Mor2, supernatant malate dehydrogenase, is linked to wa2 and Hba on mouse chromosome 11 in a region of homology with human chromosome 2p.

Abstract

Despite rapid progress in the physical characterization of murine and human genomes, little molecular information is available on certain regions, e.g., proximal mouse chromosome 11 (Chr 11) and human chromosome 2p (Chr 2p). We have localized thewobblerspinal atrophy genewrto proximal mouse Chr 11, tightly linked toRab1,a gene coding for a small GTP-binding protein, andGlns-ps1,an intronless pseudogene of the glutamine synthetase gene. We have now used these markers to construct a 1.3-Mb yeast artificial chromosome (YAC) contig of theRab1region on mouse Chr 11. Four YAC clones isolated from two independent YAC libraries were characterized by rare-cutting analysis, fluorescencein situhybridization (FISH), and sequence-tagged site (STS) isolation and mapping.Rab1andGlns-ps1were found to be only 200 kb apart. A potential CpG island near a methylatedNarI site and a trapped exon,ETG1.1,were found between these loci, and a new STS,AHY1.1,was found over 250 kb fromRab1.Two overlapping YACs were identified that contained a 150-kb region of human Chr 2p, comprising theRAB1locus,AHY1.1,and the human homologue ofETG1.1,indicating a high degree of conservation of this region in the two species. We mappedAHY1.1and thus humanRAB1on Chr 2p13.4–p14 using somatic cell hybrids and a radiation hybrid panel, thus extending a known region of conserved synteny between mouse Chr 11 and human Chr 2p. Recently, the geneLMGMD2Bfor a human recessive neuromuscular disease, limb girdle muscular dystrophy type 2B, has been mapped to 2p13–p16. The conservation between the mouseRab1and humanRAB1regions will be helpful in identifying candidate genes for thewobblerspinal muscular atrophy and in clarifying a possible relationship betweenwrandLMGMD2B.