T. D. Thue

Association of a missense mutation in the bovine leptin gene with carcass fat content and leptin mRNA levels

Previously, we have shown that alleles of the BM1500 microsatellite, located 3.6 kb downstream of the leptin gene in cattle, were associated with carcass fat measures in a population of 154 unrelated beef bulls. Subsequently, a cytosine (C) to thymine (T) transition that encoded an amino acid change of an arginine to a cysteine was identified in exon 2 of the leptin gene. A PCR-RFLP was designed and allele frequencies in four beef breeds were correlated with levels of carcass fat. The T allele was associated with fatter carcasses and the C allele with leaner carcasses. The frequencies of the SNP alleles among breeds indicated that British breeds have a higher frequency of the T allele whereas the continental breeds have a higher occurrence of the C allele. A ribonuclease protection assay was developed to quantify leptin mRNA in a separate group of animals selected by genotype. Animals homozygous for thymine expressed higher levels of leptin mRNA. This may suggest that the T allele, which adds an extra cysteine to the protein, imparts a partial loss of biological function and hence could be the causative mutation.

A missense mutation in the bovine MGF gene is associated with the roan phenotype in Belgian Blue and Shorthorn cattle

Abstract. The Roan locus is responsible for the coat coloration of Belgian Blue and Shorthorn cattle. The solid-colored and white animals are homozygotes, and the roan animals, with intermingled colored and white hairs, are heterozygous. The roan phenotype was mapped to cattle Chromosome (Chr) 5 with microsatellites, and a candidate gene was proposed (Charlier et al. Mamm Genome 7, 138, 1996). PCR primers to the exons of this candidate gene, the steel locus or mast cell growth factor (MGF) were designed. Solid-colored and white animals were sequenced. A missense mutation at 654 bp (amino acid 193, Ala → Asp) was detected in these two groups. A PCR-RFLP was designed to this single base pair change, and 143 animals in total (Belgian Blue, Shorthorn, and various other breeds) were screened. In addition, the Canadian Beef Cattle Reference Herd (http://skyway.usask.ca/∼schmutz) was used to verify Mendelian inheritance of this marker with the phenotypic inheritance of roan. Our data suggest that this mutation in the bovine MGF gene is responsible for the roan phenotype.

Gene mapping from a bovine 1;29 DNA library prepared with chromosome microdissection

Bovine gene mapping is progressing rapidly using syntenic group mapping based on somatic cell hybrids and linkage, and to a lesser extent on in situ hybridization. Single chromosome DNA libraries are a logical next step, and this was, therefore, the aim of our laboratory. Since we have access to several cattle with t(1;29) and this chromosome is readily distinguishable, we chose this as our first target—recognizing that we would not produce a “single” chromosome library in the strict sense because two autosomes are represented. We utilized an inverted microscope and a micromanipulator fitted with glass instruments pulled specifically to dissect off approximately 100 t(1:29) chromosomes per microdrop. A glass chamber made to accommodate a hanging drop was used to extract the DNA under a dissecting microscope. The DNA was then cleaved with EcoRI and inserted in λgtwes arms. Host cells were then infected with these phage and positive clones obtained. The first clone, isolated from this library by hybridization with a human collagen 6A1 cDNA, was mapped by in situ hybridization to bovine Chromosome (Chr) 1q12–q14, near the centromere. The second clone, an anonymous DNA fragment (D1S11), was mapped to 1q43–q46, near the terminal end.

Intrabreed polymorphic information content of microsatellites in cattle and sheep

Eight ovine and eleven bovine microsatellites were amplified in unrelated individuals from five breeds of sheep and cattle respectively. Polymorphic information content (PIC) was calculated for each breed. It was shown that the common practice of using genotypes from several breeds to calculate PIC for a livestock species can give misleading PIC values for a given breed. Key words: Microsatellite, polymorphic information content