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)

Nomenclature guidelines are proposed for non-specific and for syndromal forms of X-linked mental retardation. Non-specific mental retardations (MRX) are given unique symbols for each family (MRX1, MRX2, MRX3 ...). Syndromal mental retardations (MRXS) which do not as yet have specific symbols are given unique interim symbols for each syndrome (MRXS1, MRXS2, MRXS3 ...). The prerequisite for assignment of serial MRX and MRXS gene symbols is a minimum lod score (or multipoint lod score) of +2 between the MR locus and one or more X chromosome markers. Prior approval of availability for proposed gene symbols must be obtained from the Nomenclature Committee of the Human Gene Mapping Workshops.
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PMID:Nomenclature guidelines for X-linked mental retardation. 160 16

A family with a syndrome of mental retardation, dystonic movements of the hands, and dysarthria (MIM no. 309510) was described and mapped to Xp22 by Partington et al. (Am J Med Genet 1988; 30:251-262). The original localization encompassed the distal half of the short arm of the X chromosome, with a peak lod score of 2.1 at the DXS41 locus. The gene localization for this disorder (PRTS) has now been refined using recently characterized dinucleotide repeat markers. The PRTS gene maps between DXS365 and DXS28, an interval estimated to be less than 15 cM. A peak lod score of 3.01 at a recombination fraction of zero was generated by 2-point linkage analysis with the marker DXS989. Dystonic movements may be progressive and could be overlooked in children. Clinical assessments of affected men who are mentally retarded should be critically evaluated for this manifestation, where they belong to families in which the gene localization overlaps with PRTS.
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PMID:X-linked mental retardation with dystonic movements of the hands (PRTS): revisited. 794 40

A gene responsible for a non-specific form of X-linked mental retardation (MRX19) was localised by linkage analysis. Exclusions and regional localisation were made using 21 highly informative PCR-based markers along the X chromosome. Significant lod scores at a recombination fraction of zero were detected with the marker loci DXS207, DXS987 (Zmax = 3.58) and DXS999 (Zmax = 3.28) indicating that this gene is localised to the proximal portion of Xp22. Recombination between MRX19 and the flanking loci KAL and DXS989 was observed. The multipoint CEPH background map, with map distances in cM, is DXS996-1.8-KAL-19.0-DXS207-0.9-[DXS987,DXS443 ]-4.3-DXS999-3.5-DXS365-14.0-DXS989. Two other MRX disorders and two syndromal mental retardations, Coffin-Lowry syndrome and Partington syndrome, have been mapped to this region. There is a possibility that the 3 MRX disorders are the same entity. Most MRX disorders remain clustered around the pericentromeric region.
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PMID:Regional localisation of a non-specific X-linked mental retardation gene (MRX19) to Xp22. 794 43

A gene responsible for X-linked mental retardation with macrocephaly and seizures (MRX38) in a family with five affected males in three generations was localized to Xp21.1-p22.13 by linkage analysis. Recombination events placed the gene between DXS1226 distally and DXS1238 proximally, defining an interval of approximately 14 cM. A peak lod score of 2.71 was found with several loci in Xp21.1 (DXS992, DXS1236, DXS997, and DXS1036) at a recombination fraction of zero. The map intervals of 5 X-linked mental retardation loci, MRX2 (Xp22.1-p22.2), MRX19 (Xp22), MRX21 (Xp21.1-p22.3), MRX29 (Xp21.2-p22.1), and MRX32 (Xp21.2-p22.1), and two syndromal mental retardation loci, Partington syndrome (PRTS; Xp22) and Coffin-Lowry syndrome (CLS; Xp22.13-p22.2), overlap this region. As none of these display the same phenotype seen in the family reported here, this X-linked mental retardation locus may represent a new entity.
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PMID:Regional localization of an X-linked mental retardation gene to Xp21.1-Xp22.13 (MRX38). 882 57

Partington et al. [1988] described a three-generation family (MRXS1, MIM *309510, PRTS) with a syndromic form of X-linked mental retardation (XLMR). The clinical features in 10 affected males included mild to moderate MR, dystonic movements of the hands, and dysarthria. After refinement, the PRTS locus was mapped to marker DXS989 (with maximum LOD score of 3.1) with flanking markers DXS365 and DXS28. Since then, no other patients with a similar phenotype have been described. We present a detailed description of the neurological symptoms and the disease history of two brothers with the clinical features of PRTS. Psychomotor development was delayed in both, and neurological features included mild to moderate mental retardation, dysarthria, facial muscle weakness, severe dysdiadochokinesis, slow dystonic movements, and mild spasticity of the hands, without ataxia or spasticity of the legs. The symptoms were nonprogressive and extrapyramidal, and without cerebellar involvement. In general, behavior of the two brothers was friendly and quiet, although the elder brother had periods of depressed mood and outbursts of anger. Karyotypes and subsequent investigation of the subtelomeres as well as DNA analysis of the FMR1 gene, the androgen receptor gene, and the DM locus did not reveal a genetic abnormality. Haplotype analysis showed that the affected brothers share the PRTS region at Xp22.1. Mutation screening of the PDH-E1alpha gene did not reveal a pathogenic mutation.
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PMID:Clinical study and haplotype analysis in two brothers with Partington syndrome. 1237 38

Two families, originally diagnosed as having nonsyndromic X-linked mental retardation (NSXLMR), were reviewed when it was shown that they had a 24-bp duplication (428-45 1dup(24bp)) in the ARX gene [Stromme et al., 2002: Nat Genet 30:441-445]. This same duplication had also been found in three other families: one with X-linked infantile spasms and hypsarrhythmia (X-linked West syndrome, MIM 308350) and two with XLMR and dystonic movements of the hands (Partington syndrome, MIM 309510). On review, manifestations of both West and Partington syndromes were found in some individuals from both families. In addition, it was found that one individual had autism and two had autistic behavior, one of whom had epilepsy. The degree of mental retardation ranged from mild to severe. A GCG trinucleotide expansion (GCG)10+7 and a deletion of 1,517 bp in the ARX gene have also been found in association with the West syndrome, and a missense mutation (1058C>T) in a family with a newly recognized form of myoclonic epilepsy, severe mental retardation, and spastic paraplegia [Scheffer et al., 2002: Neurology, in press]. Evidently all these disorders are expressions of mutations in the same gene. It remains to be seen what proportions of patients with infantile spasms, focal dystonia, autism, epilepsy, and nonsyndromic mental retardation are accounted for by mutations in the ARX gene.
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PMID:Variable expression of mental retardation, autism, seizures, and dystonic hand movements in two families with an identical ARX gene mutation. 1237 46

Recent human genetics approaches identified the Aristaless-related homeobox (ARX) gene as the causative gene in X-linked infantile spasms, Partington syndrome, and non-syndromic mental retardation as well as in forms of lissencephaly with abnormal genitalia. The ARX predicted protein belongs to a large family of homeoproteins and is characterised by a C-terminal Aristaless domain and an octapeptide domain near the N-terminus. In order to learn more about ARX function, we have studied in detail Arx expression in the central nervous system during mouse embryonic development as well as in the adult. During early stages of development, Arx is expressed in a significant proportion of neurons in the cortex, the striatum, the ganglionic eminences and also in the spinal cord. In the adult, expression of Arx is still present and restricted to regions that are known to be rich in GABAergic neurons such as the amygdala and the olfactory bulb. A possible role for Arx in this type of neurons is further reinforced by the expression of Arx in a subset of GABAergic interneurons in young and mature primary cultures of cortical neuronal cells as well as in vivo. Moreover, these data could explain the occurrence of seizures in the great majority of patients with an ARX mutation, due to mislocalisation or dysfunction of GABAergic neurons. We also performed ARX wild-type and mutant over-expression experiments and found that the different ARX mutations tested did not modify the morphology of the cells. Moreover, no abnormal cell death or protein aggregation was observed, hence suggesting that more subtle pathogenic mechanisms are involved.
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PMID:Neuroanatomical distribution of ARX in brain and its localisation in GABAergic neurons. 1499 14

Mutations in the human ARX gene have been shown to cause nonsyndromic X-linked mental retardation (MRX) as well as syndromic forms such as X-linked lissencephaly with abnormal genitalia (XLAG), Partington syndrome and X-linked infantile spasm. The most common causative mutation, a duplication of 24 bp, was found in families with a variety of phenotypes, but not in the more severe XLAG phenotypes. The aim of the study was to access the frequency of ARX mutations in families with established or putative X-linked mental retardation (XLMR) collected by the European XLMR Consortium. We screened the entire coding region of ARX for mutations in 197 novel XLMR families by denaturing high-performance liquid chromatography, and we identified eight mutations (six c.428_451dup24, one insertion and one novel missense mutation p.P38S). To better define the prevalence of ARX mutations, we included previously reported results of 157 XLMR families. Together, these data showed the relatively high rate (9.5%) of ARX mutations in X-linked MR families and an expectedly low rate in families with affected brother pairs (2.2%). This study confirms that the frequency of ARX mutations is high in XLMR, and the analysis of ARX in MRX should not be limited to duplication.
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PMID:Screening of ARX in mental retardation families: Consequences for the strategy of molecular diagnosis. 1623 64

Mutations in the Aristaless-related homeobox gene, ARX, have been a cause of X-linked mental retardation (XLMR) and are responsible for a vast phenotypic spectrum including syndromic and non-syndromic forms of mental retardation. Since the gene was initially identified, it has been generally screened in several patients with XLMR. This study is the first report of ARX mutational screening in Thai pediatric patients with delayed development. Two hundred and fifty-one patients participated in this study. Two hundred and three of the 251 patients were initially referred for molecular diagnosis of the Fragile XA syndrome and had negative test results. The remaining 48 patients were specifically recruited for the ARX mutational analysis and had previously reported phenotypes of the ARX mutations. Screening for the c.428_451 dup mutation was performed in all samples. Screening for other point mutations in all coding exons was performed in all 48 patients recruited for the ARX mutational analysis and in 29 patients initially referred for diagnosis of the Fragile XA syndrome who had two or more affected males in the family suggesting an X-linked inheritance pattern. Two patients were found to have the c.428_451 dup mutation. Considering genotype-phenotype correlation, we suggest screening of the most common mutation, the c.428_451 dup mutation by PCR, in patients with infantile spasm syndrome, Partington syndrome and non-syndromic X-linked mental retardation. Screening in patients who have negative Fragile XA test results should be considered when no other known causes of mental retardation are identified especially in families with suggestive X-linked inheritance pattern.
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PMID:Mutation screening of the Aristaless-related homeobox (ARX) gene in Thai pediatric patients with delayed development: first report from Thailand. 1761 95

ARX (Aristaless-related homeobox gene) is located at Xp22. It contains 5 exons and encodes a 562-amino acid protein. The protein contains 4 polyalanine tracts, 3 of which are encoded in exon 2 and 1 in exon 4. Mutations in the ARX gene have been found in X-linked infantile spasms syndrome, Partington syndrome (mental retardation with dystonic movements of the hands), X-linked lissencephaly with abnormal genitalia, X-linked myoclonus epilepsy with spasticity and intellectual disability, and in nonsyndromic X-linked mental retardation. The most common mutation in ARX (seen in X-linked infantile spasms syndrome, Partington syndrome, and X-linked mental retardation) is a 24-bp duplication in exon 2 resulting in expansion of a polyalanine tract. Truncating mutations (deletions, frameshift, non-sense) have been found in X-linked lissencephaly with abnormal genitalia, as well as homeodomain missense mutations in X-linked myoclonus epilepsy with spasticity and intellectual disability. The authors report a novel 24-bp in-frame deletion within exon 2 of the ARX gene in a male child with X-linked mental retardation and review the spectrum of ARX mutations. This mutation results in a contraction of the second polyalanine repeat.
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PMID:A novel mutation of the ARX gene in a male with nonsyndromic mental retardation. 1764 Dec 62


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