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)

A young girl with a clinically moderate form of myotubular myopathy was found to carry a cytogenetically detectable deletion in Xq27-q28. The deletion had occurred de novo on the paternal X chromosome. It encompasses the fragile X (FRAXA) and Hunter syndrome (IDS) loci, and the DXS304 and DXS455 markers, in Xq27.3 and proximal Xq28. Other loci from the proximal half of Xq28 (DXS49, DXS256, DXS258, DXS305, and DXS497) were found intact. As the X-linked myotubular myopathy locus (MTM1) was previously mapped to Xq28 by linkage analysis, the present observation suggested that MTM1 is included in the deletion. However, a significant clinical phenotype is unexpected in a female MTM1 carrier. Analysis of inactive X-specific methylation at the androgen receptor gene showed that the deleted X chromosome was active in approximately 80% of leukocytes. Such unbalanced inactivation may account for the moderate MTM1 phenotype and for the mental retardation that later developed in the patient. This observation is discussed in relation to the hypothesis that a locus modulating X inactivation may lie in the region. Comparison of this deletion with that carried by a male patient with a severe Hunter syndrome phenotype but no myotubular myopathy, in light of recent linkage data on recombinant MTM1 families, led to a considerable refinement of the position of the MTM1 locus, to a region of approximately 600 kb, between DXS304 and DXS497.
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PMID:Myotubular myopathy in a girl with a deletion at Xq27-q28 and unbalanced X inactivation assigns the MTM1 gene to a 600-kb region. 772 66

The human genome contains many repeated DNA sequences that vary in complexity of repeating unit from a single nucleotide to a whole gene. The repeat sequences can be widely dispersed or in simple tandem arrays. Arrays of up to 5 or 6 nt are known as simple tandem repeats, and these are widely dispersed and highly polymorphic. Members of one group of the simple tandem repeats, the trinucleotide repeats, can undergo an increase in copy number by a process of dynamic mutation. Dynamic mutations of the CCG trinucleotide give rise to one group of fragile sites on human chromosomes, the rare folate-sensitive group. One member of this group, the fragile X (FRAXA) is responsible for the most common familial form of mental retardation. Another member of the group FRAXE is responsible for a rarer mild form of mental retardation. Similar mutations of AGC repeats give rise to a number of neurological disorders. The expanded repeats are unstable between generations and somatically. The intergenerational instability gives rise to unusual patterns of inheritance--particularly anticipation, the increasing severity and/or earlier age of onset of the disorder in successive generations. Dynamic mutations have been found only in the human species, and possible reasons for this are considered. The mechanism of dynamic mutation is discussed, and a number of observations of simple tandem repeat mutation that could assist in understanding this phenomenon are commented on.
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PMID:Simple tandem DNA repeats and human genetic disease. 773 57

Three fragile sites, FRAXA, FRAXE and FRAXF lie in the Xq27-28 region of the human X chromosome. The expression of FRAXA is associated with the fragile X syndrome, the most prevalent form of inherited mental retardation whilst the expression of FRAXE is associated with a rarer and comparatively milder form of mental handicap. Both the FRAXA and FRAXE sites have been cloned and the fragile site expression found to be due to the expansion of analogous CGG/GCC trinucleotide repeat arrays. We describe here the cloning of the third fragile site, FRAXF, and demonstrate that it involves the expansion of a (GCCGTC)n(GCC)n compound array. PCR analyses across the repeat of normal individuals show that the number of triplets in the array ranges from 12-26 and the most common allele consists of 14 triplet units. Sequencing analyses show that 95% of normal individuals have three copies of the GCCGTC motif and in these individuals, the size variation observed by PCR is due to copy number alterations in the GCC array. In a cytogenetically positive male with developmental delay, the array is expanded by > 900 triplets and the adjacent CpG-rich region is methylated. The array is also expanded in cytogenetically positive carrier females from the family originally used to define the FRAXF site. We conclude that the expanded array corresponds to the FRAXF fragile site.
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PMID:The cloning of FRAXF: trinucleotide repeat expansion and methylation at a third fragile site in distal Xqter. 788 7

Expansion of trinucleotide repeats is now recognized as a major cause of neurological disease. At least seven disorders result from trinucleotide repeat expansion: X-linked spinal and bulbar muscular atrophy (SBMA), two fragile X syndromes of mental retardation (FRAXA and FRAXE), myotonic dystrophy, Huntington's disease, spinocerebellar ataxia type 1 (SCA1), and dentatorubral-pallidoluysian atrophy (DRPLA). The expanded trinucleotide repeats are unstable, and the phenomenon of anticipation, i.e., worsening of disease phenotype over successive generations, correlates with increasing expansion size. In this review, we compare the clinical and molecular features of the trinucleotide repeat diseases, which may be classified into two types. Fragile X and myotonic dystrophy are multisystem disorders usually associated with large expansions of untranslated repeats, while the four neurodegenerative disorders, SBMA, Huntington's disease, SCA1, and DRPLA, are caused by smaller expansions of CAG repeats within the protein coding portion of the gene. CAG repeats encode polyglutamine tracts. Polyglutamine tract expansion thus appears to be a common mechanism of inherited neurodegenerative disease. Although polyglutamine tract lengthening presumably has a toxic gain of function effect in the CAG trinucleotide repeat disorders, the basis of this neuronal toxicity remains unknown.
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PMID:Trinucleotide repeat expansion in neurological disease. 799 66

We report the results of a 14-center collaborative study of genotype-phenotype correlations in 318 fragile X families; these families comprised 2,253 individuals, 1,344 of whom carried a fragile X mutation and 693 of whom had a typical full fragile X mutation. This study demonstrates that direct DNA diagnosis establishes the genotype at the FRAXA-FMR-1 locus. There was a significantly higher prevalence of "mosaic" cases among males who carry a full mutation (12%) than among females who carry a full mutation (6%); the mosaic males had a larger expansion than did the mosaic females. Mental status of premutated individuals did not differ from that of those with a normal genotype. Both the abnormal methylation of the FMR-1-EagI site and the size of the expansion were highly correlated with cytogenetics, facial dysmorphism, macroorchidism, and mental retardation (MR). Among female carriers of a full mutation, those with MR had significantly larger expansion than did those without MR. Among 164 independent couples, 3 unrelated husbands carried a premutation that suggests that the prevalence of fragile X premutations in the general population is approximately 0.9% of the X chromosomes. Our data validate the use of direct DNA testing for fragile X diagnosis as well as for carrier identification and support and complete the established relationships among the DNA results and the cytogenetic, physical, and psychological aspects of the disease.
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PMID:A multicenter study on genotype-phenotype correlations in the fragile X syndrome, using direct diagnosis with probe StB12.3: the first 2,253 cases. 803 2

Fragile X syndrome is the most common familial form of mental retardation and known to be associated with the fragile site at Xq27.3 (FRAXA). The syndrome has recently been characterized by a unique genetic mechanism which involves dynamic mutation due to a heritable unstable DNA sequence, p(CCG)n repeat, in the FRAXA locus. We were asked to make a genetic diagnosis on the case of a normal male who has two brothers and a maternal uncle with mental retardation. We performed the pedigree analysis of the fragile X syndrome using both cytogenetic and molecular techniques. The affected two brothers and the uncle showed cytogenetic expression of the fra (X)(q27.3) and carried hypermethylated full mutation in the FRAXA locus. The phenotypically normal mother also exhibited fragile X expression and was found to be a carrier of premutation. Via female transmission, the premutation converted to full mutation and exhibited somatic heterogeneity and hypermethylation. However, both cytogenetic and molecular data did not show any evidence of fragile X mutation in the normal male client and, thus, excluded the possibility of his being a carrier.
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PMID:Cytogenetic and molecular analysis of dynamic mutation associated with fragile X syndrome. 808 Jun 57

The recent observation that the mutation underlying a number of genetic diseases including fragile sites, FRAXA and FRAXE (associated with mental retardation), myotonic dystrophy, spinal and bulbar muscular atrophy (Kennedy's disease), Huntington's disease and spinocerebellar ataxia type 1 are caused by the expansion of a trinucleotide repeat sequence will lead to interest in the identification of such sequences in regions related to other diseases. We report here the identification of all ten classes of trinucleotide repeats within a 2 Mbp region of 4p16.3 containing the Huntington's disease (HD) gene. Fifty one triplet repeats were identified and localised on a high resolution restriction map of a cosmid contig covering this region. This included the triplet repeat (CAG)n, which has subsequently been shown to be expanded in Huntington's disease patients.
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PMID:Distribution of trinucleotide repeat sequences across a 2 Mbp region containing the Huntington's disease gene. 816 55

Fragile X syndrome is a common cause of mental retardation that is inherited as an X-linked dominant disorder with reduced penetrance. Fragile X syndrome has been shown to be caused by an unstable CGG repeat within the fragile X mental retardation-1 (FMR1) gene. The repeat is normally polymorphic with six to 52 repeats, while affected males and females exhibit a massive expansion resulting in 230 to more than 1000 repeats. Such expansions, called "full mutations," are associated with abnormal methylation of the FMR1 gene leading to transcriptional suppression. The resulting absence of the encoded protein, FMRP, a cytosolic RNA-binding protein, is believed to result in the phenotype. Nonpenetrant male carriers and many female carriers exhibit premutation alleles of intermediate length (50 to 230 repeats), which are normally expressed. Male carriers transmit only unstable premutations while female premutation carriers can have carrier offspring with premutations or affected children with full mutations. The risk of having an affected child is directly related to the number of maternal repeats, with sequentially increasing probabilities of these alleles converting to full mutations as they are transmitted to subsequent generations. Advances have led to highly accurate laboratory diagnoses of both carrier and affected individuals as well as markedly improved prenatal diagnosis. In addition, a previously unrecognized class of mutation, later found responsible for several other important genetic diseases, has emerged.
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PMID:Advances in molecular analysis of fragile X syndrome. 830 72

Fragile X syndrome is the major cause of inherited mental retardation. The molecular basis for the expression of the fragile X phenotype is the expansion of an unstable CGG repeat element which inhibits transcription of the FMR1 gene. The fragile X syndrome shows great diversity in its phenotype as well as in its cytogenetic and molecular status. We have studied, in a large fragile X family, the correlation between the molecular data and the phenotypic expression of the syndrome. We report two brothers who carry identical unmethylated premutated alleles but present different clinical phenotypes. We also suggest that reductions in allele size from one generation to another may be, as in other diseases, because of triplet amplifications, more common at the FRAXA locus than previously thought.
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PMID:Instability of the CGG repeat at the FRAXA locus and variable phenotypic expression in a large fragile X pedigree. 859 40

The fragile X(A) or FRAXA syndrome is the most common form of familial mental retardation and is associated with a fragile site at Xq27.3. The gene responsible for the FRAXA syndrome, the FMR1 gene, has been cloned. inactivation of the FMR1 gene is associated with amplification of a trinucle-otide CGG repeat sequence and methylation of an adjacent CpG island. Previous estimates for the prevalence of the FRAXA syndrome have been based on indirect methods of chromosome analysis in institutions and community workshops for the mentally handicapped. We have analyzed the frequency of premutations of the FMR1 gene in 3002 X chromosomes of 1000 male and 1000 female consecutive newborn nonautoclaved blood spots in an anonymous, unlinked survey. The CGG repeat sizes were calculated by measuring the length of products of the PCR reaction based on the molecular size of labeled markers in a denaturing sequencing gel assay. For consistent PCR amplification a DNA microextraction was necessary, including a phenol/chloroform series. In our population, the CGG allele ranged from 9 to 106 repeats: 97% of alleles had fewer than 40 repeats. The most frequent allele was a repeat of 28. Approximately 2.3% of alleles had CGG repeats ranging from 4 to 49 and 0.37% of alleles had repeats ranging from 50 to 59. The frequency of alleles > 60 repeats in the Manitoba male population is approximately 0.13%. The use of nonautoclaved Guthrie blood spots for population screening of FRAXA premutations is not recommended. The necessity of a phenol/chloroform DNA microextraction is tedious and time consuming. The low yield of DNA (250 ng) does not allow for reanalysis by Southern of apparently homozygous females with potentially unstable CGG alleles in the 40-60 repeat range and likely underestimates premutation carrier status.
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PMID:Frequency of FMR1 premutations in a consecutive newborn population by PCR screening of Guthrie blood spots. 859 39

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