An assay for a genetic marker associated with increased milk production is disclosed. Also disclosed are kits for use in connection with the assay and breeding methods that use the assay. The assay centers on finding a genetic marker in a bovine cell (e.g. in the DNA of the cell). The presence of the marker is confirmed by exposing a gene sequence from the cell to a restriction enzyme so as to yield gene fragments of varying lengths. During a separation step there is a separation of some of the fragments from others (such as by using electrophoresis), and there is then a hybridization of a plurality of probes that contain a portion of bovine prolactin sequence to the separated fragments. The probe is radiolabelled. Then, there is a comparison of the results of the hybridization with the hybridization results for a gene sequence known to either have the marker or not have the marker. The assay appears to be of greatest utility in connection with the Carlin-M Ivanhoe Bell Holstein family.
A method and test kit for deterining milk production in bovines is described. The acetyl coenzyme A synthetase (ACS) production is determined and related to milk production. The method is useful in selection and/or breeding to enhance milk production. Recombinant microganisms, plasmids and ACS is also described.
A method and test kit for determining milk production in bovines is described. The acetyl coenzyme A synthetase (ACS) production is determined and related to milk production. The method is useful in selection and/or breeding to enhance milk production. Recombinant microganisms, plasmids and ACS is also described.
A method and test kit for determining milk production in bovines is described. The acetyl coenzyme A synthetase (ACS) production is determined and related to milk production. The method is useful in selection and/or breeding to enhance milk production. Recombinant microganisms, plasmids and ACS is also described.
An assay for determining the presence in bovine genetic material of a genetic marker located on the bovine somatotropin gene indicative of an inheritable trait of increased milk production is provided. The marker is a polymorphism in the gene encoding somatotropin at amino acid position 126 which results in two forms of somatotropin existing in bovine. The assay comprises analyzing a bovine to determine its genotype with respect to the somatotropin gene. Bovine with the desired marker can be selected for inclusion in breeding programs or for milking. The desired marker indicative of superior milk production is dependent upon the breed of cattle. Holstein cattle that are homozygous for the leucine forms of somatotropin are desired. Jersey cattle that are homozygous for the valine form of somatotropin are desired. A kit for performing the assay is also provided.
The present disclosure provides a method for evaluating resistance of an animal of the genus Bos to persistent lymphocytosis. The method includes the steps of (a) obtaining a sample of DNA from the animal that includes a DRB3 gene exon 2; (b) identifying nucleotides of the DRB3 gene exon 2; and (c) determining whether the nucleotides contain codons that encode a glutamic acid at position 70 and an arginine at position 71, a valine at position 75, an aspartic acid at position 76, a threonine at position 77, and a tyrosine at position 78 of the DRB3 gene product, the presence of which codons indicates susceptibility to persistent lymphocytosis. Kits containing primers that hybridize to nucleotide positions 70 and 71 or 75-78 of the DRB3 gene exon 2 are also provided.
