UMLS:C0013421 - FACTA Search

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Query: UMLS:C0013421 (dystonia)
8,418 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The DYT1 gene responsible for early-onset, idiopathic torsion dystonia (ITD) in the Ashkenazi Jewish population, as well as in one large non-Jewish family, has been mapped to chromosome 9q32-34. Using (GT)n and RFLP markers in this region, we have identified obligate recombination events in some of these Jewish families, which further delineate the area containing the DYT1 gene to a 6-cM region bounded by loci AK1 and ASS. In 52 unrelated, affected Ashkenazi Jewish individuals, we have found highly significant linkage disequilibrium between a particular extended haplotype at the ABL-ASS loci and the DYT1 gene. The 4/A12 haplotype for ABL-ASS is present on 69% of the disease-bearing chromosomes among affected Jewish individuals and on only 1% of control Jewish chromosomes (chi 2 = 91.07, P much less than .001). The allelic association between this extended haplotype and DYT1 predicts that these three genes lie within 1-2 cM of each other; on the basis of obligate recombination events, the DYT1 gene is centromeric to ASS. Furthermore, this allelic association supports the idea that a single mutation event is responsible for most hereditary cases of dystonia in the Jewish population. Of the 53 definitely affected typed, 13 appear to be sporadic, with no family history of dystonia. However, the proportion of sporadic cases which potentially carry the A12 haplotype at ASS (8/13 [62%]) is similar to the proportion of familial cases with A12 (28/40 [70%]). This suggests that many sporadic cases are hereditary, that the disease gene frequency is greater than 1/15,000, and that the penetrance is lower than 30%, as previously estimated in this population. Most affected individuals were heterozygous for the ABL-ASS haplotype, a finding supporting autosomal dominant inheritance of the DYT1 gene. The ABL-ASS extended-haplotype status will provide predictive value for carrier status in Jewish individuals. This information can be used for molecular diagnosis, evaluation of subclinical expression of the disease, and elucidation of environmental factors which may modify clinical symptoms.
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PMID:Strong allelic association between the torsion dystonia gene (DYT1) andloci on chromosome 9q34 in Ashkenazi Jews. 134 97

Dopa-responsive dystonia is a clinical variant of idiopathic torsion dystonia that is distinguished from other forms of dystonia by the frequent occurrence of parkinsonism, diurnal fluctuation of symptoms, and its dramatic therapeutic response to L-dopa. Linkage of a gene causing classic dystonia in a large non-Jewish kindred (DYT1) and in a group of Ashkenazi Jewish families, to the gelsolin (GSN) and arginino-succinate synthetase (ASS) loci on chromosome 9q32-34, respectively, was recently determined. Here we report the discovery of a highly informative (GT)n repeat VNTR polymorphism within the ASS locus. Analysis of a large kindred with dopa-responsive dystonia, using this new polymorphism and conventional RFLPs for the 9q32-34 region, excludes loci in this region as a cause of this form of dystonia. This provides proof of genetic heterogeneity between classic idiopathic torsion dystonia and dopa-responsive dystonia.
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PMID:Identification of a highly polymorphic microsatellite VNTR within the argininosuccinate synthetase locus: exclusion of the dystonia gene on 9q32-34 as the cause of dopa-responsive dystonia in a large kindred. 198 54

Idiopathic torsion dystonia (ITD) is a neurological disorder characterized by sustained muscle contractions that appear as twisting movements of the limbs, trunk, and/or neck, which can progress to abnormal postures. Most familial forms of ITD follow autosomal dominant transmission with reduced penetrance. The frequency of ITD in the Ashkenazi Jewish population is five to ten times greater than that in other groups. Recently, a gene for ITD (DYT1) in a non-Jewish kindred was located on chromosome 9q32-34, with tight linkage to the gene encoding gelsolin (GSN). In the present study linkage analysis using DNA polymorphisms is used to locate a gene responsible for susceptibility to ITD in 12 Ashkenazi Jewish families. This dystonia gene exhibits close linkage with the gene encoding argininosuccinate synthetase (ASS), and appears by multipoint analysis to lie in the q32-34 region of chromosome 9, a region that also contains the loci for gelsolin and dopamine-beta-hydroxylase. The same gene may be responsible for ITD both in the non-Jewish kindred mentioned above and in the Ashkenazi Jewish families presented here. However, because there is substantial difference between the penetrance of the dominant allele in these two groups, two different mutations may be operating to produce susceptibility to this disease in the two groups.
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PMID:Dystonia gene in Ashkenazi Jewish population is located on chromosome 9q32-34. 204 51

A gene (DYT1) for early onset idiopathic torsion dystonia was mapped to chromosome 9q34 in non-Jewish and Jewish families. The DYT1 gene region has been excluded in other families with adult onset and cervical or cranial onset idiopathic torsion dystonia from the United States, Great Britain, and France. The role of DYT1 in a Swedish family with adult onset idiopathic torsion dystonia in four generations was examined. The disease seems to be inherited in an autosomal dominant mode with reduced penetrance in this family. There were 10 affected family members, with a mean age of onset of 27 (range 18 to 50) years. The disease showed variable expression, with focal, multifocal, and generalised forms of dystonia in different family members. Genetic analysis excluded the chromosomal region containing the DYT1 locus as being responsible for dystonia in this family.
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PMID:Adult onset idiopathic torsion dystonia is excluded from the DYT 1 region (9q34) in a Swedish family. 762 34

The gene responsible for the neuromuscular disease idiopathic torsion dystonia (DYT1) has recently been mapped to human chromosome 9q32-34. Our goal is to identify candidate genes for torsion dystonia as well as other neurologically important genes in this region. To accomplish this we have characterized the expression patterns of transcribed sequences identified within a collection of 3000 human 9q32-34-specific clones. Screening of this clone collection with cDNA probes from various brain and peripheral tissues resulted in the identification of 143 clones corresponding to 9q32-34-specific transcripts. Thirty three of these corresponded to transcripts expressed in a brain-specific manner and thus represent preferred candidates for the dystonia gene. None of these candidates were expressed specifically in the putative dystonia target tissue, basal ganglia. The 9q32-34 collection was screened with a subtracted probe enriched in striatal sequences using a directional tag PCR subtraction method. This resulted in the identification of several genes exhibiting preferential expression in the striatum as compared to cerebellum.
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PMID:Identification and characterization of transcribed sequences on human chromosome 9q32-34. 765 19

The DYT1 gene on chromosome 9q34 underlies idiopathic torsion dystonia (ITD) in Jewish and non-Jewish families with childhood and adolescent-onset dystonia that usually starts in a limb, spreads to other limbs, and uncommonly involves cranial muscles. We examined 39 members of a Mennonite family of German ancestry in which seven were affected with ITD. Age at onset was 14.7 years (range 5-34 years) and symptoms began in a limb in four. The remaining three had onset in the neck, face, and larynx. Dystonia progressed to involve at least one arm and one leg in all seven and there was cranial involvement in six. Five of these six had moderate or severe speech impairment. Linkage analysis with 9q34 markers excluded the region containing the DYT1 locus in this family. This study suggests that a gene other than DYT1 underlies some cases of early limb-onset ITD. The clinical features of prominent cranial involvement and impaired speech distinguish this "non-DYT1" early-onset ITD family from the typical DYT1 phenotype.
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PMID:Exclusion of the DYT1 locus in a non-Jewish family with early-onset dystonia. 784 3

A gene (DYT1) for susceptibility to early-onset torsion dystonia in Ashkenazi Jewish and Gentile kindreds is situated on chromosome 9q32-q34 in a 6-7 cM span between markers AK1 and ASS. To determine whether transmission of familial dystonia with myoclonic jerks responsive to alcohol was consistent with a gene in this region, we studied the 37 members of a Swedish family, of whom 20 were so affected. A lod score of < -2.00 from a two-point linkage analysis with six DNA markers covering a 30 cM span from D9S26 to D9S10 that included the region of the DYT gene indicated that this gene is not located in this region, and that two or more autosomal loci are responsible for hereditary dystonia in humans.
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PMID:The gene for familial dystonia with myoclonic jerks responsive to alcohol is not located on the distal end of 9q. 800 4

Idiopathic torsion dystonia (ITD) is characterized by involuntary twisting movements and postures. A gene for this disorder, DYT1, was mapped to chromosome 9q34 in 12 Ashkenazi Jewish (AJ) families and one large non-Jewish kindred. In the AJ population, strong linkage disequilibrium exists between DYT1 and adjacent markers within a 2-cM region. The associated haplotype occurs in > 90% of early limb-onset AJ cases. We examined seven non-Jewish ITD families of northern European and French Canadian descent to determine the extent to which early-onset ITD in non-Jews maps to DYT1. Results are consistent with linkage to the DYT1 region. Affected individuals in these families are clinically similar to the AJ cases; i.e., the site of onset is predominantly in the limbs and at least one individual in each pedigree had onset before age 12 years. None carries the AJ haplotype; therefore, they probably represent different mutations in the DYT1 gene. The two French Canadian families, however, display the same haplotype. Estimates of penetrance in non-Jewish families range from .40 to .75. We identified disease gene carriers and, with adjustments for age at onset, obtained a direct estimate of penetrance of .46. This is consistent with estimates of 30%-40% in the AJ population. Two other non-Jewish families with atypical ITD (later onset and/or cranial or cervical involvement) are not linked to DYT1, which indicates involvement of other genes in dystonia.
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PMID:The DYT1 gene on 9q34 is responsible for most cases of early limb-onset idiopathic torsion dystonia in non-Jews. 807 90

Familial essential tremor (ET) is an autosomal dominant disorder presenting as an isolated postural tremor. Its frequent association with dystonia suggests that the two disorders might be pathogenically related. We report the exclusion of the DYT1 locus on chromosome 9q32-34, responsible for idiopathic torsion dystonia (ITD), in two large ET families. We conclude that ET and ITD are distinct genetic disorders.
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PMID:Familial essential tremor and idiopathic torsion dystonia are different genetic entities. 823 31

A map comprising 16 distinct markers with heterozygosities of 0.61-0.92 for a 10-cM region of human 9q34.1 is presented. The map incorporates four genes and has a maximum intermarker interval of 2.1 cM. Markers were analyzed in the Venezuelan reference pedigrees and all were placed uniquely in the map with a minimum likelihood of 676:1. The map should prove useful in analysis of families segregating dystonia and tuberous sclerosis, as the DYT1 and TSC1 loci map within this region.
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PMID:A high-resolution linkage map of human 9q34.1. 824 74

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