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Twenty-eight X-linked, recessive mutations of Drosophila melanogaster conferring enhanced sensitivity to the monofunctional alkylating agent, methyl methanesulfonate, have been recoered and assigned to five complementation groups. These groups can be distinguished on the basis of map location and variations in the pattern of mutagen sensitivity. Allelism of members of one complementation group with the previously described meiotic mutant, mei-41, (Baker and Carpenter, 1972) as well as the frequent appearance of female infertility with mutagen sensitivity suggests associated defects in meiotic chromosome behavior or early embryogenesis. Examination of the mutagen sensitivity of double mutants has led to the formulation of a working model of DNA repair for this organism. Studies of a similar nature (Boyd et al., 1976) have identified five additional X chromosome complementation groups, suggesting that the genome of Drosophila melanogaster may contain many loci involved with mutagen sensitivity. The continued isolation and characterization of conditional mutants of this type promises future insights into the mechanisms of DNA replication, DNA repair and recombination in this complex higher eucaryote.
Mol Gen Genet 1976 Nov 24
PMID:Mutagen sensitivity of Drosophila melanogaster. III. X-linked loci governing sensitivity to methyl methanesulfonate. 18 78

One- and two-dimensional gel electrophoresis was employed to characterize and compare ribosomal subunit proteins from wild-type D. melanogaster and several mutants, including suppressor-of-forked and four X-linked cold sensitive lethals. The sibling species D. simulans was also studied. We found the electropherogram patterns indistinguishable in all cases.
Mol Gen Genet 1976 Aug 19
PMID:The ribosomes of Drosophila. IV. Electrophoretic identify among ribosomal subunit proteins from wild type and mutant D. melanogaster and D. simulans. 82

Ten embryonic stem (ES) cell lines from mink blastocysts were isolated and characterized. All the lines had a normal diploid karyotype; of the ten lines studied, five had the XX and five had the XY constitution. Testing of the pluripotency of the ES-like cells demonstrated that 1) among four lines of genotype XX, and X was late-replicating in three; both Xs were active in about one-third of cells of line MES8, and analysis of glucose-6-phosphate dehydrogenase revealed no dosage compensation for the X-linked gene; 2) when cultured in suspension, the majority of lines were capable of forming "simple" embryoid bodies (EB), and two only showed the capacity for forming "cystic" multilayer EBs. However, formation of ectoderm or foci of yolk sac hematopoiesis, a feature of mouse ES cells, was not observed in the "cystic" EB; 3) when cultured as a monolayer without feeder, the ES cells differentiated into either vimentin-positive fibroblast-like cells or cytokeratin-positive epithelial-like cells (less frequently); neural cells appeared in two lines; 4) when injected into athymic mice, only one of the four tested lines gave rise to tumors. These were fibrosarcomas composed of fibroblast-like cells, with an admixture of smooth muscular elements and stray islets of epithelial tissue; (5) when the ES cells of line MES1 were injected into 102 blastocyst cavities and subsequently transplanted into foster mothers, we obtained 30 offspring. Analysis of the biochemical markers and coat color did not demonstrate the presence of chimaeras among offspring. Thus the cell lines derived from mink blastocysts are true ES cells. However, their pluripotential capacities are restricted.
Mol Reprod Dev 1992 Dec
PMID:Isolation and cultivation of blastocyst-derived stem cell lines from American mink (Mustela vison). 128 24

Norrie disease is a human X-linked recessive disorder of unknown etiology characterized by congenital blindness, sensory neural deafness and mental retardation. This disease gene was previously linked to the DXS7 (L1.28) locus and the MAO genes in band Xp11.3. We report here fine physical mapping of the obligate region containing the Norrie disease gene (NDP) defined by a recombination and by the smallest submicroscopic chromosomal deletion associated with Norrie disease identified to date. Analysis, using in addition two overlapping YAC clones from this region, allowed orientation of the MAOA and MAOB genes in a 5'-3'-3'-5' configuration. A recombination event between a (GT)n polymorphism in intron 2 of the MAOB gene and the NDP locus, in a family previously reported to have a recombination between DXS7 and NDP, delineates a flanking marker telomeric to this disease gene. An anonymous DNA probe, dc12, present in one of the YACs and in a patient with a submicroscopic deletion which includes MAOA and MAOB but not L1.28, serves as a flanking marker centromeric to the disease gene. An Alu-PCR fragment from the right arm of the MAO YAC (YMAO.AluR) is not deleted in this patient and also delineates the centromeric extent of the obligate disease region. The apparent order of these loci is telomere ... DXS7-MAOA-MAOB-NDP-dc12-YMAO.AluR ... centromere. Together these data define the obligate region containing the NDP gene to a chromosomal segment less than 150 kb.
Hum Mol Genet 1992 May
PMID:The Norrie disease gene maps to a 150 kb region on chromosome Xp11.3. 130 Nov 61

We have identified a compound dinucleotide repeat within intron 7 of the human erythroid 5-aminolevulinate synthase (ALAS2) gene with a minimum of 9 alleles and heterozygosity of 78%. ALAS2 was placed on the multipoint linkage map of the X chromosome in the pericentromeric region with the locus order: pter-(DXS255, TFE3, DXS146)-(DXS14, ALAS2, DXZ1)-AR-(DXS153, DXS159)-qter. No recombination was observed between ALAS2 and the centromere marker DXZ1. As ALAS2 has recently been shown to be the defective locus in X-linked pyridoxine-responsive sideroblastic anemia (PRSA), the ALAS2 marker has allowed placement of the gene for PRSA into the multipoint linkage map of the X chromosome. With the previous exclusion of close linkage between DXS14 and sideroblastic anemia with ataxia, our data show that there are at least two loci for X-linked sideroblastic anemia.
Hum Mol Genet 1992 Nov
PMID:Identification of a highly polymorphic marker within intron 7 of the ALAS2 gene and suggestion of at least two loci for X-linked sideroblastic anemia. 130 Nov 72

Fragile X syndrome is the most frequent form of inherited mental retardation and segregates as an X-linked dominant with reduced penetrance. Recently, we have identified the FMR-1 gene at the fragile X locus. Two molecular differences of the FMR-1 gene have been found in fragile X patients: a size increase of an FMR-1 exon containing a CGG repeat and abnormal methylation of a CpG island 250 bp proximal to this repeat. Penetrant fragile X males who exhibit these changes typically show repression of FMR-1 transcription and the presumptive absence of FMR-1 protein is believed to contribute to the fragile X phenotype. It is unclear, however, if either or both molecular differences in FMR-1 gene is responsible for transcriptional silencing. We report here the prenatal diagnosis of a male fetus with fragile X syndrome by utilizing these molecular differences and show that while the expanded CGG-repeat mutation is observed in both the chorionic villi and fetus, the methylation of the CpG island is limited to the fetal DNA (as assessed by BssHII digestion). We further demonstrate that FMR-1 gene expression is repressed in the fetal tissue, as is characteristic of penetrant males, while the undermethylated chorionic villi expressed FMR-1. Since the genetic background of the tissues studied is identical, including the fragile X chromosome, these data indicate that the abnormal methylation of the FMR-1 CpG-island is responsible for the absence of FMR-1 transcription and suggests that the methylation may be acquired early in embryogenesis.
Hum Mol Genet 1992 Sep
PMID:DNA methylation represses FMR-1 transcription in fragile X syndrome. 130 13

Retinitis Pigmentosa (RP) is a group of inherited retinopathies which affect approximately 1 in 4,000 individuals. The disorder can be classified on the basis of inheritance; dominant, recessive and X-linked forms have been well documented. The existence of genetic heterogeneity within autosomal dominant RP (adRP) had been previously demonstrated. As a result of extensive linkage studies in 2 large Irish families and 1 American pedigree three adRP genes have been mapped. adRP genes have been localised to chromosome 3q close to the rod photoreceptor gene, rhodopsin; to chromosome 6p close to another transmembrane photoreceptor gene, peripherin/RDS and to the pericentric region of chromosome 8, although the causative gene in this region has not yet been identified. Here we report the results of a linkage study in a Spanish family, who exhibit an early-onset form of adRP. The adRP gene segregating in this family has been excluded from the three known adRP loci on chromosomes 3q, 6p and 8 using a series of both intragenic microsatellite markers from the rhodopsin and peripherin/RDS genes and markers flanking the three known loci. These results provide definitive evidence for the existence of a fourth adRP locus, further emphasising the genetic heterogeneity that exists within adRP.
Hum Mol Genet 1992 Sep
PMID:Autosomal dominant retinitis pigmentosa (adRP): exclusion of a gene from three mapped loci provides evidence for the existence of a fourth locus. 130 15

In the mammalian nervous system, serotonin (5-hydroxytryptamine) binds to distinct cell surface receptor subtypes that are defined by their ligand binding and effector-coupling properties. The 5HT1c receptor is a G-protein coupled receptor that stimulates phospholipase C-catalyzed hydrolysis of phosphatidylinositol bisphosphate, leading to the mobilization of intracellular calcium and to the activation of protein kinase C. By using somatic cell hybrid analysis and FISH, we have mapped the HTR1C locus to the human X chromosome, band q24 and to the mouse X chromosome region D-F4. Comparison of these map positions offers new insights into the evolution of human and murine X chromosomes. Since HTR1C is expressed in certain parts of the central nervous system and abnormal function of the serotoninergic system has been implicated in affective disorders, obsessive-compulsive disorder and epilepsy, establishing the precise map position of HTR1C is an important first step toward evaluating this locus as a candidate for mutations in these syndromes and in X-linked mental disorders.
Hum Mol Genet 1992 Dec
PMID:Serotonin receptor 1c gene assigned to X chromosome in human (band q24) and mouse (bands D-F4). 130 5

It has been shown from pulsed-field gel electrophoresis (PFGE) that the monoamine oxidase genes A and B (MAOA & MAOB) and DXS7 loci are physically very close. We have therefore extended studies on their relationship through the characterisation of a 650 kb YAC isolated using L1.28 (recognising the DXS7 locus) as a probe. Restriction mapping of the YAC indicates that it contains both MAOA and MAOB genes in addition to the DXS7 locus. The map derived from the YL1.28-YAC is compatible both with the map from an independently derived YAC carrying MAOA and B genes and with the long range genomic map for the region. A series of subclones prepared from a 'phage library (lambda DASH II) of the YAC have been characterised and have been employed to determine the end point of the deletion of a Norrie disease (NDP) patient who has been shown to lack both DXS7 and MAO coding sequences. The pattern of retention of subclones in the deletion patient place the end point of the deletion within 30-130 kb of the proximal end of the YAC. By combining the data with established recombination analysis, we provide evidence that all or part of the NDP lies in the interval of approximately 250kb within the YAC.
Hum Mol Genet 1992 Jun
PMID:Characterization of a YAC containing part or all of the Norrie disease locus. 130 71

A CpG island has been identified just upstream of the first exon of the human monoamine oxidase A (MAOA) gene, localized to Xp11.4-Xp11.23. Southern blotting following digestion with the methylation sensitive restriction endonucleases SmaI, HpaII and HhaI, indicated that CpG dinucleotides within the CpG island were unmethylated on the active X chromosome and extensively methylated on the inactive X chromosome. These sites of differential methylation were close to a polymorphic GT-dinucleotide/VNTR region, which is located 1 kb 3' of the first exon and has a heterozygosity value of 75%. PCR primers were designed for amplification of 1.2-1.3 kb DNA fragments, encompassing both the hypervariable region and a cluster of six HpaII sites within the CpG-rich region. Cleavage of HpaII sites was found to be restricted to active X chromosomes. Therefore, following HpaII digestion, DNA fragments were exclusively amplified from inactive X chromosomes. The resulting PCR products were digested with SacI, which reduced the size of the DNA fragments containing the hypervariable region to 230-330 bp, and were subsequently analyzed on denaturating polyacrylamide gels. Because amplified fragments were exclusively derived from the inactive X chromosome, the relative densities of the two allelic fragments should reflect the proportions of cells that have either of the two X chromosome inactivated. The results of this PCR-based X chromosome inactivation assay were fully concordant with Southern blotting methylation analyses at the PGK locus. It therefore provides a rapid and informative method in tumour clonality analysis and carrier detection in X-linked diseases.
Hum Mol Genet 1992 Jun
PMID:An X chromosome inactivation assay based on differential methylation of a CpG island coupled to a VNTR polymorphism at the 5' end of the monoamine oxidase A gene. 130 Nov 86

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