UMLS:C0025362 - FACTA Search

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Query: UMLS:C0025362 (mental retardation)
15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The locus DXS250, which is linked to the Allan-Herndon type of X-linked mental retardation, maps between DXS3 and DXYS1 in a panel of 40 families established by the Centre d'Etude du Polymorphisme Humain, Paris.
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PMID:Genetic linkage analysis places locus DXS250 between locus DXYS1 and locus DXS3 in Xq21.3. 161 8

The fragile X syndrome is the most common cause of familial mental retardation and is characterized by a fragile site at the end of the long arm of the X chromosome. The unusual genetics and cytogenetics of this X-linked condition make genetic counseling difficult. DNA studies were of limited value in genetic counseling, because the nearest polymorphic DNA loci had recombination fractions of 12% or more with the fragile X mutation, FRAXA. Five polymorphic loci have recently been described in this region of the X chromosome. The positions of these loci in relation to FRAXA were defined in a genetic linkage study of 112 affected families. The five loci--DXS369, DXS297, DXS296, IDS, and DXS304--had recombination fractions of 4% or less with FRAXA. The closest locus, DXS296, was distal to FRAXA and had a recombination fraction of 2%. The polymorphisms at these loci can be detected in DNA enzymatically digested with a limited number of restriction endonucleases. A strategy for DNA studies which is based on three restriction endonucleases and on five probes will detect one or more of these polymorphisms in 94% of women. This strategy greatly increases the utility of DNA studies in providing genetic advice to families with the fragile X syndrome.
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PMID:Genetic mapping of new DNA probes at Xq27 defines a strategy for DNA studies in the fragile X syndrome. 167 6

The fragile-X syndrome is the most frequent inherited form of mental retardation, with an incidence of 1 in 1,500 males. It is characterized by the presence of a fragile site at Xq27.3 induced in vitro by folate deprivation or by inhibitors of deoxynucleotide synthesis. Its mode of inheritance is unusual for an X-linked trait, with incomplete penetrance in both males and females. Some phenotypically normal males transmit the mutation to all their daughters who rarely express any symptoms, but penetrance is high in sons and daughters of these carrier women. Genetic and physical mapping of the Xq27-q28 region has confirmed that the disease locus is located at or very near the fragile site. Hypotheses proposed to account for the abnormalities in the inheritance of the disease include sequence rearrangements by meiotic recombination or a mutation that affects reactivation of an inactive X chromosome during differentiation of female germ cells. To detect such rearrangements, or methylation changes that may reflect a locally inactive X chromosome, we used pulsed-field gel analysis of DNA from fragile-X patients with probes close to the fragile-X locus. The probe Do33 (DXS465) detected abnormal patterns in fragile-X patients, but not in normal controls or in non-expressing male transmitters.
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PMID:Abnormal pattern detected in fragile-X patients by pulsed-field gel electrophoresis. 167 39

A mapping study was performed on a 3-generation Spanish family with X-linked syndromal mental retardation. Affected males have a typical facial appearance, ear malformations, abnormal growth of teeth, clinodactyly, dimpled skin at the lower back, and patellar luxation. In pneumoencephalography a marked subcortical cerebral atrophy was evident. In the linkage studies with polymorphic DNA markers, no recombination was found between the disease locus and the loci OTC and DXS148, both assigned to Xp21.1. One or more recombinants were observed between the disease locus and loci from the distal part of Xp and the pericentromeric region. Close linkage to loci of Xq has also been excluded. The analysis of multiple informative meioses suggests that the disease locus maps between DXS255 (Xp11.22) and DXS84 (Xp21.1) on Xp.
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PMID:Gene localization in a family with X-linked syndromal mental retardation (Prieto syndrome). 167 97

We report on a large 5-generation family with "nonspecific" X-linked mental retardation. Nine living affected males have an IQ between 50 and 70 but have normal stature, facial appearance, and testicular volumes and no other abnormalities. Two obligate carrier females had borderline intellectual abilities and visual-psychomotor difficulties similar to those seen in affected males. Results of chromosome studies, including fragile X, were normal in males and females. Linkage analysis was undertaken, with 19 X-specific chromosomal restriction fragment length polymorphisms (RFLPs), giving a maximal LOD score of 1.60 at a 0.10 recombination fraction for F9, suggesting a localization to distal Xq for the mutant gene in this family.
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PMID:Linkage analysis in a large family with nonspecific X-linked mental retardation. 167 98

Linkage of the gene responsible for an X-linked early onset parkinsonism disorder with mental retardation (McKusick 311510) to DNA probes that detect restriction fragment length polymorphisms is described. The disease gene is linked to the F8C gene, and to DNA probes detecting polymorphic loci DXS52, DXS15, DXS134, and DXS374 with maximum lod scores at theta = 0 of 5.08, 5.19, 5.00, 5.03, and 4.46, respectively. Multipoint linkage analysis gives a maximum multipoint lod score of 6.75 at the F8C gene. This places the disease gene in chromosomal region Xq27.3-qter.
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PMID:Waisman syndrome, a human X-linked recessive basal ganglia disorder with mental retardation: localization to Xq27.3-qter. 167 30

Fragile X-linked mental retardation is an enigmatic inheritable syndrome in which severe mental retardation, a cytogenetically detectable fragile site at Xq27.3 (FraX) and a number of dysmorphic features are associated. Genetic analysis shows that the mode of inheritance is more complex than a straightforward X-linked recessive trait and probably involves a two-step process for which several models have been proposed. Early attempts at 'cloning the fragile site' provided several DNA segments lying in its general vicinity, and large scale DNA mapping methods were extensively applied in an effort to generate maps including this region. These efforts were complemented by more focussed methods such as microdissection; together these approaches have now provided a number of DNA segments within a 5 cM interval around FraX, and with the help of these new probes the site is indeed being cloned. Unravelling the nature of the sequence(s) responsible for the mental retardation syndrome will probably take some time, however.
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PMID:Fragile X-linked mental retardation and the difficulties of reverse genetics. 167 86

Fragile X (or Martin-Bell) syndrome is an X-linked disorder that often produces mental retardation in males, but usually affects heterozygous females to a lesser degree. Here we report the results of a brief neuropsychological examination of 20 heterozygous fra(x) girls and women and two control groups of 20 individuals each. One control group was composed of fra(x)-negative mothers (obligate carriers) and sisters of male probands with fra(x) syndrome, whereas the other was composed of 14 head-injured and six learning disabled women and girls. In addition to general intellectual impairment, several specific cognitive deficits were consistently found in individuals with the Martin-Bell syndrome, suggesting focal neuropsychological dysfunction. Significant differences were noted between fra(x) individuals and controls on most cognitive and neuropsychological measures studied. Over one-third of the fra(x) individuals demonstrated neuropsychological symptoms characteristic of the full developmental Gerstmann syndrome, whereas another third had three or four of the five signs of possible parietal lobe dysfunction. In our sample, there was an association between improved performance and increasing age. Differences among heterozygous individuals in number of focal symptoms may reflect some variability in the penetrance of the fra(x) gene, as well as in the functional organization of the brain.
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PMID:Neuropsychological dysfunction among affected heterozygous fragile X females. 168 6

The N syndrome is characterized by mental retardation, malformations, chromosome breakage, and development of T-cell leukemia (Opitz et al.: Proceedings of the II International Congress IASSMD pp 115-119, 1971; Hess et al.: Clinical Genetics 6:237-246, 1974b, American Journal of Medical Genetics [supplement] 3:383-388, 1987). N syndrome fibroblasts were studied to see if the high chromosome breakage rate associated with this apparently X-linked syndrome could be related to a deficiency of DNA polymerase alpha, a product of a gene localized to the X chromosome. Bleomycin, which is known to break double-stranded DNA, produced increased chromosome breakage in normal control, Fanconi anemia, and N syndrome fibroblasts. When aphidicolin was used to inhibit repair mediated by DNA polymerase alpha, both normal control and Fanconi anemia fibroblasts showed significantly more chromosome breakage than was produced by bleomycin alone, but there was no increase in the amount of breakage seen in the N syndrome fibroblasts over that seen with bleomycin alone. This suggests that the N syndrome is due to a mutation affecting the region of the X chromosome on which the gene for DNA polymerase alpha is located, and that the high risk of T-cell leukemia observed in the hemizygote is due to this DNA repair defect.
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PMID:DNA polymerase alpha defect in the N syndrome. 168 58

A survey of Mendelian Inheritance in Man emphasizes the large Mendelian contribution to human dysmorphogenesis and contrasts single gene conditions with chromosomal disorders. There were 1761 conditions that involved altered morphogenesis (49% of disease entries), including 1040 multiple defect syndromes and 721 inherited single birth defects. Premature death (36-57%), mental retardation (20-59%), and growth retardation (37-59%) are more frequent in autosomal recessive or X-linked syndromes, while predisposition to tumorigenesis was more common in dominant (16%) than recessive (3.4%) syndromes. Comparison of the Mendelian conditions with 100 chromosomal disorders showed a strikingly similar spectrum of malformation, with skeletal, craniofacial, eye, epidermal, and neuromuscular systems being most frequently affected. Chromosomal syndromes average 10.6 systems affected per disorder, in contrast to 3.55 for Mendelian syndromes, and pleiotropy does correlate weakly with aneuploid segment length. Genomic understanding of these relationships is still primitive, with 74 of 1609 (4.6%) autosomal conditions and 43 of 152 (29%) X-linked conditions mapped to specific chromosomal regions. The societal toll of human dysmorphogenesis and the evident progress with X-linked disorders provide a powerful rationale for the Human Genome Project.
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PMID:Genomics of human dysmorphogenesis. 173 68

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