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 mental retardation syndrome, the most common cause of hereditary mental retardation, is directly associated with the FMR1 gene at Xq27.3. FMR1 encodes an RNA binding protein and the syndrome results from lack of expression of FMR1 or expression of a mutant protein that is impaired in RNA binding. We found a novel gene, FXR1, that is highly homologous to FMR1 and located on chromosome 12 at 12q13. FXR1 encodes a protein which, like FMR1, contains two KH domains and is highly conserved in vertebrates. The 3' untranslated regions (3'UTRs) of the human and Xenopus laevis FXR1 mRNAs are strikingly conserved (approximately 90% identity), suggesting conservation of an important function. The KH domains of FXR1 and FMR1 are almost identical, and the two proteins have similar RNA binding properties in vitro. However, FXR1 and FMR1 have very different carboxy-termini. FXR1 and FMR1 are expressed in many tissues, and both proteins, which are cytoplasmic, can be expressed in the same cells. Interestingly, cells from a fragile X patient that do not have any detectable FMR1 express normal levels of FXR1. These findings demonstrate that FMR1 and FXR1 are members of a gene family and suggest a biological role for FXR1 that is related to that of FMR1.
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PMID:FXR1, an autosomal homolog of the fragile X mental retardation gene. 778 95

The fragile X syndrome is the most common mendelianly inherited form of mental retardation. The underlying mutation is usually a triplet repeat (CGG) that is variable in length and undergoes a tremendous length amplification in affected individuals. The mutation leads to absence expression of a gene, which apparently functions as an RNA binding protein. Molecular diagnostic testing for the mutation is conducted using direct genomic Southern blot analysis and polymerase chain reaction. Because the mutation is so common and a single type of mutation accounts for most individuals with the disease, widespread genetic screening can be considered.
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PMID:Perspectives and molecular diagnosis of the fragile X syndrome. 883 27

Fragile X syndrome is the most frequent form of inherited mental retardation and it is caused by deficiency of FMRP, the protein encoded by the FMR1 gene. FMRP is a RNA binding protein of unknown function which is associated with ribosomes. FMRP is found in the cytoplasm, but it is endowed with a nuclear export signal (NES), encoded by exon 14, and a nuclear localization signal (NLS). Characterization of the FMRP NES and NLS domains is presented here. We show by site-directed mutagenesis that three leucine residues in exon 14 are functionally important for the cytoplasmic localization of FMRP. Changing these leucines to serine resulted in a nuclear localization, while another nonconservative change (leucine to tyrosine) did not show such an effect. We also show that the NLS activity is localized between residues 115 and 150, a region that lacks stretches of basic residues. Such stretches are typical of nuclear localization signals that act through the important alpha pathway. The region between residues 151 and 196 can reinforce the NLS activity. A truncated construct containing the N-terminal region of FMRP (residues 1-114) is strikingly concentrated in the nucleus. This suggests that it may contain a domain of strong affinity with a nuclear component.
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PMID:Analysis of domains affecting intracellular localization of the FMRP protein. 944 Jan 21

Fragile X syndrome is a common cause of mental retardation that results from the absence of the fragile X mental retardation protein (FMRP), an RNA binding protein whose function remains unclear. Recent in vitro work has demonstrated that the protein is translated near the synapse in an activity dependent manner [33]. We therefore asked whether expression of FMRP might be altered by neuronal activity in vivo. Using immunoblots of different sub-cellular fractions of the rat somatosensory cortex, we show that the levels of FMRP increase significantly following unilateral whisker stimulation, a model of experience dependent plasticity. This increase is greatest between 2 and 8 h after the stimulus and is seen in both a synaptosomal fraction as well as a sub-cellular fraction enriched for polyribosomal complexes. In contrast, detectable levels of FMRP within the somatosensory cortex show either a decrease or no change after a kainic acid induced seizure compared to water treated controls. Our findings demonstrate that FMRP expression levels are modulated in vivo in response to neuronal activity and suggest a role for FMRP in activity dependent plasticity.
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PMID:Sensory stimulation increases cortical expression of the fragile X mental retardation protein in vivo. 1103 25

FMR1 is an X-linked gene that codes for an RNA binding protein. Expansion of a triplet repeat within exon 1 of the gene causes the fragile X syndrome, which is characterized by mental retardation and various physical anomalies. The triplet repeat in FMR1 can expand to varying degrees. Only the very large expansions in which there is concomitant methylation of the gene cause the fragile X syndrome. Expansions of between 50 and 200 repeats are premutations. Although premutations were originally perceived to be without phenotypic effect, there is now substantial evidence that female carriers of premutations are at increased risk of having early menopause. The FMR1 premutation is also associated with a significant number of cases ascertained because of idiopathic premature ovarian failure, particularly when ovarian failure is a familial trait. The molecular mechanism to explain the association between ovarian failure and premutations is unknown.
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PMID:Premature ovarian failure and the FMR1 gene. 1129 21

The clinical features of the Fragile X mental retardation syndrome are linked to the absence of the set of protein isoforms, derived from alternative splicing of the Fragile X mental retardation gene 1 (FMR1), and collectively termed FMRP. FMRP is an RNA binding protein that is part of a ribonucleoprotein particle associated to actively translating polyribosomes, and which can shuttle between nucleus and cytoplasm. Two highly homologous human proteins, FXR1P and FXR2P, share the same domain structure as FMRP, and probably similar functions. The properties of FMRP suggested that it is involved in nuclear export, cytoplasmic transport, and/or translational control of target mRNAs. In particular, it may play a role in regulation of protein synthesis at postsynaptic sites of dendrites, and in maturation of dendritic spines. Efforts are underway to identify the putative specific mRNA targets of FMRP, and study the effect of FMRP absence on the corresponding proteins. Other approaches have led to the identification of proteins that interact with FMRP. Some of them discriminate between FMRP and the homologous FXR1/2P proteins, and may thus be important for defining unique functions of FMRP that are deficient in Fragile X patients. The physiological functions of FMRP are notably approached through the study of a FMR1 knock-out mouse model. The recent identification in Drosophila melanogaster of genes encoding homologs of FMRP/FXRP and of their interacting proteins, open the way to use of Drosophila genetics to study FMRP function.
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PMID:The Fragile X mental retardation protein. 1171 75

Fragile X mental retardation gene (FMR1) encodes an RNA binding protein that acts as a negative translational regulator. We have developed a Drosophila fragile X syndrome model using loss-of-function mutants and overexpression of the FMR1 homolog (dfxr). dfxr nulls display enlarged synaptic terminals, whereas neuronal overexpression results in fewer and larger synaptic boutons. Synaptic structural defects are accompanied by altered neurotransmission, with synapse type-specific regulation in central and peripheral synapses. These phenotypes mimic those observed in mutants of microtubule-associated Futsch. Immunoprecipitation of dFXR shows association with futsch mRNA, and Western analyses demonstrate that dFXR inversely regulates Futsch expression. dfxr futsch double mutants restore normal synaptic structure and function. We propose that dFXR acts as a translational repressor of Futsch to regulate microtubule-dependent synaptic growth and function.
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PMID:Drosophila fragile X-related gene regulates the MAP1B homolog Futsch to control synaptic structure and function. 1173 54

The loss of the fragile X RNA binding protein, FMRP, causes macroorchidism and mental retardation in man. The discovery of a mouse ortholog led to the development of several FMRP knockout mouse strains that recapitulate some features of the disease. As mouse and human FMRPs differ in several amino acids in their RNA binding domains, we compared the RNA binding profiles of these two orthologs. Five variant FMRPs, whose differences arose from alternative splicing and mutation within the conserved RNA binding domains, were examined. Homoribopolymer binding studies showed that human FMRPs (hFMRP) bound a broader range of single-stranded mimetics than mouse FMRPs (mFMRP) and these interactions were both complex and cooperative. hFMRP and mFMRP also displayed significant preferences toward binding their own mRNA; specifically we found that the mFMRP isoforms bind mFMR1 mRNA much more tightly than their human counterparts. Finally, these data demonstrate that each FMRP variant binds RNAs uniquely, resulting in a set of proteins with differing affinities.
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PMID:Species-specific and isoform-specific RNA binding of human and mouse fragile X mental retardation proteins. 1194 23

Fragile X syndrome is one of the most common forms of inherited mental retardation. In most cases the disease is caused by the methylation-induced transcriptional silencing of the fragile X mental retardation 1 (FMR1) gene that occurs as a result of the expansion of a CGG repeat in the gene's 5'UTR and leads to the loss of protein product fragile X mental retardation protein (FMRP). FMRP is an RNA binding protein that associates with translating polyribosomes as part of a large messenger ribonucleoprotein (mRNP) and modulates the translation of its RNA ligands. Pathological studies from the brains of patients and from Fmr1 knockout mice show abnormal dendritic spines implicating FMRP in synapse formation and function. Evidence from both in vitro and in vivo neuronal studies indicates that FMRP is located at the synapse and the loss of FMRP alters synaptic plasticity. As synaptic plasticity has been implicated in learning and memory, analysis of synapse abnormalities in patients and Fmr1 knockout mice should prove useful in studying the pathogenesis of fragile X syndrome and understanding learning and cognition in general. If an appreciable portion of the total variance (in IQ) is due to sex linked genes, it is of more importance that a boy should have a clever mother than a clever father. Hogben 1932 (quoted in Lehrke 1974)
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PMID:A decade of molecular studies of fragile X syndrome. 1205 12

Fragile X syndrome, the most common form of inherited mental retardation, is caused by loss-of-function mutations in the fragile X mental retardation 1 (fmr1) gene. FMR1 is an RNA binding protein that is highly expressed in neurons of the central nervous system. Recent studies in Drosophila indicate that FMR1 plays an important role in synaptogenesis and axonal arborization, which may underlie the observed deficits in flight ability and circadian behavior of fmr1 mutant flies. The relevance of these studies to our understanding of fragile X syndrome is discussed.
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PMID:Understanding fragile X syndrome: insights from retarded flies. 1208 33


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