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:C0040822 (tremor)
18,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Premutation alleles (55-200 CGG repeats) of the fragile X mental retardation 1 gene (FMR1) are known to contribute to the fragile X phenotype through genetic instability and transmission of full mutation alleles (>200 repeats). There is now mounting evidence that the premutation alleles themselves contribute to clinical involvement, including premature ovarian failure among female carriers and a new tremor/ataxia syndrome among older male carriers. Recent observations also provide direct evidence of dysregulation of the FMR1 gene in the premutation range, which may explain many of the clinical observations.
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PMID:The fragile X premutation: into the phenotypic fold. 1207 70

The FMR1 gene is involved in three different syndromes, the Fragile X syndrome, premature ovarian failure (POF) and the Fragile X-associated tremor/ataxia syndrome (FXTAS) at older age. Fragile X syndrome is caused by an expanded CGG repeat above 200 units in the FMR1 gene resulting in the absence of the FMR1 mRNA and protein. The FMR1 protein is proposed to act as a regulator of mRNA transport and/or translation that plays a role in synaptic maturation and function. POF and FXTAS are found in individuals with an expanded repeat between 50 and 200 CGGs and are associated with increased FMR1 mRNA levels. The presence of elevated FMR1 mRNA in all patients suggests that these syndromes may represent a gain-of-function effect from the elevated message levels. The level of FMR1 mRNA is in fragile balance and is therefore critical for normal functioning.
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PMID:A fragile balance: FMR1 expression levels. 1295 62

Fragile X syndrome, the most common form of inherited mental retardation, is caused by hyperexpansion and hypermethylation of a CGG repeat tract in the 5' untranslated region of the FMR1 gene. This methylation causes the gene to be transcriptionally silenced. In addition to the common allele form with less than 41 repeats, there are two other allelic forms of the FMR1 gene that are unmethylated: premutation (61-200 CGG repeats) and intermediate (41-60 CGG repeats). Recently, premutation-specific phenotypes not related to fragile X syndrome have been reported: a 20-fold increased risk for premature ovarian failure (POF) among female carriers and an increased risk for a tremor ataxia syndrome (TAS) primarily among older male carriers. At the molecular level, increased levels of FMR1 transcript have been observed among premutation carriers. Increased levels of transcript may be causally related to the POF or TAS phenotypes or may be a surrogate of some other allelic property. In this report, we have examined the distributional properties of transcript levels by repeat size and gender among 238 individuals. We have confirmed a significant linear relationship between transcript level and repeat size in males and females. The evidence for the linear effect is primarily within the premutation size alleles.
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PMID:A study of the distributional characteristics of FMR1 transcript levels in 238 individuals. 1475 38

Carriers of premutation alleles (55-200 CGG repeats) of the fragile-X mental retardation 1 (FMR1) gene are often regarded as being clinically uninvolved. However, it is now apparent that such individuals can present with one (or more) of three distinct clinical disorders: mild cognitive and/or behavioral deficits on the fragile-X spectrum; premature ovarian failure; and a newly described, neurodegenerative disorder of older adult carriers, fragile-X-associated tremor/ataxia syndrome (FXTAS). Awareness of these clinical presentations is important for proper diagnosis and therapeutic intervention, not only among families with known cases of fragile-X syndrome but also more broadly for adults with tremor, gait ataxia, and parkinsonism who are seen in movement-disorders clinics.
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PMID:The fragile-X premutation: a maturing perspective. 1505 36

Expansion of a CGG.CCG-repeat tract in the 5'-untranslated region of the FMR1 (Fragile X mental retardation 1) gene causes its aberrant transcription. This produces symptoms ranging from premature ovarian failure and Fragile X associated tremor and ataxia syndrome to FMR syndrome, depending on the size of the expansion. The promoter from normal alleles shows four protein-binding regions in vivo. We had previously shown that in mouse brain extracts two of these sites are bound by USF1/USF2 (upstream stimulatory factors 1 and 2) heterodimers and NRF-1 (nuclear respiratory factor-1). We also showed that these sites are involved in the positive regulation of FMR1 transcription in neuronally derived cells. In the present study, we show that Sp1 (specificity protein 1) and Sp3 are also strong positive regulators of FMR1 promoter activity. We also show that, like Sp1 and E-box-binding proteins such as USF1 and USF2, NRF-1 causes DNA bending, in this case producing a bend of 57 degrees towards the major groove. The combined effect of the four protein-induced bends on promoter geometry is the formation of a highly compact arch-like structure in which the 5' end of the promoter is brought in close proximity to the 3' end. We had previously shown that while point mutations in the GC-boxes decrease promoter activity, deletion of either one of them leads to an increase in promoter activity. We can reconcile these observations with the positive effect of Sp1 and Sp3 if protein-induced bending acts, at least in part, to bring together distally spaced factors important for transcription initiation.
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PMID:The roles of Sp1, Sp3, USF1/USF2 and NRF-1 in the regulation and three-dimensional structure of the Fragile X mental retardation gene promoter. 1547 57

People with 59-200 CGG.CCG-repeats in the 5' UTR of one of their FMR1 genes are at risk for Fragile X tremor and ataxia syndrome. Females are also at risk for premature ovarian failure. These symptoms are thought to be due to the presence of the repeats at the DNA and/or RNA level. We show here that long transcribed but untranslated CGG-repeat tracts are toxic to human cells and alter the expression of a wide variety of different genes including caspase-8, CYFIP, Neurotensin and UBE3A.
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PMID:Long CGG-repeat tracts are toxic to human cells: implications for carriers of Fragile X premutation alleles. 1586 12

These recommendations describe the minimum standard criteria for genetic counseling and testing of individuals and families with fragile X syndrome, as well as carriers and potential carriers of a fragile X mutation. The original guidelines (published in 2000) have been revised, replacing a stratified pre- and full mutation model of fragile X syndrome with one based on a continuum of gene effects across the full spectrum of FMR1 CGG trinucleotide repeat expansion. This document reviews the molecular genetics of fragile X syndrome, clinical phenotype (including the spectrum of premature ovarian failure and fragile X-associated tremor-ataxia syndrome), indications for genetic testing and interpretation of results, risks of transmission, family planning options, psychosocial issues, and references for professional and patient resources. These recommendations are the opinions of a multicenter working group of genetic counselors with expertise in fragile X syndrome genetic counseling, and they are based on clinical experience, review of pertinent English language articles, and reports of expert committees. These recommendations should not be construed as dictating an exclusive course of management, nor does use of such recommendations guarantee a particular outcome. The professional judgment of a health care provider, familiar with the facts and circumstances of a specific case, will always supersede these recommendations.
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PMID:Genetic counseling for fragile x syndrome: updated recommendations of the national society of genetic counselors. 1604 89

The FRAXA trinucleotide repeat at Xq27.3 gives rise to fragile X syndrome when fully expanded, and both premature ovarian failure (POF) and fragile X tremor and ataxia syndrome (FXTAS) when in the premutation range. Reports of phenotypic effects extending into the intermediate repeat range are inconsistent but some studies suggest that these smaller expansions predispose to special educational needs (SEN). This study utilises the Avon Longitudinal Study of Parents and Children (ALSPAC) cohort to investigate cognitive and behavioural variables that might be associated with FRAXA intermediate alleles. The current study failed to find any strong evidence of association of FRAXA intermediate alleles with SEN, behavioural problems or cognitive difficulties. However, our findings illustrate some of the difficulties encountered in identifying individuals with SEN. The power to identify specific components of cognitive and behavioural difficulties was reduced due to elective drop-out, which is characteristic of longitudinal studies. Our findings demonstrate the non-random loss of participants from this cohort and highlight problems that may arise when such data are used in genetic association studies.
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PMID:An investigation of FRAXA intermediate allele phenotype in a longitudinal sample. 1662 28

The FMR1 gene contains a trinucleotide repeat tract which can expand from a normal size of around 30 repeats to over 200 repeats, causing mental retardation (Fragile X Syndrome). Evidence suggests that premutation males (55-200 repeats) are susceptible to a late-onset tremor/ataxia syndrome and females to premature ovarian failure, and that intermediate alleles ( approximately 41-55 repeats) and premutations may be in excess in samples with special educational needs. We explored the relationship between FMR1 allele length and cognitive ability in 621 low ability and control children assessed at 4 and 7 years, as well as 122 students with high IQ. The low and high ability and control samples showed no between-group differences in incidence of longer alleles. In males there was a significant negative correlation between allele length and non-verbal ability at 4 years (p = 0.048), academic achievement in maths (p = 0.003) and English (p = 0.011) at 7 years, and IQ in the high ability group (p = 0.018). There was a significant negative correlation between allele length and a standardised score for IQ and general cognitive ability at age 7 in the entire male sample (p = 0.002). This suggests that, within the normal spectrum of allele length, increased repeat numbers may have a limiting influence on cognitive performance.
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PMID:Investigating the relationship between FMR1 allele length and cognitive ability in children: a subtle effect of the normal allele range on the normal ability range? 1690 2

Recent advances in our understanding of the clinical and molecular features of the fragile-X mental-retardation 1 gene, FMR1, highlight the importance of single-gene disorders. 15 years after its discovery, FMR1 continues to reveal new and unexpected clinical presentations and molecular mechanisms. Loss of function of FMR1 is a model for neurodevelopmental and behavioural disorders, including mental retardation, autism, anxiety, and mood instability. In addition, overexpression and CNS toxicity of FMR1 mRNA causes a late-onset neurodegenerative disorder, the fragile-X-associated tremor/ataxia syndrome (FXTAS). A similar mechanism is probably involved in premature ovarian failure, which affects up to 20% of female carriers of an altered FMR1 gene.
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PMID:Fragile-X syndrome and fragile X-associated tremor/ataxia syndrome: two faces of FMR1. 1716 1


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