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)

Extensive linkage analyses in three families with non-specific X-linked mental retardation (MRX) have localized the gene in each family to the pericentromeric region of the chromosome. The MRX17 gene is localized with a peak lod of 2.41 (theta = 0.0) with the trinucleotide repeat polymorphism at the androgen receptor (AR) gene locus. This gene lies in the interval between the markers DXS255 and DXS990, as defined by recombinants. The MRX18 gene maps to the interval between the markers DXS538 and DXS1126, with a peak lod score of 2.01 (theta = 0.0) at the PFC gene locus. In the third family (Family E) with insufficient informative meioses for assignment of an MRX acronym, the maximum lod score is 1.8 at a recombination fraction of zero for several marker loci between DXS207 and DXS426. Exclusions from the regions of marker loci spanning Xq support the localization of the MRX gene in Family E to the pericentromeric region. Localizations of these and other MRX genes have determined that MRX2 and MRX19 map to distal Xp, MRX3, and MRX6 map to distal Xq, whilst the majority cluster in the pericentromeric region. In addition, we confirm that there are at least two distinct MRX genes near the centromere as delineated by the non-overlapping regional localizations of MRX17 and MRX18. Determination of these non-overlapping localizations is currently the only means of classifying non-syndromal forms of mental retardation and determining the minimum number of MRX loci.
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PMID:Pericentromeric genes for non-specific X-linked mental retardation (MRX). 794 39

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

Coffin-Lowry syndrome (CLS) is a syndromal form of X linked mental retardation, in which some associated facial, hand, and skeletal abnormalities are diagnostic features. Accurate diagnosis, critical for genetic counselling, is often difficult, especially in early childhood. We have recently shown that Coffin-Lowry syndrome is caused by mutations in the gene encoding RSK2, a growth factor regulated protein kinase. RSK2 mutations are very heterogeneous and most of them lead to premature termination of translation or to loss of phosphotransferase activity or both. In the present study, we have evaluated immunoblot and RSK2 kinase assays as a rapid and simple diagnostic test for CLS, using cultured lymphoblastoid or fibroblast cell lines. Western blot analysis failed to detect RSK2 in six patients, suggesting the presence of truncated proteins in these patients. This conclusion was confirmed in four patients, in whom the causative mutations, all leading to premature termination of translation, were identified. Of four patients showing a normal amount of RSK2 protein on western blot and tested for RSK2 phosphotransferase activity, one had a dramatically impaired activity. Analysis of the RSK2 cDNA sequence in this patient showed a mutation of a putative phosphorylation site that would be critical for RSK2 activity. Preliminary results show that, at least, the western blot protocol can be successfully applied to lymphocyte protein extracts prepared directly from blood samples. These assays promise to become important diagnostic tools for CLS, particularly with regard to very young patients with no family history of the condition.
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PMID:Rapid immunoblot and kinase assay tests for a syndromal form of X linked mental retardation: Coffin-Lowry syndrome. 983 33

Large deletions in Xq21 often are associated with contiguous gene syndromes consisting of X-linked deafness type 3 (DFN3), mental retardation (MRX), and choroideremia (CHM). The identification of deletions associated with classic CHM or DFN3 facilitated the positional cloning of the underlying genes, REP-1 and POU3F4, respectively, and enabled the positioning of the MRX gene in between these genes. Here, we report the cloning and characterization of a novel gene, ribosomal S6-kinase 4 (RSK4; HGMW-approved symbol RPS6KA6), which maps in the MRX critical region. RSK4 is completely deleted in eight patients with the contiguous gene syndrome including MRX, partially deleted in a patient with DFN3 and present in patients with an Xq21 deletion and normal intellectual abilities. RSK4 is most abundantly expressed in brain and kidney. The predicted protein of 746 amino acids shows a high level of homology to three previously isolated members of the human RSK family. RSK2 is involved in Coffin-Lowry syndrome and nonspecific MRX. The localization of RSK4 in the interval that is commonly deleted in mentally retarded males together with the high degree of amino acid identity with RSK2 suggests that RSK4 plays a role in normal neuronal development. Further mutation analyses in males with X-linked mental retardation must prove that RSK4 is indeed a novel MRX gene.
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PMID:A novel ribosomal S6-kinase (RSK4; RPS6KA6) is commonly deleted in patients with complex X-linked mental retardation. 1064 30

We report on a mother and daughter both with a 45,X/46,X,r(X)(p22. 3q28) karyotype and mental retardation. Fluorescence in situ hybridization (FISH) and microsatellite analyses for 14 loci/region at Xp22.3 and seven loci/region at Xq28 indicated that the ring X chromosome was missing a roughly 12-Mb region from Xp22.3 with the breakpoint between DXS85 and DXS9972, and another region of less than 100 kb from Xq28 with the breakpoint distal to the region defined by the FISH probe c8.2/1. X-inactivation analysis, using the methylation status of the AR gene (exon 1) as an indicator, showed that the normal and ring X chromosomes in the X,r(X)(p22.3q28) cell lineage were randomly inactivated. The Xp22.3 deleted region partially overlaps with the regional intervals of MRX19, MRX21, MRX24, MRX37, MRX43, and MRX49 associated with heterozygote manifestation. Therefore, it is likely that one or more of these MRX genes, subject to X-inactivation, are lost from the ring X chromosome, and that reduced expression of the MRX gene(s) caused by random X-inactivation has resulted in mental retardation in the mother and daughter.
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PMID:Mother and daughter with 45,X/46,X,r(X)(p22.3q28) and mental retardation: analysis of the X-inactivation patterns. 1076 81

Mental retardation (MR) is a group of heterogeneous clinical conditions. There are more than 900 genetic disorders associated with MR and it affects around 3% of the general population. MR can be subdivided into syndromic, if it is characterized by consistent and distinctive clinical findings, and nonspecific, if mental retardation is the only primary symptom among affected individuals. Many MR conditions described are syndromic, fragile X syndrome being the most common clinical entity among them. In the past years, knowledge of the molecular basis of mental retardation has increased remarkably. Eight genes involved in nonspecific X-linked MR have been identified so far, including FMR2, OPHN1, GDI1, PAK3, IL1RAPL, TM4SF2, VCX-A, and ARHGEF6. Two other genes also located on the X chromosome have been involved both in syndromic and in MRX forms (RSK2 and XNP/ATR-X). New insights into the pathogenesis of mental retardation are being provided by the discovery of these genes involved in different cellular signaling pathways in the central nervous system although many others remain to be identified.
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PMID:Genes responsible for nonspecific mental retardation. 1116 35

Clinical and molecular studies are reported on a family (MRX73) of five males with non-specific X-linked mental retardation (XLMR). A total of 33 microsatellite and RFLP markers was typed. The gene for this XLMR condition was been linked to DXS1195, with a lod score of 2.36 at theta = 0. The haplotype and multipoint linkage analyses suggest localization of the MRX73 locus to an interval of 2 cM defined by markers DXS8019 and DXS365, in Xp22.2. This interval contains the gene of Coffin-Lowry syndrome (RSK2), where a missense mutation has been associated with a form of non-specific mental retardation. Therefore, a search for RSK2 mutations was performed in the MRX73 family, but no causal mutation was found. We hypothesize that another unidentified XLMR gene is located near RSK2.
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PMID:Localization of non-specific X-linked mental retardation gene (MRX73) to Xp22.2. 1147 16

The Coffin-Lowry syndrome (CLS) is a syndromic form of X-linked mental retardation characterised in male patients by psychomotor and growth retardation, and various skeletal anomalies. CLS is caused by mutations in a gene located in Xp22.2 and encoding RSK2, a growth-factor regulated protein kinase. Mutations are extremely heterogeneous and lead to premature termination of translation and/or to loss of phosphotransferase activity. No correlation between the type and location of mutation and the clinical phenotype is evident. However, in one family (MRX19), a missense mutation was associated solely with mild mental retardation and no other clinical feature. Screening for RSK2 mutations is essential in most cases to confirm the diagnosis as well as for genetic counseling.
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PMID:X-linked Coffin-Lowry syndrome (CLS, MIM 303600, RPS6KA3 gene, protein product known under various names: pp90(rsk2), RSK2, ISPK, MAPKAP1). 1189 50

Coffin-Lowry syndrome (CLS) is a syndromic form of X-linked mental retardation that is characterized, in male patients, by psychomotor and growth retardation and various skeletal anomalies. Typical facial changes and specific clinical and radiological hand aspects exhibited by patients are essential clues for the diagnosis. CLS is caused by mutations in a gene that is located in Xp22.2 and that encodes RSK2, a growth-factor-regulated protein kinase. RSK2 mutations are extremely heterogeneous and lead to premature termination of translation and/or loss of phosphotransferase activity. Surprisingly, among a series of 250 patients screened by single-strand conformation polymorphism (SSCP) analysis, in whom a clinical diagnosis of CLS was made, no mutations were detected in 66% (165) of the patients. To determine what proportion of these latter patients have a RSK2 mutation that has not been detected and what proportion have different disorders that are phenotypically similar to CLS, we have, in the present article, investigated, by western blot analysis and in vitro kinase assay, cell lines from 26 patients in whom no mutation was previously identified by SSCP analysis. This approach allowed us to identify seven novel RSK2 mutations: two changes in the coding sequence of RSK2, one intragenic deletion, and four unusual intronic nucleotide substitutions that do not affect the consensus GT or AG splice sites. We have also determined the nucleotide sequence of the promoter region of the RSK2 gene, and we have screened it for mutations. No disease-causing nucleotide change was identified, suggesting that mutations affecting the promoter region are unlikely to account for a large number of patients with CLS. Finally, our results provide evidence that some patients have a disease that is phenotypically very similar to CLS, which is not caused by RSK2 defects. This suggests that there are defects in either additional genes or combinations of genes that may result in a CLS-like phenotype.
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PMID:Unusual splice-site mutations in the RSK2 gene and suggestion of genetic heterogeneity in Coffin-Lowry syndrome. 1199 50


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