Genetic and radiation hybrid mapping of the hyperekplexia region on chromosome 5q.

Hyperekplexia, or startle disease (STHE), is an autosomal dominant neurologic disorder characterized by muscular rigidity of central nervous system origin, particularly in the neonatal period, and by an exaggerated startle response to sudden, unexpected acoustic or tactile stimuli. STHE responds dramatically to the benzodiazepine drug clonazepam, which acts at gamma-aminobutyric acid type A (GABA-A) receptors. The STHE locus (STHE) was recently assigned to chromosome 5q, on the basis of tight linkage to the colony-stimulating factor 1-receptor (CSF1-R) locus in a single large family.

Molecular detection of a 4p deletion using PCR-based polymorphisms: a technique for the rapid detection of the Wolf-Hirschhorn syndrome.

Wolf-Hirschhorn syndrome (WHS) results from a deletion of part of chromosome 4p. The region of 4p consistently deleted in WHS is near the tip of 4p. Two loci in this region D4S95 and D4S125 are associated with highly informative VNTR polymorphisms and were recently converted to allow PCR-based screening.

The Shaw-related potassium channel gene, Kv3.1, on human chromosome 11, encodes the type l K+ channel in T cells.

T lymphocytes exhibit three distinct types of voltage-gated K+ channels, n, n', and l, that are distributed in the T cell lineage according to subset, as well as the cells' activation and developmental status. Type l K+ channels are found sparingly in cytotoxic T cells from normal mice and abundantly in a specific T cell subset (CD4- CD8- Thy1+) from mice with autoimmune disease. Here, we show that the mouse Kv3.

The telomeric 60 kb of chromosome arm 4p is homologous to telomeric regions on 13p, 15p, 21p, and 22p.

A telomere YAC clone containing the most distal 115 kb of chromosome arm 4p has been previously isolated. This clone is of particular interest as it spans a potential candidate region for the Huntington disease gene. The YAC was subcloned into a phage vector, and a high-resolution restriction map extending to within 13 kb of the telomere was constructed.

Genetic and physical maps of human chromosome 4 based on dinucleotide repeats.

Characterization of inherited variations within tandem arrays of dinucleotide repeats has substantially advanced the construction of genetic maps using linkage approaches over the last several years. Using a backbone of 10 newly identified microsatellite repeats on human chromosome 4 and 6 previously identified short tandem repeat element polymorphisms, we have constructed several genetic maps and a physical map of human chromosome 4. The genetic and physical maps are in complete concordance with each other.

Assignment of genes encoding a unique cytokine (IL12) composed of two unrelated subunits to chromosomes 3 and 5.

IL12 (formerly NKSF or CLMF) is a unique cytokine composed of two unrelated disulfide-linked subunits. The larger 40-kDa subunit (p40) is a member of the cytokine receptor family, and the smaller 35-kDa subunit (p35) is related to IL6 and GCSF. The chromosomal localization of these two subunits was determined by PCR analysis of DNA from rodent-human hybrids.

Primary structure, chromosomal localization, and functional expression of a voltage-gated sodium channel from human brain.

A cDNA library derived from human cerebral cortex was screened for the presence of sodium channel alpha subunit-specific clones. Ligation of three overlapping clones generated a full-length cDNA clone, HBA, that provided the complete nucleotide sequence coding for a protein of 2005 amino acids. The predicted structure suggests four homologous repeats and exhibits greatest homology and structural similarity to the rat brain sodium channel II.

Radiation hybrid map spanning the Huntington disease gene region of chromosome 4.

Radiation hybrid (RH) mapping was used to construct a map of 11 markers in the distal 4 Mb of the short arm of chromosome 4, the region containing the Huntington disease gene. Two different methods for deriving the order of the markers were compared and both arrived at the same order as being the most likely. This order is also consistent with both the physical map constructed using pulsed-field gel electrophoresis (PFGE) and the meiotic linkage map.

Human chromosomal localization of genes encoding the gamma 1 and gamma 2 subunits of the gamma-aminobutyric acid receptor indicates that members of this gene family are often clustered in the genome.

The gamma-aminobutyric acid (GABA) receptors are the major inhibitory neurotransmitter receptors in the brain and the site of action of a number of important pharmacological agents including barbiturates, benzodiazepines, and ethanol. The gamma 1 and gamma 2 subunits have been shown to be important in mediating responses to benzodiazepines, and a splicing variant of the gamma 2 subunit, gamma 2L, has been shown to be necessary for ethanol actions on the receptor, raising the possibility that the gamma 2 gene may be involved in human genetic predisposition to the development of alcoholism. We have assigned the human genes encoding the gamma 1 and gamma 2 subunits of the GABAA receptor to chromosomes 4 and 5, respectively, by PCR amplification of human-specific products from human-hamster somatic cell hybrid DNAs.

Chromosomal localization of human glutamate receptor genes.

The chromosomal localization of human glutamate receptor genes (GluR1-4) has been established using PCR with DNA isolated from mapping panels of Chinese hamster-human hybrid cell lines and high-resolution fluorescent in situ suppression hybridization. This was accomplished with genomic clones containing putative human homologs of rat GluR 1-4 isolated by high-stringency screening of a cosmid library with the rat cDNAs encoding GluR1-4. The locations of GluR1-4, respectively, are 5q32-33, 4q32-33, Xq25-26, and 11q22-23.

Human dopa decarboxylase: localization to human chromosome 7p11 and characterization of hepatic cDNAs.

We have cloned full-length DDC cDNAs from a human hepatoma cDNA library [DDC; dopa decarboxylase; aromatic-L-amino acid decarboxylase, EC 4.1.1.

Related subunits of NF-kappa B map to two distinct loci associated with translocations in leukemia, NFKB1 and NFKB2.

The chromosomal locations of the human genes NFKB1 and NFKB2, which encode two alternative DNA binding subunits of the NF-kappa B complex, p105 and p49/p100, respectively, have been determined. p105 was assigned to 4q21.1-q24 and p49/p100 to chromosome 10 by Southern blot analysis of panels of human/Chinese hamster cell hybrids.

Chromosome mapping of the rod photoreceptor cGMP phosphodiesterase beta-subunit gene in mouse and human: tight linkage to the Huntington disease region (4p16.3).

The retinal degeneration mouse (gene symbol, rd) is an animal model for certain forms of human hereditary retinopathies. Recent findings of a nonsense mutation in the rd mouse PDE beta-subunit gene (Pdeb) prompted us to investigate the chromosome locations of the mouse and human genes. We have utilized backcross analysis in mice to verify and define more precisely the location of the Pdeb locus 6.

Primary structure and chromosomal localization of human and mouse rod photoreceptor cGMP-gated cation channel.

We have determined the primary structures of the human and mouse retinal rod cGMP-gated cation channel by analysis of cDNA clones and amplified DNA. The open reading frames predicted polypeptides of 690 and 683 residues exhibiting 88% sequence similarity. Sequence comparison indicated that the rod channels consist of a variable 90-residue N-terminal region, a short highly charged segment rich in lysine and glutamate, and a 540-residue C-terminal portion that is well conserved in three mammalian species.

Localization of the D5 dopamine receptor gene to human chromosome 4p15.1-p15.3, centromeric to the Huntington's disease locus.

Genes encoding G-protein-coupled receptors, including dopamine, serotonin, muscarinic cholinergic, and adrenergic receptors, play an important role in neurotransmission and may be involved in the pathophysiology of diseases such as Alzheimer's disease, Parkinson's disease, or Huntington's disease (HD). We mapped the gene encoding the D5 dopamine receptor (DRD5) to human chromosome 4p, an area implicated in HD and the Wolf-Hirschhorn syndrome, using gene-specific amplification with the polymerase chain reaction on a panel of somatic cell hybrids carrying different human chromosomes. Further localization of the DRD5 gene was carried out through the isolation and analysis of yeast artificial chromosomes, fluorescence in situ suppression hybridization to human metaphase chromosomes, and analysis of a panel of somatic cell hybrids subdividing human chromosome 4 into nine regions.

Genomic organization, nucleotide sequence, and cellular distribution of a Shaw-related potassium channel gene, Kv3.3, and mapping of Kv3.3 and Kv3.4 to human chromosomes 19 and 1.

Genomic and cDNA clones encoding a novel Shaw-related potassium channel gene have been isolated from mice and humans. The mouse-Kv3.3 gene encodes a protein of 679 amino acids.

FLT4, a novel class III receptor tyrosine kinase in chromosome 5q33-qter.

The receptors for at least two hematopoietic growth factors, namely the stem cell factor and colony-stimulating factor 1, belong to class III receptor tyrosine kinases. Here we describe cloning of a partial complementary DNA for FLT4, an additional member of this gene family from human leukemia cells. The FLT4 tyrosine kinase domain is 79% homologous with the previously cloned FLT1 (M.

Somatic cell mapping of the human cyclophilin B gene (PPIB) to chromosome 15.

The polymerase chain reaction (PCR) technique was used to generate a unique probe complementary to the hydrophobic 5' end of the human cyclophilin B gene. This unique probe was hybridized to DNAs from human x hamster hybrid somatic cell lines retaining different combinations of human chromosomes. The gene was assigned to chromosome 15.

Molecular confirmation of Wolf-Hirschhorn syndrome with a subtle translocation of chromosome 4.

Wolf-Hirschhorn syndrome is a clinically recognizable, multiple congenital anomaly syndrome usually associated with terminal deletion of the short arm of chromosome 4. A girl with clinical features of Wolf-Hirschhorn syndrome did not show an obvious deletion of chromosome 4, and a molecular defect was suspected. RFLPs of genomic DNA from the proband and her parents were studied using DNA probes from the distal region of chromosome 4p.

A gene encoding a fibroblast growth factor receptor isolated from the Huntington disease gene region of human chromosome 4.

The gene responsible for Huntington disease (HD), an autosomal dominant neurodegenerative disorder, is located near the terminus of the short arm of chromosome 4. Detailed genetic linkage and physical mapping studies have defined a region of approximately 2.5 million basepairs where the disease gene is likely to be located.

Human chromosome-dependent and -independent pathways for HIV-2 trans-activation.

Human immunodeficiency virus (HIV types 1 and 2) replication is controlled by the interaction of viral-encoded regulatory proteins and host cellular proteins with the viral long terminal repeat (LTR). The presence of HIV-1 and HIV-2 trans-activator proteins, tat1 and tat2, respectively, greatly increases viral gene expression from their homologous LTRs. It is unclear if the cellular factors that support tat1-directed trans-activation of the HIV-1 LTR are the same for tat2 trans-activation of the HIV-2 LTR.

Mapping of human chromosome 5 microsatellite DNA polymorphisms.

Thirteen moderately to highly informative microsatellite DNA polymorphisms based on (dC-dA)n.(dG-dT)n repeats were mapped to segments of human chromosome 5 using both linkage analysis and a panel of somatic cell hybrids which contained rearranged chromosomes. The markers were distributed throughout most of the length of the chromosome from the regions p15.

Radiation hybrid map of 13 loci on the long arm of chromosome 5.

Radiation hybrid mapping was used in conjunction with a natural deletion mapping panel to predict the order of and distance between 13 loci in the distal portion of the long arm of human chromosome 5. A panel of irradiation hybrids containing fragments of 5q was generated from an HPRT+ Chinese hamster-human cell hybrid containing a derivative chromosome 5 [der(5)t(4;5)(5qter----5p15.1::4p15.