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)

A new fragile site (FRAXE) in Xq28 is described. It appears to be a typical folate sensitive fragile site. The fragile site is not associated with mental retardation, it does not give abnormal results when subjected to Southern analysis with probe pfxa3 which detects the unstable DNA sequence characteristic of fragile X syndrome. In situ hybridization mapping locates the fragile site between 150 kb and 600 kb distal to FRAXA. The distinction between the two fragile sites is important clinically since cytogenetic detection of FRAXE, without molecular analysis, could result in misdiagnosis of fragile X syndrome.
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PMID:Characterisation of a new rare fragile site easily confused with the fragile X. 130 Nov 46

The fragile X syndrome is a common familial form of mental retardation and is associated with a rare fragile site at Xq27.3 (FRAXA). This disorder has recently been reported to correlate with length variations of restriction genomic DNA fragments which may due to the amplification of (CCG)n trinucleotide repeats located at the FRAXA locus. We described here a rapid preparation method of diagnostic DNA probes for the fragile X syndrome by direct enzymatic amplification of human chromosomal DNA. The PstI-assay, which is Southern blot analysis of DNA samples probed by PCR products, was shown to be sensitive method for diagnostic purposes to detect the size variations specific in the fragile X syndrome.
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PMID:Rapid preparation of diagnostic probes for the fragile X syndrome by direct PCR amplification of human chromosomal DNA. 147 1

A model is developed to account for recent molecular observations. It postulates four alleles: normal (N), small rather stable insert (S), larger, unstable insert (Z), and large insert (L). The last-named allele causes the fragile-X phenotype, inactivation of the FMR1 locus by methylation, and mental impairment; the FMR1 locus (for fragile-X mental retardation locus 1) resides in the FRAXA region. When this model is fit to pre-molecular data, the Z allele appears to be no more frequent than L, while the S allele is polymorphic. Predictions of the model are in reasonable agreement with observation and suggest much more powerful tests of molecular data, including the Laird hypothesis that conversion of Z to L does not occur in active X chromosomes.
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PMID:Population genetics of the fragile-X syndrome: multiallelic model for the FMR1 locus. 157 Mar 49

Fragile X [fra (X)] syndrome is a frequently encountered form of mental retardation and is inherited as an X-linked semi-dominant trait with reduced penetrance. We report here the characterization of a highly polymorphic dinucleotide repeat, DXS 548, which is approximately 150 kb proximal to the fra(X) site and the associated FMR-1 gene. DXS 548 is tightly linked to the fra (X) syndrome locus (FRAXA) without recombination (LOD = 9.07 with q of 0) in selected families with crossovers between FRAXA and very closely linked flanking markers. This dinucleotide repeat could be useful in determining the parental origin of a new fra (X) mutations and evaluating the role of FMR-1 in X-linked non-specific mental retardation.
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PMID:Characterization of a highly polymorphic dinucleotide repeat 150 KB proximal to the fragile X site. 160 97

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

A survey of children attending schools for the moderately or the mildly mentally handicapped has shown that two out of 25 boys and two out of 22 girls with idiopathic moderate mental retardation had the Martin-Bell syndrome, while none of 75 boys and one out of 51 girls with mild mental retardation were FRAXA positive. Consideration of these figures along with published studies suggests that 7% of moderate and 3.8% of mild idiopathic mental retardation in boys, and 2.5% of moderate and 3.3% of mild idiopathic mental retardation in girls may be due to the Martin-Bell syndrome.
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PMID:Moderate and mild mental retardation in the Martin-Bell syndrome. 180 Jul 51

The fragile X syndrome is a common cause of mental retardation and is associated with a fragile site at Xq27.3 (FRAXA). Recently, evidence has been presented for the role of methylation and genomic imprinting in the expression of the disease. We have identified a site of methylation in patients by long range restriction mapping of the region. In this paper we present a YAC contig of this area, localise the CpG sequences which are methylated, and show by in situ hybridisation that the site of fragility lies within this region.
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PMID:A YAC contig across the fragile X site defines the region of fragility. 206 44

The murine and human genes for the L1 neural adhesion molecule were shown to lie on conserved regions of the X chromosome to which genes responsible for several neuromuscular diseases have been mapped and which are adjacent to the fragile site (FRAXA) associated with mental retardation. By pulsed-field gel mapping we have demonstrated physical linkage between the L1 gene and other genes located in Xq28: L1 lies between the eye pigment RCP, GCP locus and the glucose-6-phosphate dehydrogenase (G6PD) gene. This location is compatible with the implication of the L1 molecule in one of the X-linked neuromuscular diseases mapped to this region.
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PMID:The gene encoding L1, a neural adhesion molecule of the immunoglobulin family, is located on the X chromosome in mouse and man. 238 85

The fragile site at Xq27 (FRAXA) is associated with a common form of X-linked mental retardation (Martin-Bell syndrome). It is induced in culture by conditions of thymidylate stress and is generally considered a rare fragile site found only in association with an X-linked form of mental retardation. Using a somatic cell hybrid system, we previously demonstrated that fragile-X expression can be induced by thymidylate stress in normal X chromosomes at low levels (4%-5%). In the present report, significantly higher levels of fragile-X expression (6%-28%) have been induced in lymphocytes or lymphoblasts of all seven control males using high doses of aphidicolin (1.5 microM). Similar high levels of expression (10%-12%) were observed in both of two normal male chimpanzees (Pan troglodytes). These data demonstrate that Xq27 contains a common fragile site (FRAXD) that is ancestral to the divergence of man and the chimpanzee. Presence of a common and a rare fragile site in the same metaphase chromosome band does not prove that they are identical and may, in fact, represent two unrelated fragile sites. However, the possibility exists that the common fragile site at Xq27 may be the substrate for unequal recombination events that produces the rare fragile site associated with Martin-Bell syndrome. In addition, presence of a common fragile site at Xq27 may explain the occasional observation of low-frequency fragile-X expression in normal control individuals. Caution is therefore warranted in the interpretation of low-level fragile-X expression in diagnostic and prenatal diagnostic settings.
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PMID:A common fragile site at Xq27: theoretical and practical implications. 335 21

Fragile X syndrome is the most common inherited cause of mental retardation. Early diagnosis is important not only for appropriate management of individuals but also to identify carriers who are unaware of their high risk of having an affected child. The disorder is associated with a cytogenetically visible fragile site (FRAXA) at Xq27.3, caused by amplification of a (CGG)n repeat sequence within the gene at this locus designated FMR1. Clinical and molecular studies have been undertaken to screen for fragile X syndrome in 154 children with moderate and severe learning difficulties of previously unknown origin. Southern blot analysis of peripheral blood showed the characteristic abnormally large (CGG)n repeat sequence associated with fragile X syndrome in four of the 154 children. The findings were confirmed by cytogenetic observation of the fragile site and by further molecular studies. The families of the affected children were offered genetic counselling and DNA tests to determine their carrier status. These findings show that there are still unrecognised cases of fragile X syndrome. Given the difficulty of making a clinical diagnosis and the implications for families when the diagnosis is missed, screening in high risk populations may be justified. The issues involved in screening all children in special schools for fragile X syndrome are discussed.
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PMID:DNA testing for fragile X syndrome in schools for learning difficulties. 866 61


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