysis). The results of the two models indicate that some effects ascribed to certain milk protein genes in the single-gene analysis are not effects of the milk protein gene itself but of linked genes. Results from this study and from literature indicate that the K-casein gene or a very closely linked gene affects protein percentage, and the ß-lactoglobulin gene or a very closely linked gene affects fat percentage. Furthermore, effects of ß-casein genotypes on milk production, fat percentage, and protein yield were significant, and ß-lactoglobulin genotypes had significant effects on milk production and protein yield. It is less clear whether those effects are due to effects of milk protein genes themselves or to effects of linked genes. |
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