A YAC contig spanning the ataxia-telangiectasia locus (groups A and C) at 11q22-q23.

Ataxia-telangiectasia (A-T) is an autosomal recessive disease involving cerebellar degeneration, immunodeficiency, cancer predisposition, chromosomal instability and radiosensitivity. A-T is heterogeneous, and the majority of A-T cases are associated with two complementation groups, A and C. The ATA and ATC loci are closely linked at chromosome 11q22-q23.

Genomic organization and expressed sequences of the mouse extended H-2K region.

The mouse major histocompatibility complex (MHC) has long been of great interest to many biologists because of not only its critical role in the immune system, but also its association with at least three embryonic lethal genes. Here, we present an analysis of the mouse extended H-2K region using YAC technology. Six new expressed sequences were identified, demonstrating that the high gene density previously described continues.

Physical map of mouse chromosome 17 in the region relevant for positional cloning of the Hybrid sterility 1 gene.

Hybrid sterility 1 (Hst1) is the major gene responsible for sterility of male hybrids between Mus musculus and certain laboratory strains. Thus, Hst1 is of importance in studying both postreproductive isolation of closely related species and male fertility. It has been mapped to mouse chromosome 17 in the region corresponding to the third inversion of the t haplotypes.

An algorithm to detect chimeric clones and random noise in genomic mapping.

Experimental noise and noncontiguous clone inserts can pose serious problems in reconstructing genomic maps from hybridization data. We describe an algorithm that easily identifies false positive signals and clones containing chimeric inserts/internal deletions. The algorithm "dechimerizes" clones, splitting them into independent contiguous components and cleaning the initial library into a more consistent data set for further ordering.

Application of robotic technology to automated sequence fingerprint analysis by oligonucleotide hybridisation.

We describe our production line for the rapid analysis of large cDNA libraries applying robotic techniques to automatically pick, amplify, array, hybridise and analyse the clones. We also outline the current state of the hybridisation techniques and describe anticipated future developments of the system. Our approach faces the large-scale analysis of cDNA clones with partial sequence analysis by oligonucleotide fingerprinting in the following way: after picking of individual colonies and arraying them automatically in quadruple density (384-well) microtitre plates, the cDNA clones are amplified by an automated waterbath polymerase chain reaction (PCR), which allows us to run about 46,000 reactions in parallel.

Relational genome analysis using reference libraries and hybridisation fingerprinting.

The genomes of eukaryotic organisms are studied by an integrated approach based on hybridisation techniques. For this purpose, a reference library system has been set up, with a wide range of clone libraries made accessible to probe hybridisation as high density filter grids. Many different library types made from a variety of organisms can thus be analysed in a highly parallel process; hence, the amount of work per individual clone is minimised.

Efficient identification and regional positioning of YAC and cosmid clones to human chromosome 21 by radiation fusion hybrids.

The use of integrated mapping strategies involving bacterial, yeast, and rodent cells as hosts simplifies the construction of maps, which combine long-range order, high resolution, and easy access to the cloned DNA. Radiation-fusion hybrids offer a specially powerful long-range mapping system for human chromosomes. We describe here techniques for establishing a radiation-fusion hybrid map of Chromosome (Chr) 21q and its integration with local information on YAC and cosmid positions.

Isolation and regional localization of cosmid linking clones from human chromosome 12.

We have developed a new method for constructing cosmid linking libraries. The method is based on the insertion of a selection gene, beta-lactamase, in genomic cosmid clones containing recognition sites for rare-cutting enzymes. The selection gene is maintained as a gene cassette in a plasmid and may be excised by the enzymes NotI, SacII, SplI, MluI, BssHII, and NarI or combinations of these enzymes.

Construction of yeast artificial chromosome libraries by pulsed-field gel electrophoresis.

Yeast artificial chromosome (YAC) libraries have been constructed from a variety of organisms using different approaches. This protocol outlines in detail the construction of YAC libraries with large inserts using size fractionation of partially digested DNA by pulsed-field gel electrophoresis.

A 1.2-Mb YAC contig spans the quaking region.

We describe here a 1.2-Mb yeast artificial chromosome (YAC) contig within the region of mouse chromosome 17 between Brachyury (T) and D17Rp17e, and spanning the quaking (qk) region. We describe six new probes distributed across 1.

Physical mapping in a YAC contig of 11 markers on the human X chromosome in Xp11.23.

By using yeast artificial chromosome (YAC) clones, we have generated a physical map of the short arm of the human X chromosome at Xp11.23. The region analyzed spans the distal marker UBE1 and the ARAF1/TIMP/SYN1/PFC gene cluster and further extends proximally to include ELK1, ZNF21, ZNF81, and OATL1 in a single contig.

Assignment of 55 novel cosmids to seven subregions of chromosome 13 using fluorescence in situ hybridization.

Fifty-five individual cosmids isolated from a chromosome 13-specific library have been regionally assigned using fluorescence in situ hybridization. These cosmids represent novel DNA markers that can be added to the limited number of DNA probes already available for this chromosome. Individual cosmids mapped along the length of the chromosome with almost equal distribution except that there appears to be an excess of probes from the distal 13q33-q34 region.

A YAC contig spanning the hypophosphatemic rickets disease gene (HYP) candidate region.

Dominant X-linked hypophosphatemic rickets (HYP) is the most common form of familial rickets. Linkage studies have localized the gene for this disorder to Xp22.1 between the markers DXS365 and DXS274, a region estimated to be approximately 3.

Trinucleotide repeat expansions and human genetic disease.

Trinucleotide repeat expansions are now a well-established mutational mechanism in human genetic disease. An unstable CAG repeat is known to be responsible for three neurodegenerative disorders: Huntington's disease, spinal and bulbar muscular atrophy and spinocerebellar ataxia type 1. Similarities in the genetics of these diseases, the size of the repeat expansions and the position of the unstable repeat within the gene (when known) suggest a common basis to the observed phenotypes.

Isolation of conserved sequences from yeast artificial chromosomes by exon amplification.

Exon amplification is a technique designed to solve a central problem in mammalian molecular genetics--specifically, the isolation of genes from large regions of genomic DNA. This technique allows exons to be isolated from genomic DNA following the selective removal of introns by the eukaryotic splicing mechanism. It is a relatively rapid procedure and can theoretically be applied to test the coding potential of very long stretches of genomic DNA.

Refining the genetic map for the region flanking the X-linked hypophosphataemic rickets locus (Xp22.1-22.2).

We have screened fourteen kindreds with X-linked hypophosphataemic rickets with four microsatellite markers, viz AFM163yh2, DXS999 (AFM234yf12), DXS443 and DXS365, in order to refine the genetic map flanking the gene, and to define a close flanking interval for the construction of a yeast artificial chromosome (YAC) and cosmid contig. The genetic data were enhanced after the isolation of a large 1.2-megabase YAC derived from AFM163yh2, in which marker DXS274 was present but not DXS365 or DXS443.

Identification of YAC and cosmid clones encompassing the ZFX-POLA region using irradiation hybrid cell lines.

The human Xp21.3-p22.1 region is poorly mapped relative to other X chromosome regions.

Identification of human chromosome region 3p14.2-21.3-specific YAC clones using Alu-PCR products from a radiation hybrid.

Deletion of DNA sequences from at least three different regions on the short arm of human chromosome 3 (3p13-14, 3p21 and 3p25) are frequently observed during the development of many solid tumors, including lung cancers and renal cell carcinomas. In order to physically characterize the 3p21 region, we previously identified a radiation fusion hybrid that contained about 20 megabases of DNA from chromosome region 3p14.2-p21.

The Reference Library System--sharing biological material and experimental data.

Cosmid, yeast artificial chromosome (YAC), P1 and complementary DNA (cDNA) libraries are distributed on high-density filters to the scientific community and experimental results are stored in a common object-based database accessible through the Internet.

Olfactory receptor gene cluster on human chromosome 17: possible duplication of an ancestral receptor repertoire.

A gene superfamily of olfactory receptors (ORs) has recently been identified in a number of species. These receptors share a seven transmembrane domain structure with many neurotransmitter and hormone receptors, and are likely to underlie the recognition and G-protein-mediated transduction of odorant signals. Previously, OR genes cloned in different species were from random locations in the respective genomes.