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:C0016719 (Friedreich's ataxia)
2,098 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The absence of recombination between the mutation causing Friedreich ataxia and the two loci which originally assigned the disease locus to chromosome 9 has slowed attempts to isolate and characterize the genetic defect underlying this neurodegenerative disorder. A proximity of less than 1 cM to the linkage group has been proved by the generation of high maximal lod score (Z) to each of the two tightly linked markers D9S15 (Z = 96.69; recombination fraction [theta] = .01) and D9S5 (Z = 98.22; theta = .01). We report here recombination events which indicate that the FRDA locus is located centromeric to the D9S15/D9S5 linkage group, with the most probable order being cen-FRDA-D9S5-D9S15-qter. However, orientation of the markers with respect to the centromere, critical to the positional cloning strategy, remains to be resolved definitively.
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PMID:Genetic recombination events which position the Friedreich ataxia locus proximal to the D9S15/D9S5 linkage group on chromosome 9q. 843 13

Friedreich's ataxia (FRDA) is an autosomal recessive, degenerative disease that involves the central and peripheral nervous systems and the heart. A gene, X25, was identified in the critical region for the FRDA locus on chromosome 9q13. This gene encodes a 210-amino acid protein, frataxin, that has homologs in distant species such as Caenorhabditis elegans and yeast. A few FRDA patients were found to have point mutations in X25, but the majority were homozygous for an unstable GAA trinucleotide expansion in the first X25 intron.
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PMID:Friedreich's ataxia: autosomal recessive disease caused by an intronic GAA triplet repeat expansion. 859 8

Friedreich ataxia is an autosomal recessive neurodegenerative disorder. The genetic homogeneity to the FRDA locus on chromosome 9q13-21.1 has been observed in families from different ancestries. We report a Spanish family with two affected and three unaffected children. The segregated classical Friedreich ataxia did not show the expected linkage. The analysis focusses on flanking markers FR1, FR2, FR7 and FR5, excluding linkage 1 cM around the FRDA locus. The unique clinical hallmark in this family was the absence of cardiomyopathy after a long-term follow-up in the two affected children. In both patients serum vitamin E levels were normal. The present observations support the existence of a second locus in Friedreich ataxia, and we suggest that this form could be clinically characterized by the absence of muscular heart disease.
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PMID:A family segregating a Friedreich ataxia phenotype that is not linked to the FRDA locus. 864 4

The onset of Friedreich ataxia (FA) was before 10 years of age in 36 out of 95 personally observed patients. We studied the clinical and laboratory findings of these childhood onset patients. Mean onset age +/- SD was 6.3 +/- 2.4 years. Gait and stance ataxia and lower limb areflexia were constant, dysmetria, dysarthria, Babinski sign, pes cavus, scoliosis and decreased vibration sense were present in the majority of patients. Higher occurrence of diabetes in childhood onset cases (25%) was the only statistical difference in comparison with later onset patients. Mean onset age of diabetes was 21.1 +/- 6.9 years and all patients required insulin. ECG was abnormal in 72% of the patients and echocardiographic evidence of hypertrophic cardiomyopathy was found in 43%. Linkage analysis, performed in 10 families, showed no recombination between the polymorphic markers of the 9q13-21.1 region and the disease locus with a peak lod score of 4.21 at a recombination fraction = 0.00.
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PMID:Childhood onset of Friedreich ataxia: a clinical and genetic study of 36 cases. 867 22

Friedreich ataxia (FA) is associated with the expansion of a GAA trinucleotide repeat in the first intron of the X25 gene. We found both alleles expanded in 67 FA patients from 48 Italian families. Five patients from three families were compound heterozygotes with expansion on one allele and an isoleucine-->phenylalanine change at position 154 on the other one. We found neither expansions nor point mutations in three patients. The length of FA alleles ranged from 201 to 1,186 repeat units, with no overlap with the normal range, and showed a negatively skewed distribution with a peak between 800 and 1,000 repeats. The FA repeat showed meiotic instability with a median variation of 150 repeats. The lengths of both larger and smaller alleles in each patient inversely correlated with age at onset of the disorder. Smaller alleles showed the best correlation, accounting for approximately 50% of the variation of age at onset. Mean allele length was significantly higher in patients with diabetes and in those with cardiomyopathy.
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PMID:The relationship between trinucleotide (GAA) repeat length and clinical features in Friedreich ataxia. 875 56

The STM7 gene on chromosome 9 was recently 'excluded' as a candidate for Friedreich's ataxia following the identification of an expanded intronic GAA triplet repeat in the adjacent gene, X25, in patients with the disease. Using RT-PCR, northern and sequence analyses, we now demonstrate that X25 comprises part of the STM7 gene, contributing to at least four splice variants, and report the identification of new coding sequences. Functional analysis of the STM7 recombinant protein corresponding to the reported 2.7-kilobase transcript has demonstrated PtdlnsP 5-kinase activity, supporting the idea that the disease is caused by a defect in the phosphoinositide pathway, possibly affecting vesicular trafficking or synaptic transmission.
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PMID:The Friedreich's ataxia gene encodes a novel phosphatidylinositol-4- phosphate 5-kinase. 909 Mar 76

The gene for Friedreich ataxia (FRDA), an autosomal-recessive neurodegenerative disease, remains elusive. The current candidate region of about 150 kb lies between loci FR2 and F8101 near the D9S15/D9S5 linkage group at 9q13-21.1. Linkage homogeneity between classical FRDA and a milder, slowly progressive Acadian variant (FRDA-Acad) has been demonstrated. An extended D9S15-D9S5 haplotype (C6) predominates in FRDA-Acad chromosomes from Louisiana. We studied 10 Acadian families from New Brunswick, Canada. In eight families, affected individuals conformed to the clinical description of FRDA-Acad; in one, 2 sibs presented with spastic ataxia (SPA-Acad). In the last family, 2 sibs had FRDA-Acad, and one had SPA-Acad. We found that SPA-Acad is linked to the FRDA gene region. The C6 haplotype and a second major haplotype (B7) were identified. The same ataxia-linked haplotypes segregated with both FRDA-Acad and SPA-Acad in two unrelated families. The parental origins of these haplotypes were different. Our observation of different phenotypes associated with the same combination of haplotypes may point to the influence of the parent of origin on gene expression, indicate the effect of modifier genes, or reflect the presence of different mutations on the same haplotypes. Our findings underline the need to investigate families with autosomal-recessive ataxias for linkage to the FRDA region, despite lack of key diagnostic manifestations such as cardiomyopathy or absent deep-tendon reflexes.
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PMID:Friedreich ataxia in Acadian families from eastern Canada: clinical diversity with conserved haplotypes. 887 Sep 28

Haplotype analysis is a powerful approach to understand the spectrum of mutations accounting for a disease in a homogeneous population. We show that haplotype variation for 10 markers linked to the Friedreich ataxia locus (FRDA) argues in favor of an important mutation homogeneity in the Spanish population, and positions the FRDA locus in the region where it has been recently isolated. We also report the finding of a new single nucleotide polymorphism called FAD1. The new marker shows a very strong linkage disequilibrium with Friedreich ataxia (FA) in both the Spanish and French populations. suggesting the existence of an ancient and widespread FRDA mutations. Inclusion of FAD1 in the extended haplotype analysis has allowed to postulate that this main FRDA mutation could account for 50-90% of the disease chromosomes. The results indicate that FA, despite clinical heterogeneity, could have originated from a few initial mutations.
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PMID:Evidence for a common origin of most Friedreich ataxia chromosomes in the Spanish population. 887 84

The clinical relevance of neurological disorders associated with impaired glucose tolerance(IGT) is reviewed. In this review some neurological diseases, such as, myotonic dystrophy, Crow-Fukase syndrome, Wolfram syndrome (DIDMOAD), Friedreich ataxia, spinal muscular atrophy of the Kennedy-Alter-Sung type, amyotrophic lateral sclerosis, Parkinson-dementia, and MELAS are discussed in relation to, glucose intolerance. Although the etiology of these disorders still remains an enigma, MELAS was caused by an A-to-G mutation at nucleotide position 3243 of the mitochondria genome. An association of "diabetic neuropathy" with IGT appears to be negative. Peripheral nerve function did not differ between IGT and control subjects, whereas autonomic nerve function deviated; an abnormal expiration to inspiration ratio of R-R interval was significantly more common in IGT than in control subjects. In conclusion, diabetes, but not IGT, is associated with peripheral nerve dysfunction.
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PMID:[Neurological disorders associated with impaired glucose tolerance]. 891 31

Friedreich's ataxia is the most common inherited spinocerebellar ataxia. A decade of linkage and physical mapping studies have culminated in the identification of the Friedreich's ataxia gene. The presence of homologues in purple bacterial genomes, but not in other bacteria, allows us to infer a mitochondrial location for frataxin (Friedreich's ataxia protein) on the basis of bacterial phylogeny. Frataxin possesses a non-globular N-terminus domain providing a candidate mitochondrial targeting peptide. Clues to the function of frataxin are provided by the mitochondrial location, a clinically similar ataxia with vitamin E deficiency, and certain neuropathies with mitochondrial DNA instability caused by mutations in nuclear genes.
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PMID:Friedreich's ataxia protein: phylogenetic evidence for mitochondrial dysfunction. 893 Dec 68


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