Maria E. Davis scite author profile

We have assembled a first-generation anchor map of the mouse genome using a panel of 94 whole-genome–radiation hybrids (WG–RHs) and 271 sequence-tagged sites (STSs). This is the first genome-wide RH anchor map of a model organism. All of the STSs have been previously localized on the genetic map and are located 8.8 Mb apart on average. This mouse WG–RH panel, known as T31, has an average retention frequency of 27.6% and an estimated potential resolution of 145 kb, making it a powerful resource for efficient large-scale expressed sequence tag mapping.[All of the mapping data for the maps presented here have been deposited at the Research Genetics, Inc., web site and can be freely accessed and downloaded athttp://www.resgen.com/.]

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Characterization of whole genome radiation hybrid mapping resources for non-mammalian vertebrates

Kwok

Korn

Davis

et al. 1998

108

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Radiation hybrid panels are already available for genome mapping in human and mouse. In this study we have used two model organisms (chicken and zebrafish) to show that hybrid panels that contain a full complement of the donor genome can be generated by fusion to hamster cells. The quality of the resulting hybrids has been assessed using PCR and FISH. We confirmed the utility of our panels by establishing the percentage of donor DNA present in the hybrids. Our hybrid resources will allow inexpensive gene mapping and we expect that this technology can be transferred to many other species. Such successes are providing the basis for a new era of mapping tools, in the form of whole genome radiation hybrid panels, and are opening new possibilities for systematic genome analysis in the animal genetics community.

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A whole-genome radiation hybrid panel and framework map of the rat genome

et al. 2000

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Construction of a Mouse Whole-Genome Radiation Hybrid Panel and Application to MMU11

Schmitt¹,

Foster

Feakes

et al. 1996

Genomics

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Construction and integration of radiation-hybrid and cytogenetic maps of dog Chromosome X

et al. 2003

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Chromosome (chr) X is under-represented in current maps of the genome of the domestic dog ( Canis familiaris). To address this problem, we have constructed a small-insert, genomic DNA library in pBluescript from flow-sorted canine Chr X DNA. Fluorescence in situ hybridization (FISH) studies confirmed that the library was highly enriched for Chr X. Clones containing microsatellites were identified and sequenced. Database searches detected significant sequence identity between four X-derived clones and genes previously characterized in other species. Thirty-seven markers derived from these clones were mapped on Chr X by FISH, and of these, 28 were mapped by using the female-derived T72 whole-genome radiation hybrid (RH) panel (Research Genetics). Four X-linked canine genes from publicly available data were also mapped. Eight RH linkage groups with LOD >4.0 were identified, and FISH data were used to locate the groups on the chromosome; four groups could be unambiguously orientated by FISH data. In each case, the FISH and RH data were mutually consistent. The data suggest strongly conserved synteny between canine and human X Chrs. The pseudoautosomal region has been further characterized, and the putative or actual locations of nine genes of clinical relevance have been suggested.

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Maria E. Davis

A First-Generation Whole Genome–Radiation Hybrid Map Spanning the Mouse Genome

Characterization of whole genome radiation hybrid mapping resources for non-mammalian vertebrates

A whole-genome radiation hybrid panel and framework map of the rat genome

Construction of a Mouse Whole-Genome Radiation Hybrid Panel and Application to MMU11

Construction and integration of radiation-hybrid and cytogenetic maps of dog Chromosome X

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