An international parentage and identification panel for the domestic cat (Felis catus).

Seventeen commercial and research laboratories participated in two comparison tests under the auspices of the International Society for Animal Genetics to develop an internationally tested, microsatellite-based parentage and identification panel for the domestic cat (Felis catus). Genetic marker selection was based on the polymorphism information content and allele ranges from seven random-bred populations (n = 261) from the USA, Europe and Brazil and eight breeds (n = 200) from the USA. Nineteen microsatellite markers were included in the comparison test and genotyped across the samples. Based on robustness and efficiency, nine autosomal microsatellite markers were ultimately selected as a single multiplex 'core' panel for cat identification and parentage testing. Most markers contained dinucleotide repeats. In addition to the autosomal markers, the panel included two gender-specific markers, amelogenin and zinc-finger XY, which produced genotypes for both the X and Y chromosomes. This international cat parentage and identification panel has a power of exclusion comparable to panels used in other species, ranging from 90.08% to 99.79% across breeds and 99.47% to 99.87% in random-bred cat populations.

Validation of microsatellite markers for routine horse parentage testing.

A parallel testing of 4803 routine Quarter Horse parentage cases, using 15 loci of blood group and protein polymorphisms (blood typing) and 11 loci of dinucleotide repeat microsatellites (DNA typing), validated DNA markers for horse pedigree verification. For the 26 loci, taken together, the theoretical effectiveness of detecting incorrect parentage was 99.999%, making it extremely unlikely that false parentage would fail to be recognized. The tests identified incorrect parentage assignment for 95 offspring (2% of cases). Despite fewer loci, DNA typing was as effective as blood typing and, in parentage exclusion cases, provided more systems to substantiate the genetic incompatibility. Five offspring presented potential genetic incompatibilities with their parents in only a single microsatellite system, but the parentage exclusions could not be confirmed with discordant results at additional loci. Two of these five incompatibilities could be explained as consequences of a null allele and three as fragment size increases or decreases (putative mutations). Provided that an exclusion assignment was based on at least two systems of genetic incompatibility, such rare genetic events did not lead to false exclusions. Notwithstanding the near 100% effectiveness estimations for either typing panel alone to identify incorrect parentage, this validation test showed an actual effectiveness of 97.3% for blood typing and 98.2% for DNA typing. The DNA-based test, however, may feasibly achieve higher efficacy than reported here by adding selected systems to the parentage test panel.

A single base transversion in the flanking region of an equine microsatellite locus affects amplification of one allele.

The equine dinucleotide microsatellite HMS7 is part of a microsatellite panel utilized in a parentage verification programme at the Veterinary Genetics Laboratory (Davis, California, USA). Apparent non-Mendelian inheritance was noted when a Quarter Horse mare was excluded as the parent of two offspring based on analysis of the HMS7 locus. The mare's DNA type qualified her as a parent of the offspring at an additional 20 microsatellite loci. The three animals appeared homozygous for HMS7 with each possessing an allele different from that of the other two animals. Polymerase chain reaction primers designed to bind outside the published primer-binding sites amplified an additional shared allele in all three horses, which qualified the mare as the dam of the two offspring. Sequencing of this newly detected allele revealed a C to A transversion in one of the published primer-binding regions. Apparent non-Mendelian inheritance at the HMS7 locus has been encountered in an additional 26 Quarter Horse parentage cases. In all instances, the lack of amplification and resultant 'null' allele was shown to be caused by the same transversion.

Population data and a fourth allele for equine complement component 3 (C3).

The C3 polymorphism of equine serum or plasma revealed by agarose gel electrophoresis can be diagnosed with protein stain following acid protein fixation. In addition to the three alleles previously described (C31, C32, C33), a fourth allele (C34) was found. Population data for 25 domestic breeds and Equus przewalskii are presented.