A mini-STR typing system for degraded equine DNA.

Degraded biological samples are a challenge for testing laboratories. Genotyping success can be improved through the use of mini-STRs, by which primers are placed adjacent to the repeat motifs to reduce amplicon size. Here, we present a genetic profiling system comprising 13 autosomal and one X-linked dinucleotide-repeat markers and the SRY gene based on the internationally accepted equine parentage panel. The markers are divided into two panels with all alleles falling at or below 182 bp. The application of this method significantly increases the ability to profile difficult samples and to provide discriminating results to clients.

Using multiple markers to elucidate the ancient, historical and modern relationships among North American Arctic dog breeds.

Throughout most of the Americas, post-colonial dogs largely erased the genetic signatures of pre-historical dogs. However, the North American Arctic harbors dogs that are potentially descended from pre-historical ancestors, as well as those affected by post-colonial translocations and admixtures. In particular, Inuit dogs from Canada and Greenland are thought to descend from dogs associated with Thule peoples, who relied on them for transportation ca. 1000 years ago. Whether Thule dogs reflected an earlier colonization by Paleoeskimo dogs ca. 4500 years ago is unknown. During the Alaskan Gold Rush, additional sled dogs, possibly of post-colonial derivation, the Alaskan Husky, Malamute and Siberian Husky, were used in the Arctic. The genealogical relationships among and origins of these breeds are unknown. Here we use autosomal, paternal and maternal DNA markers to (1) test the hypothesis that Inuit dogs have retained their indigenous ancestry, (2) characterize their relationship to one another and to other Arctic breeds, and (3) estimate the age of North American indigenous matrilines and patrilines. On the basis of the agreement of all three markers we determined that Inuit dogs have maintained their indigenous nature, and that they likely derive from Thule dogs. In addition, we provide support for previous research that the Inuit dogs from Canada and Greenland dog should not be distinguished as two breeds. The Alaskan Husky displayed evidence of European introgression, in contrast to the Malamute and Siberian Husky, which appear to have maintained most of their ancient Siberian ancestry.

Feline non-repetitive mitochondrial DNA control region database for forensic evidence.

The domestic cat is the one of the most popular pets throughout the world. A by-product of owning, interacting with, or being in a household with a cat is the transfer of shed fur to clothing or personal objects. As trace evidence, transferred cat fur is a relatively untapped resource for forensic scientists. Both phenotypic and genotypic characteristics can be obtained from cat fur, but databases for neither aspect exist. Because cats incessantly groom, cat fur may have nucleated cells, not only in the hair bulb, but also as epithelial cells on the hair shaft deposited during the grooming process, thereby generally providing material for DNA profiling. To effectively exploit cat hair as a resource, representative databases must be established. The current study evaluates 402 bp of the mtDNA control region (CR) from 1394 cats, including cats from 25 distinct worldwide populations and 26 breeds. Eighty-three percent of the cats are represented by 12 major mitotypes. An additional 8.0% are clearly derived from the major mitotypes. Unique sequences are found in 7.5% of the cats. The overall genetic diversity for this data set is 0.8813±0.0046 with a random match probability of 11.8%. This region of the cat mtDNA has discriminatory power suitable for forensic application worldwide.

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.

A single gel for determining genetic variants of equine erythrocyte carbonic anhydrase (CA) and catalase (Cat).

We describe a method for agarose IEF under acid conditions in which a single gel can be used to diagnose from equine red cell lysates genetic variants for carbonic anhydrase (CA) and catalase (Cat). Family and population data for 4801 horses of 27 breeds and seven trap sites of Great Basin feral horses are presented to support the presence of a sixth CA allele, CAE, which has been recognized previously, but not described by published data. Allelic frequencies for the two systems suggest it may be appropriate to use this gel for parentage verification programmes or to obtain population data for studies of the genus Equus.

Preliminary evidence for a fourth allele at the phosphohexose isomerase (Phi) locus of horse erythrocytes.

A fourth allele at the horse erythrocyte phosphohexose isomerase (Phi) locus was proposed to account for phenotypes observed after starch gel electrophoresis and enzymatic staining of red cell lysates from American Saddlebred and Tennessee Walking Horse breeds. The gene was rare, having an estimated frequency of 0.009 in 949 Saddlebreds tested.