Catherine Priat

An integrated linkage-radiation hybrid map of the canine genome

Abstract. Purebred dogs are a unique resource for dissecting the molecular basis of simple and complex genetic diseases and traits. As a result of strong selection for physical and behavioral characteristics among the 300 established breeds, modern dogs are characterized by high levels of interbreed variation, complemented by significant intrabreed homogeneity. A high-resolution map of the canine genome is necessary to exploit the mapping power of this unusual resource. We describe here the integration of an expanded canine radiation hybrid map, comprised of 600 markers, with the latest linkage map of 341 markers, to generate a map of 724 markers—the densest map of the canine genome described to date. Through the inclusion of 217 markers on both the linkage and RH maps, the 77 RH groups are reduced to 44 syntenic groups, thus providing comprehensive coverage of most of the canine genome.

Construction and optimization of a dog whole-genome radiation hybrid panel

Abstract. A dog whole-genome radiation hybrid (WGRH) panel including 126 clones was constructed by fusing dog fibroblasts irradiated at 5000 rads with thymidine kinase-deficient hamster cells. The average retention frequency of the panel designated as RHDF5000 is 21%, and its resolution power is estimated at 600 kb. The data provided by typing 400 markers were used to estimate linkage power changes subsequent to panel reduction. These changes were analyzed by recomputing typing data from five reduced panels. From these simulations, the parameters allowing investigation of the evolution of the linkage power in the course of panel reduction were determined. Guidelines for constructing a WGRH panel are proposed.

Traced orthologous amplified sequence tags (TOASTs) and mammalian comparative maps

Abstract. Progress on mammalian comparative maps could be significantly accelerated by developing reagents defining orthologous landmarks in the genome of many mammalian species. Using the large databases of gene sequences, we designed 225 orthologous gene-specific primer pairs corresponding to 146 functional genes. Of these 225 primer pairs, 155 (68.9%), 182 (80.9%), 126 (56.0%), and 82 (36.4%) produced a single PCR product when tested against human, pig, dog, and hamster genomic DNA, respectively. In addition to the general rules of primer designing, particular factors must be taken into consideration when choosing gene-specific universal primers—for instance, preference for single-exon regions or highly conserved segments among species, avoidance of GC-rich regions. Sequencing all the canine PCR products traced by these primers demonstrated that of 123 traced canine fragments with readable and reliable sequences, 121 (98.4%) were found to match the GenBank orthologous sequences used for designing the primers, after a BLAST search. Comparative characterization of PCR fragments among human, pig, dog, and hamster revealed that the length of a single exon was much conserved among species, with few exceptions. As the fragments were traced with amplification by orthologous gene-specific primers, we suggest they be termed Traced Orthologous Amplified Sequence Tags (TOASTs).

Facilitating genome navigation: survey sequencing and dense radiation-hybrid gene mapping

Accurate and comprehensive sequence coverage for large genomes has been restricted to only a few species of specific interest. Lower sequence coverage (survey sequencing) of related species can yield a wealth of information about gene content and putative regulatory elements. But survey sequences lack long-range continuity and provide only a fragmented view of a genome. Here we show the usefulness of combining survey sequencing with dense radiation-hybrid (RH) maps for extracting maximum comparative genome information from model organisms. Based on results from the canine system, we propose that from now on all low-pass sequencing projects should be accompanied by a dense, gene-based RH map-construction effort to extract maximum information from the genome with a marginal extra cost.

Characterization of 463 type I markers suitable for dog genome mapping.

Abstract. In total, 463 canine gene markers were identified and characterized to serve as reagents in canine genome map projects. These markers are distributed over 221 canine gene markers, 139 TOASTs (Traced Orthologous Sequence Tags), 27 canine TOASTs, and 76 huESTs (human Expressed Sequence Tags). Out of 310 canine gene markers, 59%–84% were successfully amplified on dog DNA, the highest rates of success being observed when the exon/intron structure is known. Concerning TOASTs and human ESTs, of the 225 and 300 markers analyzed, 62% and 25% respectively were able to produce a dog positive amplification. As part of an ongoing project to map the canine genome using a dog/hamster radiation hybrid panel, these markers were tested for their specificity on dog versus hamster DNA. Thus 61%, 21%, and 12% of dog gene markers, TOASTs, and huESTs met the criteria required for radiation hybrid mapping, respectively. All of these 463 canine gene markers, however, are available and will be of value to any other mapping strategies.