Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Fragile X syndrome is recognized as the most common inherited cause of mental retardation in western countries. The prevalence of the fragile X syndrome in Asian populations is uncertain. We report a multi-institutional collaborative study of molecular screening for the fragile X syndrome from 1,127 Chinese mentally retarded (MR) individuals. We found that 2.8% of the Chinese MR population screened by DNA analysis had the fragile X full mutation. Our screening indicated that the fragile X syndrome prevalence was very close to that of Caucasian subjects. In addition, we found that 62.5% of fragile X chromosomes had a single haplotype for DXS548-FRAXAC1 (21-18 repeats) which was present in only 9.7% of controls. This unique distribution of microsatellite markers flanking the FMR1 CGG repeats suggests that the fragile X syndrome in Chinese populations, as in the Caucasian, may also be derived from founder chromosomes.
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PMID:Frequency of the fragile X syndrome in Chinese mentally retarded populations is similar to that in Caucasians. 1033 88

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

Few studies have been conducted comparing the FMR1 mutation in multiple tissues of individuals affected with fragile X syndrome. We report a postmortem study of the FMR1 mutation in multiple tissues from a high-functioning male with fragile X syndrome. This man was not mentally retarded and had only a few manifestations of the disorder such as learning disabilities and mild attention problems. Southern blot analysis of leukocytes demonstrated an unmethylated mutation with a wide span of sizes extending from the premutation to full mutation range. A similar pattern was seen in most regions of the brain. In contrast, a methylated full mutation of a single size was seen in the parietal lobe and in most non-brain tissues studied. Therefore, there were striking differences in both FMR1 mutation size and methylation status between tissues. Lack of mental retardation in this individual may have been due to sufficient expression of FMR1 protein (FMRP) in most areas of the brain. Immunocytochemistry showed FMRP expression in regions of the brain with the unmethylated mutation (superior temporal cortex, frontal cortex, and hippocampus) and no expression in the region with the methylated full mutation (parietal). Neuroanatomical studies showed no dendritic spine pathology in any regions of the brain analyzed.
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PMID:Tissue heterogeneity of the FMR1 mutation in a high-functioning male with fragile X syndrome. 1033 99

Fragile X syndrome is the most common form of inherited mental retardation currently known, associated with a wide range of developmental disabilities in both males and females, caused by a large expansion of a (CGG)n repeat in the first exon of the FMR1 gene. Fragile X syndrome occurs in all racial and ethnic groups, and it is a condition of major epidemiological importance among mentally handicapped males. Therefore, this disease must be considered in the differential diagnosis of any child with developmental delay, mental retardation or learning disability. The fragile X syndrome is due to the shutdown of the FMR1 gene transcription, and the pathogenesis of this syndrome is a consequence of absence of the protein product of the FMR1 gene (FMRP). Since the great majority of fragile X patients have the same type of mutation in a specific location of the gene, molecular analysis is extremely accurate for diagnosis of the disease, and important for genetic counseling of family members. Others genetic disorders are also caused by expanded trinucleotide repeats.
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PMID:Fragile X syndrome (review). 1034 Dec 96

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

Fragile X syndrome is an important disease of hereditary mental retardation. Its prevalence in the Chinese population is not clear. We amplified FMR1 CGG repeats from male newborns' blood spots. Approximately 45% of the males had 28 CGG repeats and another 19% had 29 repeats. Besides this major peak, there was a second peak at 34 and 35 repeats. From the 1000 males studied, 3 were found to have repeat numbers in the high borderline range (each with 50, 52 and 53 repeats). This result provides a low but significant risk of fragile X syndrome in the Chinese population.
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PMID:Allele distribution at the FMR1 locus in the general Chinese population. 1042 6

We report a 13 year old boy with fragile X syndrome resulting from a de novo deletion of the FMR1 and FMR2 genes extending from (and including) DXS7536 proximally to FMR2 distally. The patient has severe developmental delay, epilepsy, and behavioural difficulties, including autistic features. He has epicanthic folds, in addition to facial features typical of fragile X syndrome, and marked joint hypermobility. We compare our patient to the three other cases reported in which both FMR1 and FMR2 are deleted. This case has the smallest deletion reported to date. All four patients have epilepsy and a more severe degree of mental retardation than is usual in fragile X syndrome resulting from FMR1 triplet repeat expansion. Three of the patients have joint laxity and two have epicanthic folds. We suggest that these features, in particular severe developmental delay and epilepsy, may form part of the characteristic phenotype resulting from deletion of both FMR1 and FMR2 genes. The diagnosis in this case was delayed because routine cytogenetics showed no abnormality and standard molecular tests for FMR1 triplet repeat expansion (PCR and Southern blotting) failed. Further DNA studies should be undertaken to investigate for a deletion where clinical suspicion of fragile X syndrome is strong and routine laboratory tests fail.
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PMID:Fragile X syndrome with FMR1 and FMR2 deletion. 1042 20

Fragile-X syndrome is due to an expression of CGG trinucleotide repeats in the 5' untranslated region of the FMR1 gene and it is the most common cause of heritable X-linked mental retardation. Until now, the disease and the carrier state were diagnosed by Southern blotting or PCR-based methods. Southern blotting is an expensive, time-consuming, and radioisotope-based method that cannot easily be used for routine screening of an at-risk population. Nonradioisotopic PCR methods do not identify full mutated alleles, nor do they discriminate between alleles in the normal range that differ only by one or two CGG repeats. Therefore, two normal alleles with only a small difference in size, cannot be differentiated after PCR in Metaphor agarose or acrylamide gels. To define the genotype, it is necessary to perform Southern blot analysis. In this paper, we present a new strategy which, because of its simplicity, can be applied to large-scale fragile-X carrier screening of at-risk females.
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PMID:A strategy for fragile-X carrier screening. 1049 31

FMR1 is an RNA-binding protein that is either absent or mutated in patients affected by the fragile X syndrome, the most common inherited cause of mental retardation in humans. Sequence analysis of the FMR1 protein has suggested that RNA binding is related to the presence of two K-homologous (KH) modules and an RGG box. However, no attempt has been so far made to map the RNA-binding sites along the protein sequence and to identify possible differential RNA-sequence specificity. In the present article, we describe work done to dissect FMR1 into regions with structurally and functionally distinct properties. A semirational approach was followed to identify four regions: an N-terminal stretch of 200 amino acids, the two KH regions, and a C-terminal stretch. Each region was produced as a recombinant protein, purified, and probed for its state of folding by spectroscopical techniques. Circular dichroism and NMR spectra of the N-terminus show formation of secondary structure with a strong tendency to aggregate. Of the two homologous KH motifs, only the first one is folded whereas the second remains unfolded even when it is extended both N- and C-terminally. The C-terminus is, as expected from its amino acid composition, nonglobular. Binding assays were then performed using the 4-nt homopolymers. Our results show that only the first KH domain but not the second binds to RNA, and provide the first direct evidence for RNA binding of both the N-terminal and the C-terminal regions. RNA binding for the N-terminus could not be predicted from sequence analysis because no known RNA-binding motif is identifiable in this region. Different sequence specificity was observed for the fragments: both the N-terminus of the protein and KH1 bind preferentially to poly-(rG). The C-terminal region, which contains the RGG box, is nonspecific, as it recognizes the bases with comparable affinity. We therefore conclude that FMR1 is a protein with multiple sites of interaction with RNA: sequence specificity is most likely achieved by the whole block that comprises the first approximately 400 residues, whereas the C-terminus provides a nonspecific binding surface.
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PMID:Dissecting FMR1, the protein responsible for fragile X syndrome, in its structural and functional domains. 1049 25

The vast majority of fragile-X full mutations are heavily methylated throughout the expanded CGG repeat and the surrounding CpG island. Hypermethylation initiates and/or stabilizes transcriptional inactivation of the FMR1 gene, which causes the fragile X-syndrome phenotype characterized, primarily, by mental retardation. The relation between repeat expansion and hypermethylation is not well understood nor is it absolute, as demonstrated by the identification of nonretarded males who carry hypomethylated full mutations. To better characterize the methylation pattern in a patient who carries a hypomethylated full mutation of approximately 60-700 repeats, we have evaluated methylation with the McrBC endonuclease, which allows analysis of numerous sites in the FMR1 CpG island, including those located within the CGG repeat. We report that the expanded-repeat region is completely free of methylation in this full-mutation male. Significantly, this lack of methylation appears to be specific to the expanded FMR1 CGG-repeat region, because various linked and unlinked repetitive-element loci are methylated normally. This finding demonstrates that the lack of methylation in the expanded CGG-repeat region is not associated with a global defect in methylation of highly repeated DNA sequences. We also report that de novo methylation of the expanded CGG-repeat region does not occur when it is moved via microcell-mediated chromosome transfer into a de novo methylation-competent mouse embryonal carcinoma cell line.
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PMID:Hypomethylation of an expanded FMR1 allele is not associated with a global DNA methylation defect. 1052 3


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