Genetic distances within and across cattle breeds as indicated by biallelic AFLP markers.

We tested the use of biallelic Amplified fragment length polymorphism (AFLP) polymorphisms for the estimation of relative genetic distances of cattle individuals within or across breeds. An allele permutation procedure was developed to estimate the stochastic variation of the genetic distance that is inherent to a given dataset. In a panel of 47 Holstein-Friesian cattle analysed with 248 polymorphic markers, the average genetic distance of bulls selected for breeding was slightly lower than the distance of the cows. The observed standard deviation (SD) of the distance indicated genetic subdivision, which for the bulls was explained by variation in the additive relationship derived from herdbook data. Animals from three different breeds, the highly selected Holstein-Friesian, the Italian Brown and the historic Maremmana, were compared on the basis of 106 polymorphic markers. No breed-specific fragments were observed. The mean pair-wise genetic distance within breeds was 85% of the value across breeds, but principal coordinates analysis clustered the animals according to their breed of origin. Calculation of distances between the breeds indicated a relatively divergent position of the Maremmana, relative to the two other breeds. However, biallelic markers indicate that the process of breed formation had only a limited effect on the diversity at marker loci.

Phylogeny of bovine species based on AFLP fingerprinting.

The Bovini species comprise both domestic and wild cattle species. Published phylogenies of this tribe based on mitochondrial DNA contain anomalies, while nuclear sequences show only low variation. We have used amplified fragment length polymorphism (AFLP) fingerprinting in order to detect variation in loci distributed over the nuclear genome. Computer-assisted scoring of electrophoretic fingerprinting patterns yielded 361 markers, which provided sufficient redundancy to suppress stochastic effects of intraspecies polymorphisms and length homoplasies (comigration of non-homologous fragments). Tree reconstructions reveal three clusters: African buffalo with water buffalo, ox with zebu, and bison with wisent. Similarity values suggest a clustering of gaur and banteng, but bifurcating clustering algorithms did not assign consistent positions to these species and yak. We propose that because of shared polymorphisms and reticulations, tree topologies are only partially adequate to represent the phylogeny of the Bovini. Principal-coordinate analysis positions zebu between a gaur/banteng cluster and taurine cattle. This correlates with the region of origin of these species and suggests that genomic distances between the cattle species have been influenced by genetic exchange between neighbouring ancestral populations.

Amplified fragment length polymorphism analysis of genetic diversity of Haemonchus contortus during selection for drug resistance.

For the first time we used amplified fragment length polymorphism on individual nematode parasites to analyse the genetic diversity between and within isolates during consecutive stages of increased benzimidazole resistance and of increased levamisole resistance of Haemonchus contortus. The genetic diversity of the H. contortus genome turned out to be unusually high, within and between the isolates. The difference between individuals of an isolate could be as high as between individuals of two different mammalian species that do not interbreed. During benzimidazole selection the genetic constitution of the population was changed, but did not lead to a decrease in the genetic diversity. The selection for levamisole resistance resulted in a limited reduction of the genetic diversity only after the first selection step. The extensive genetic diversity apparently has allowed a fast and flexible response of H. contortus to drug selection as shown by the appearance of drug resistant isolates. This selection however has little or no effect on the extent of the genetic diversity of these resistant isolates. Implications for more sustainable control methods are discussed.

Complementation of a gl-deficient feline herpesvirus recombinant by allotopic expression of truncated gl derivatives.

The alphaherpesvirus glycoproteins gE and gI form a hetero-oligomeric complex involved in cell-to-cell transmission. The gI-deficient recombinant feline herpesvirus (FHV), FHVdeltagI-LZ, produces plaques that are only 15% the size of those of wild-type FHV. Here, we have complemented FHV(delta)gI-LZ allotopically by expressing intact gI and C-terminally truncated gI derivatives from the thymidine kinase locus. The effect on gE-gI-mediated cell-to-cell spread was assessed by plaque assay employing computer-assisted image analysis (software available at http://www.androclus.vet.uu.nl/spotter/spotter.htm+ ++). Allotopic complementation with intact gI fully restored plaque size. Deletion of the C-terminal 11 residues of gI did not affect cell-to-cell spread, whereas deletion of the complete cytoplasmic tail reduced plaque size by only 35%. Mutants expressing gI166, roughly corresponding to the N-terminal half of the ectodomain, displayed a small-plaque phenotype. Nevertheless, their plaques were reproducibly larger than those of matched gI-deficient controls, indicating that the gE-gI166 hetero-oligomer, though crippled, is still able to mediate cell-to-cell spread. Our data demonstrate that plaque analysis provides a reliable and convenient tool to measure and quantitate gE-gI function in vitro.

Self-amplification of satellite DNA in vitro.

We describe a PCR-like reaction in which genomic DNA acts as a template as well as a primer. Interaction between genomic tandem repeat units leads to self-amplification of satellite DNA. This genomic self-priming PCR (GSP-PCR) allowed the rapid amplification of species-specific tandem repeats of horse, cattle, dolphin, and chicken. A novel specific satellite of ostrich with a repeat unit of 60 bp was isolated using this method.

A satellite DNA element specific for roe deer (Capreolus capreolus).

An abundant tandem repetitive DNA segment (CCsatIII) with a repeat unit of 2.2 kb has been found in the genome of roe deer (Capreolus capreolus). It accounts for approximately 5%-10% of the genome and is only present in the two species of the genus Capreolus. The sequence has no similarity or common motives with other deer satellite DNAs and there is no internal repeat structure. A 93 bp fragment is homologous to a bovine repeat. Fluorescent in situ hybridisation showed a predominant centromeric staining of most chromosomes accompanied by a weak interstitial staining of the same chromosomes. On Southern blots, CCsatIII probes do not discriminate between the closely related Capreolus species.

Artiodactyl interspersed DNA repeats in cetacean genomes.

Interspersed repeats that emerged at different evolutionary times are informative in mammalian phylogeny. Here we show that the ancient short interspersed elements (SINEs) ARE1 and ARE2 are abundantly present in the genomes of artiodactyls and cetaceans but not in other mammalian genomes. This supports the classification of the cetaceans with the artiodactyls by a shared character that is unlikely to be the result of convergence.

Can the spread of agriculture in Europe be followed by tracing the spread of the weed Silene latifolia. A RAPD study.

On the basis of gene frequency data of three flavone glycosylating genes, populations of the agricultural weed Silene latifolia (Caryophyllaceae) in Europe can be divided into two chemical races: an eastern and a western race. Morphological data also show a clear east-west division. When the two datasets are combined at least nine different geographical races can be distinguished using cluster analysis. Because these observations are hard to explain by selection, it has been proposed that these different races probably originated as a consequence of migration during the spread of agriculture over Europe in the past. To discriminate between selection and genetic drift many more selectively neutral easy-to-score characters are needed. In order to test whether random amplified polymorphic DNAs (RAPDs) might be suitable for this purpose, we performed a small-scale RAPD analysis on 16 geographical different populations. Using Jaccard's coefficient of similarity, we calculated genetic distances by pair-wise comparisons of both unique and shared amplification products, and a dendrogram was subsequently constructed using an unweighted pair-group method with arithmetical averages (UPGMA). On the basis of the dendrogram two clusters were discerned that clearly coincide with the aforementioned east-west division in populations. As there has been little or no artificial selection on this weed, its migration routes may be a good reflection of the different geographical routes agriculture has taken. We propose that a phylogenetic analysis of RAPD data of many more populations may provide additional information on the spread of agriculture over Europe.

Rapid species identification in meat by using satellite DNA probes.

A fast procedure for species identification in heated meat is described. Deoxyribonucleic acid (DNA) was isolated from meat samples by an alkaline extraction method and hybridized to a conjugate of a specific oligonucleotide and alkaline phosphatase. The oligonucleotide probes are based on satellite DNA, tandem-repeated sequences, which are highly specific for species. Probes are developed for the identification of meat from cattle, sheep/goat, horse, deer, pig, chicken and turkey. Differentiation between closely related species like chicken and turkey is possible. Admixtures of 1-5% of meat of one species in another could be detected. The complete assay of up to 50 samples takes 4 h. Heated meat samples could be analysed.

Evolution and recombination of bovine DNA repeats.

The history of the abundant repeat elements in the bovine genome has been studied by comparative hybridization and PCR. The Bov-A and Bov-B SINE elements both emerged just after the divergence of the Camelidae and the true ruminants. A 31-bp subrepeat motif in satellites of the Bovidae species cattle, sheep, and goat is also present in Cervidae (deer) and apparently predates the Bovidae. However, the other components of the bovine satellites were amplified after the divergence of the cattle and the Caprinae (sheep and goat). A 23-bp motif, which as subrepeat of two major satellites occupies 5% of the cattle genome, emerged only after the split of the water buffalo and other cattle species. During the evolution of the Bovidae the satellite repeat units were shaped by recombination events involving subrepeats, other satellite components, and SINE elements. Differences in restriction sites of homologous satellites indicate a continuing rapid horizontal spread of new sequence variants.

Optimization of the PCR test for the mutation causing bovine leukocyte adhesion deficiency.

The recent emergence of the bovine leukocyte adhesion deficiency (BLAD) demonstrated the risks of narrowing the genetic basis of a population. About 6% of the Holstein-Friesian cattle now descends from one bull who was a heterozygous BLAD carrier. Crossing his descendants resulted in the birth of homozygous BLAD calves with a life expectancy of < 1 year. The BLAD syndrome is caused by a point mutation in the gene coding for CD18, a subunit of the beta 2 integrins on the surface of leukocytes. By using a PCR-RFLP test, large numbers of cattle are now being screened in several countries to eradicate the mutant allele. We describe an optimization of the PCR primer set that has led to an improvement of the test.