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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:The cloning of FRAXF: trinucleotide repeat expansion and methylation at a third fragile site in distal Xqter. 788 7
We report a three-generation family manifesting a previously undescribed X-linked
mental retardation
syndrome. Four of the six moderately retarded males have had episodes of manic-depressive psychosis. The phenotype also includes pyramidal signs, Parkinsonian features, and macroorchidism, but there are no characteristic dysmorphic facial features. Affected males do not show fragile sites at distal Xq on cytogenetic analysis, nor do they have expansions of the CGG repeats at the FRAXA, FRAXE, or
FRAXF
loci. Linkage analyses were undertaken, and a maximal LOD score of 3.311 at theta = .0 was observed with the microsatellite marker DXS1123 in Xq28. A recombination was detected in one of the affected males with DXS1691 (Xq28), which gives the proximal boundary of the localization. No distal recombination has been detected at any of the loci tested.
...
PMID:PPM-X: a new X-linked mental retardation syndrome with psychosis, pyramidal signs, and macroorchidism maps to Xq28. 865 Dec 86
Five folate-sensitive fragile sites have been identified at the molecular level to date. Each is characterized by an expanded and methylated trinucleotide repeat CGG (CCG). Of the three X chromosome sites, FRAXA, FRAXE and
FRAXF
, the former two are associated with
mental retardation
in their expanded forms. FRAXA expansion results in fragile X syndrome due to down regulation of expression of the FMR1 gene, which carries the hypermutable CGG repeat in the 5' untranslated portion of its first exon. Mild mental retardation without consistent physical findings has been found associated with expanded CCG repeats at FRAXE. We have identified a large gene (FMR2) transcribed distally from the CpG island at FRAXE, and down-regulated by repeat expansion and methylation. The gene is novel, expressed in adult brain and placenta, and shows similarity with another human protein, MLLT2, expressed from a gene at chromosome 4q21 involved in translocations found in acute lymphoblastic leukaemia (ALL) cells. Identification of this gene will facilitate further studies to determine the role of its product in FRAXE associated mental deficiency.
...
PMID:Identification of FMR2, a novel gene associated with the FRAXE CCG repeat and CpG island. 867 86
We report on a folate sensitive fragile site at Xq27-28 in a girl with a multiple congenital anomalies and
mental retardation
syndrome, who also carries a duplication of the long arm of chromosome 8. The fragile site was shown by FISH to be distal to both FRAXA and FRAXE. DNA hybridisation with probe OxF14 showed the amplification of the CGG repeats of locus
FRAXF
in the patient and in her clinically normal mother.
...
PMID:FRAXF in a patient with chromosome 8 duplication. 881 52
The catalog of genetic diseases whose mutational mechanisms are based on the expansion of nucleotide triplets includes 8 disorders classified in terms of type of triplet sequence and the mechanism by which the mutation manifests clinically. To date there are 3 groups. The first is made up of several
mental retardation
syndromes linked to fragility in the X chromosome (FRAXA, FRAXE,
FRAXF
, FRA16), with CGG type triplets and large growth expansions located close to a CpG island whose methylation determines degree of chromosome fragility as well as the size of expansion. The second group encompasses diseases arising from CAG triplets. Examples are spinal bulbar atrophy, Huntington's chorea (HC), type 1 dominant cerebellar ataxia (DCA1), dentatorubral-pallidoluysian atrophy (DRPLA) and Machado-Joseph's disease. In this group the expansion codes a polyglutamate residue that gives rise to clinical manifestations by way of functional gain. Myotonic dystrophy (MD) remains in a separate group, with large-size expansion but no chromosomal fragility, and clinical manifestations in multiple systems. All entities encompass phenotypic variation or tendency to inter-generational growth of the expanded fragment that triggers the anticipation phenomenon to varying degrees--greater for some diseases (MD) in cases of maternal transmission and for others (DCA1, HC and DRPLA) when transmission is paternal. The mechanisms by which expansions occur is unknown but the decisive element in some entities may be failure to correct errors in DNA duplication and errors in the integrity of the repeated sequence. We review the difficulties inherent in establishing correlations between genotype and phenotype and in providing genetic counseling.
...
PMID:[Diseases due to instability of DNA]. 883 55
FRAXA, FRAXE, and
FRAXF
are folate-sensitive fragile sites originally discovered in patients with X-linked
mental retardation
. The FMR1 gene, whose first exon includes the FRAXA site on Xq27.3, accounts for 15-20% of all X-linked forms of
mental retardation
. Loss of expression of FMR2, a gene adjacent to the FRAXE site on Xq28, is correlated with FRAXE expansion in some mild mentally retarded patients.
FRAXF
is a fragile site whose expression has not been associated with any pathological phenotype. The fragility in all three sites is caused by expansions of CGG repeats adjacent to hypermethylated CpG islands. The prevalence of FRAXA, FRAXE, and
FRAXF
remains uncertain because of the lack of a simple and cost-effective test allowing wide screening programs. For the same reason, the real phenotype-genotype correlations in FRAXE and
FRAXF
are uncertain as well. We have developed a rapid multiplex polymerase chain reaction (PCR) assay in which hypermethylated CpG islands adjacent to FRAXA, FRAXE, and
FRAXF
are displayed. The test is very simple and cost-effective, requires only 30 microl of peripheral blood, and can be used for performing diagnoses, postnatal and prenatal, and for screening large groups of control and mentally retarded males and newborn boys.
...
PMID:A simple multiplex FRAXA, FRAXE, and FRAXF PCR assay convenient for wide screening programs. 1009 54
Fragile sites are heritable specific chromosome loci that exhibit an increased frequency of gaps, poor staining, constrictions or breaks when chromosomes are exposed to partial DNA replication inhibition. They constitute areas of chromatin that fail to compact during mitosis. They are classified as rare or common depending on their frequency within the population and are further subdivided on the basis of their specific induction chemistry into different groups differentiated as folate sensitive or non-folate sensitive rare fragile sites, and as aphidicolin, bromodeoxyuridine (BrdU) or 5-azacytidine inducible common fragile sites. Most of the known inducers of fragility share in common their potentiality to inhibit the elongation of DNA replication, particularly at fragile site loci. Seven folate sensitive (FRA10A, FRA11B, FRA12A, FRA16A, FRAXA, FRAXE and
FRAXF
) and two non-folate sensitive (FRA10B and FRA16B) fragile sites have been molecularly characterized. All have been found to represent expanded DNA repeat sequences resulting from a dynamic mutation involving the normally occurring polymorphic CCG/CGG trinucleotide repeats at the folate sensitive and AT-rich minisatellite repeats at the non-folate sensitive fragile sites. These expanded repeats were demonstrated, first, to have the potential, under certain conditions, to form stable secondary non-B DNA structures (intra-strand hairpins, slipped strand DNA or tetrahelical structures) and to present highly flexible repeat sequences, both conditions which are expected to affect the replication dynamics, and second, to decrease the efficiency of nucleosome assembly, resulting in decondensation defects seen as fragile sites. Thirteen aphidicolin inducible common fragile sites (FRA2G, FRA3B, FRA4F, FRA6E, FRA6F, FRA7E, FRA7G, FRA7H, FRA7I, FRA8C, FRA9E, FRA16D and FRAXB) have been characterized at a molecular level and found to represent relatively AT-rich DNA areas, but without any expanded repeat motifs. Analysis of structural characteristics of the DNA at some of these sites (FRA2G, FRA3B, FRA6F, FRA7E, FRA7G, FRA7H, FRA7I, FRA16D and FRAXB) showed that they contained more areas of high DNA torsional flexibility with more highly AT-dinucleotide-rich islands than neighbouring non-fragile regions. These islands were shown to have the potential to form secondary non-B DNA structures and to interfere with higher-order chromatin folding. Therefore, a common fragility mechanism, characterized by high flexibility and the potential to form secondary structures and interfere with nucleosome assembly, is shared by all the cloned classes of fragile sites. From the clinical point of view, the folate sensitive rare fragile site FRAXA is the most important fragile site as it is associated with the fragile X syndrome, the most common form of familial
mental retardation
, affecting about 1/4000 males and 1/6000 females.
Mental retardation
in this syndrome is considered as resulting from the abolition of the FMR1 gene expression due to hypermethylation of the gene CpG islands adjacent to the expanded methylated trinucleotide repeat. FRAXE is associated with X-linked non-specific
mental retardation
, and FRA11B with Jacobsen syndrome. There is also some evidence that fragile sites, especially common fragile sites, are consistently involved in the in vivo chromosomal rearrangements related to cancer, whereas the possible implication of common fragile sites in neuropsychiatric and developmental disorders is still poorly documented.
...
PMID:Human chromosome fragility. 1807 40
