MVSc

The present investigation was undertaken to identify the biochemical polymorphism at different milk protein loci and to establish their inheritance pattern in crossbred cattle. It was also envisaged to analyse the association of different milk protein variants with lactation milk yield and incidence of mastitis. One hundred and thirty five animals belonging to three different crosses of local nondescript cattle viz. crossbred Jersey (50), crossbred Brown Swiss (45) and crossbred Holstein Friesian (40) were typed for milk protein variants by standardising horizontal polyacrylamide gel electrophoresis. The milk protein loci studied were α S1 – casein, β – casein, k- casein and β – lactoglobulin. Two alleles namely B and C with three phenotypes BB, BC and CC were identified at α S1 – casein locus. B allele had the frequency ranging from 0.61 to 0.63.
β – casein locus exhibited three phenotypes contributed by two allels A and B. A allele had the highest frequency of 0.81 in crossbred Brown Swiss and it ranged from 0.71 to 0.81 among different crossbreds. Highest frequency of AA phenotype was in crossbred Brown Swiss (0.67) and that of AB phenotype was highest in crossbred Jersey (0.29).
Two alleles namely A and B contributed three phenotypes viz., AA, AB and BB at k - casein locus among different crossbreds studied. Crossbred Jersey showed the highest frequency of A allele while crossbred Brown Swiss (0.69) had the highest frequency of B allele (0.44). K – casein AA phenotype had the highest frequency in crossbred Jersey (0.52) and AB phenotypes had the highest frequency in crossbred Brown Swiss (0.51).
β – lactoglobulin locus showed two alleles A and B contributing three phenotypes viz., AA, AB and BB. The frequency of A allele was highest in crossbred Holstein Friesian (0.46) and that of B allele in crossbred Brown Swiss (0.60). AA phenotype had the highest frequency in crossbred Holstein Friesian ( 0.25) while crossbred Jersey had the highest frequency of BB phenotype (0.38) and AB phenotype was highest in crossbred Brown Swiss (0.44).
The observed and expected phenotypes among different genetic groups at all the four milk protein loci viz. αS1 – casein, β – casein k – casein and β – lactoglobulin were tested by Chi – square test. All the populations studied were in genetic equilibrium with respect to these four loci. This trend is suggestive of neutral role of the three milk protein loci in the population.
The genetic variability in the crossbred population was calculated by estimating the heterozygosity was at β – lactoglobulin locus. In the crossbred Brown – Swiss maximum heterozygosity was seen at the k - casein locus. The overall heterozygosity in different crossbred population indicated that the crossbred Holstein Friesian had comparatively highest degree of heterozygosity (0.4603) followed by Crossbred Jersey (0.4346).
In crossbred Jersey αS1 – casein types showed significant association with β – casein types. k – casein phenotypes were significantly associated with β – lactoglobulin types. In crossbred Brown Swiss also αS1 – types were found to be linked with β – casein types. β – casein BB phenotype and k – casein variants were found to be linked. β – lactoglobulin phenotypes and β – casein types were also found associated in crossbred Brown Swiss. In the case of crossbred Holstein Friesian all the milk protein variants except β – casein and k – casein were found to be associated.
Milk protein variants were not found to be associated with first lactation milk yield or the incidence of mastitis in all the crossbred population studied.
The present study could establish the existence of biochemical polymorphism at αS1 – casein, β – casein k – casein and β – lactoglobulin loci crossbred Jersey, crossbred Brown Swiss and crossbred Holstein Friesian cattle studied.