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 fragile X syndrome(FRAXA) is the disease characterized by X-linked mental retardation, large ears, behavioral problems and macroorchidism. FMR-1 gene expression and its function in human organs are not fully understood. We studied the age dependent and tissue specific FMR-1 gene expression using human autopsy materials by means of RT-PCR. Total RNAs were extracted from the tissues and RT-PCR were performed to detect FMR-1 gene expression. Semiquantitative analysis were performed and the amount of FMR-1 gene products were compared with PGK gene products. Significant FMR-1 gene expressions were noted in all tissues tested, however cerebrum, cerebellum and testis demonstrated relatively higher FMR-1 transcripts compared with other organs. Relatively high expressions were noticed in all tissues during fetal/infantile periods. Semiquantitative analysis reveals that FMR-1 gene expressed much stronger especially around the perinatal periods. These results suggested that FMR-1 gene is widely expressed in human tissues and may play an important role during human maturation not only in the central nervous systems but also in other organs including liver and kidney.
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PMID:[Age dependent and tissue specific FMR-1 gene expression in human organs]. 1022 95

The folate sensitive fragile site FRAXE is located in Xq28, 600 kb distal to the fragile X syndrome (FRAXA) fragile site. An unstable GCC triplet repeat responsible for FRAXE exists in the 5' untranslated region of FMR2 gene. Normal alleles range from 10-35 repeats and more frequently 15-20 GCCs. An expanded GCC repeat over 200 is methylated, inactivates FMR2, and results in FRAXE mental retardation. Affected individuals show mild mental retardation and/or autistic symptoms FMR2 is a large gene consisting of 21 exons spanning about 600 kb. FMR2 mRNA is about 9.5 kb and is expressed in the brain(especially in the hippocampus and the amygdala) in adults and also in placenta. The FMR2 protein is 1311 amino acids, contains nuclear localization signals, and is a putative transcription factor.
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PMID:[FRAXE mental retardation]. 1022 96

This study presents the first large, population-based molecular investigation of the fragile X (FRAXA) and FRAXE mental retardation syndromes in the Hellenic populations of Greece and Cyprus. The aims of this population screening were to determine the prevalence of FRAXA and FRAXE syndromes among idiopathic mentally retarded (IMR) individuals, to estimate the incidence in the general population, and to investigate the molecular mechanism of instability and expansion of the FMR1-repeat. Ten FRAXA patients were identified to have either the full mutation (eight) or premutation (two) from a Hellenic population of 866 unrelated IMR individuals (611 males and 255 females, age range 3-25 years). No FRAXE patients were identified among the 611 IMR males. The incidence of FRAXA in the Hellenic population of Cyprus is estimated at 1 in 4,246 males. The repeat sites from the FMR1 and FMR2 alleles were accurately determined and showed similar distribution and frequencies with other population studies. The analysis of AGG interspersion within the FMR1-repeat in normal males revealed long, pure CGG repeats within the "gray zone" as well as variation within the 3' end showing polarity of instability. This finding supports the hypothesis that the AGG interspersion and the length of the pure repeat are major factors in determining allele stability. Analysis of FRAXAC1, DXS548, and FRAXAC2 identified particular alleles and haplotypes to have a significant association with either gray zone alleles or alleles >15 pure CGG repeats. We hypothesize that this subgroup of alleles and haplotypes are associated with long pure CGGs (>15 CGG) or 35 repeats and, having shared an evolutionary past, would have the tendency to expand.
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PMID:Molecular screening of fragile X (FRAXA) and FRAXE mental retardation syndromes in the Hellenic population of Greece and Cyprus: incidence, genetic variation, and stability. 1033 87

The fragile X syndrome is the most common inherited form of mental retardation. Haplotype studies using FRAXAC1 and DXS548 polymorphic markers flanking the fragile site have demonstrated linkage disequilibrium at the FMR1 locus. We investigated the association of the FRAXAC1, DXS548 and CGG alleles between normal subjects and mentally retarded (MR) patients of unspecified cause who do have fragile X syndrome. We have evaluated the FRAXAC1 site in 390 normal subjects and 321 MR patients and the DXS548 site in 146 normal and 319 MR subjects. Both FRAXAC1 and DXS548 alleles were determined by application of the polymerase chain reaction. When compared with Caucasians, the normal Chinese population has a different FRAXAC1 allele distribution. There are more AC18 repeat alleles and fewer AC19 repeat alleles. The DXS548 allele distributions were similar between Chinese and Caucasians. The same distribution pattern of FRAXAC1 alleles was found in both normal subjects and MR patients, but there were significant differences in the distribution patterns of DXS548 alleles. The FMR1 CGG-DXS548 and FRAXAC1-DXS548 haplotype distribution between normal subjects and MR patients also differed significantly. Our results suggest a possible association between DXS548 alleles and non-FRAXA mental retardation.
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PMID:FRAXAC1 and DXS548 polymorphisms in the Chinese population. 1295 75

Fragile X syndrome is the most frequent heritable genetic disease involving mental retardation and is usually caused by an expanded CGG repeat in the first exon of the FMR1 gene. Therefore, searching for CGG expansion at the FRAXA locus among the mentally retarded has become a routine investigation in neuro-paediatric practice. Consequently, we have developed a fluorescent PCR-based assay for sizing repeats as an alternative to laborious and time-consuming Southern blot. The procedure utilises a reverse fluorescent labelled primer, and the Expand Long Template PCR system (Roche) with addition of dimethylsulfoxide and 7-deaza-dGTP It allows precise determination of the CGG repeat number in males and females for alleles from normal to premutation size range and detection of full mutations in males. We believe that this PCR protocol, allowing a high sample throughput, is useful for first-line screening among mentally retarded males, possibly complemented by Southern blot analysis to assess the methylation status of large mutated alleles.
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PMID:Improved fluorescent PCR-based assay for sizing CGG repeats at the FRAXA locus. 1036 9

A total of 106 women affected by premature ovarian failure (POF) were evaluated for fragile X (FRAXA) premutation. The POF patients were classified as having a familial condition (33 women), at least one relative with early menopause (12 women), or a sporadic condition (61 women). The FRAXA premutation was only detected in patients with familial (four out of 33) or sporadic POF (two out of 61). In general, the results obtained indicated that the prevalence [six out of 106, 6%, 95% confidence interval (CI) 3-11%] of FRAXA premutation is significantly higher in women affected by POF than expected (P = 1.24x10(-3)), suggesting a phenotype consequence of the premutation alleles. This relationship is more convincingly derived from the observation in two analysed pedigrees of a co-segregation between FRAXA and POF. These findings suggest a possible involvement of premutated alleles in ovarian failure, and indicate the utility of POF families screening for FRAXA premutation in order to prevent the transmission of mental retardation syndrome.
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PMID:Association between idiopathic premature ovarian failure and fragile X premutation. 1092 Jan 20

Fragile X syndrome is the most common inherited form of mental retardation. The syndrome is associated with a CGG repeat expansion in the 5'UTR of the first exon of the FMR1 gene. This gene maps to Xq27.3 and coincides with the cytogenetic fragile site (FRAXA). The present study deals with the prevalence of fragile X syndrome among individuals with mental retardation of unknown cause from institutions and special schools from the Spanish Basque Country. Results of cytogenetic and molecular studies, performed in a group of 134 unrelated individuals (92 males and 42 females) are presented. The cytogenetic marker at Xq27.3 was identified in 12 patients. Other chromosomal abnormalities were found in two cases that this and previous studies confirmed as Angelman and Prader-Willi syndromes. Two males, in whom the cytogenetic marker was identified, were found negative for FRAXA and FRAXE expansion at the molecular level. The present study shows that the frequency of the FRAXA full mutation in individuals of Spanish non-Basque origin is in the range of other Spanish populations. In the sample of Spanish Basque origin we have not found cytogenetic FRAXA site expression, and the CGG repeat size of FMR1 gene is in the normal range. The significance of these results are discussed.
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PMID:A survey of fragile X syndrome in a sample from Spanish Basque country. 1067 58

Fragile X syndrome (FRAXA) is characterized at the molecular level by an expansion of a naturally occurring 5'-(CGG)(n)-3' repeat in the promoter and 5'-untranslated region (5'-UTR) of the fragile X mental retardation (FMR1) gene on human chromosome Xq27.3. When expanded, this region is usually hypermethylated. Inactivation of the FMR1 promoter and absence of the FMR1 protein are the likely cause of the syndrome. By using the bisulfite protocol of the genomic sequencing method, we have determined the methylation patterns in this region on single chromosomes of healthy individuals and of selected premutation carriers and FRAXA patients. In control experiments with unmethylated or M- Sss I-premethylated DNAs, this protocol has been ascertained to reliably detect all cytidines or 5-methylcytidines as unmethylated or methylated nucleotides, respectively. Analyses of the DNA from FRAXA patients reveal considerable variability in the lengths of the 5'-(CGG)(n)-3' repeats and in the levels of methylation in the repeat and the 5'-UTR. In one patient (OEl) with high repeat length hetero-geneity ( n = 15 to >200), shorter repeats (n = 20-80) were methylated or unmethylated, longer repeats ( n = 100-150) were often completely methylated, but one repeat with n = 160 proved to be completely unmethylated. This type of methylation mosaicism was observed in several FRAXA patients. In healthy females, methylated 5'-CG-3' sequences were found in some repeats and 5'-UTRs, as expected for the sequences from one of the X chromosomes. The natural FMR1 promoter is methylation sensitive, as demonstrated by the loss of activity in transfection experiments using the unmethylated or M- Sss I-premethylated FMR1 promoter fused to the luciferase gene as an activity indicator.
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PMID:Methylation mosaicism of 5'-(CGG)(n)-3' repeats in fragile X, premutation and normal individuals. 1077 84

The FRAXE fragile site, 600 kb distal to the more common FRAXA, has been reported to be expressed in subjects with mild non-syndromal mental retardation (MR). Amplification of more than 200 GCC repeats, associated with methylation of the adjacent CpG island at Xq28, leads to the expression of the fragile site. In 1996 a large gene, FMR2, transcribed distally from the CpG island and downregulated by repeat expansion and methylation, was identified. Among 232 mentally retarded patients, tested FRAXA negative, we identified an Italian family segregating a hypermethylated expansion at the FRAXE locus in two dizygotic twin brothers, their sister and their mother. The index case was referred at 23 years of age with severe MR, epilepsy, a dysmorphic face with a high arched palate, marfanoid habitus and hyperreflexia of the lower limbs. His brother was referred to as normal and psychometric tests confirmed he is not mentally retarded. All members of the family underwent FRAXE molecular analysis, after cytogenetic expression of the fraX site and negative FRAXA test. Interestingly, an expansion and a hypermethylation at the FRAXE locus were found in all of them. Fibroblasts from the clinically normal brother were assayed for FMR2 expression and the transcription of the gene was found to be silenced. The presence of a phenotypically normal male with absent FMR2 expression in fibroblasts suggests that the relationship between the FRAXE mutation, FMR2 expression and MR needs to be further investigated.
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PMID:FRAXE mutation in a mentally retarded subject and in his phenotypically normal twin brother. 1078 Jul 79

Families with mentally retarded males found to be negative for FRAXA and FRAXE mutations are useful in understanding the genetic basis of X-linked mental retardation. According to the most recent data (updated to 1999), 69 MRX loci have been mapped and 6 genes cloned. Here we report on a linkage study performed on 20 subjects from a 4-generation Sardinian family segregating a non-specific X-linked recessive mental retardation (XLMR)(MRX72) associated with global delay of all psychomotor development. Five of 8 affected males have been tested for mental age, verbal and performance skills and behavioral anomalies; mental impairment ranged from mild to severe. Only minor anomalies were present in the affected subjects. Two-point linkage analysis based on 28 informative microsatellites spanning the whole X chromosome demonstrated linkage between the disorder and markers DXS1073 and F8c in Xq28 (maximum Lod score of 2. 71 at straight theta = 0.00). Multipoint linkage analysis confirmed the linkage with a Z(max) of 3.0 at straight theta = 0.00 at DXS1073 and F8c. Recombination in an affected male at DXS1073 and F8c allowed us to delimit centromerically and telomerically the region containing the putative candidate gene. The region, where MRX72 maps, overlaps that of another MRX families previously mapped to Xq28, two of which harbored mutations in GDI. Involvement of this gene was excluded in our family, suggesting another MRX might reside in Xq28.
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PMID:Mapping to distal Xq28 of nonspecific X-linked mental retardation MRX72: linkage analysis and clinical findings in a three-generation Sardinian family. 1105 Jun 21

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