UMLS:C0012872 - FACTA Search

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Query: UMLS:C0012872 (DNA marker)
929 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The probability of carrying the gene for Huntington's disease can in many cases be estimated in the children of affected persons by identifying a specific DNA marker that is genetically linked to the gene. We studied 47 persons at 50 percent risk of inheriting Huntington's disease who requested a presymptomatic or prenatal genetic-linkage test between September 1986 and January 1988. The participants were given pre-test counseling and psychological and neurologic evaluations. Nineteen persons later voluntarily withdrew from the protocol, including one who would have been excluded anyway, and one person was from a family that was too small to allow testing. Three D4S10 restriction-fragment-length polymorphisms produced by the HindIII, EcoRI, and Bg/I enzymes were used for all tests, and the probability that a subject was a Huntington's disease carrier was calculated. The accuracy of the test was compromised by a 4 percent recombination frequency between D4S10 and the Huntington's disease gene. Fifteen presymptomatic tests and one prenatal test were completed. Four yielded positive results, seven yielded negative results, and five were uninformative; seven persons are awaiting test results. All participants with positive tests experienced intermittent depression, but none required hospitalization, and no suicide threats were reported. Five participants received a diagnosis of Huntington's disease on the basis of the neurologic assessment. We conclude that some persons in the early stages of Huntington's disease may seek presymptomatic testing rather than neurologic evaluations.
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PMID:Predictive testing for Huntington's disease with use of a linked DNA marker. 289 60

The genetic defect in Huntington's disease (HD), an inherited neuropsychiatric disorder of unknown etiology, has not been defined. The discovery of linkage between HD and the DNA marker D4S10(G8) raised the possibility of isolating the disease gene on the basis of its chromosomal location, in addition to providing a limited presymptomatic test for the late onset disorder. But it has been difficult to isolate other DNA markers nearer to the HD gene, and this has hampered attempts to identify the disease locus and limited the applicability and accuracy of predictive testing. Recently, several new DNA markers from the region of the genome near the HD gene have been isolated using a directed cloning strategy. We describe here the characterization of one of these new markers, D4S95, a highly polymorphic locus which displays no recombination with the HD gene in the families tested. The high degree of polymorphism at this locus and its proximity to the HD gene make it extremely useful for predictive testing and as a new starting point for attempts to clone the disease gene.
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PMID:A highly polymorphic locus very tightly linked to the Huntington's disease gene. 289 95

Friedreich's ataxia is an autosomal recessive disease with progressive degeneration of the central and peripheral nervous system. The biochemical abnormality underlying the disorder has not been identified. Prompted by the success in localizing the mutations causing Duchenne muscular dystrophy, Huntington's disease and cystic fibrosis, we have undertaken molecular genetic linkage studies to determine the chromosomal site of the Friedreich's ataxia mutation as an initial step towards the isolation and characterization of the defective gene. We report the assignment of the gene mutation for this disorder to chromosome 9p22-CEN by genetic linkage to an anonymous DNA marker MCT112 and the interferon-beta gene probe. In contrast to the clinical variation seen for the disorder, no evidence of genetic heterogeneity is observed.
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PMID:Mapping of mutation causing Friedreich's ataxia to human chromosome 9. 289 44

The dominant gene defect in Huntington's disease (HD) is linked to the DNA marker D4S10, near the telomere of the chromosome 4 short arm. Two other markers, D4S43 and D4S95, are closer, but still proximal to the HD gene in 4p16.3. We have characterized a new locus, D4S114, identified by cloning the end of a NotI fragment resolved by pulsed-field gel electrophoresis. D4S114 was localized distal to D4S43 and D4S95 by both physical and genetic mapping techniques. The "end"-clone overlaps a previously isolated NotI "linking" clone, and is within 150 kb of a second "linking" clone defining D4S113. Restriction fragment length polymorphisms for D4S113 and D4S114, one of which is identical to a SacI polymorphism detected by the anonymous probe pBS731B-C (D4S98), were typed for key crossovers in HD and reference pedigrees. The data support the locus order D4S10-(D4S43, D4S95)-D4S98/S114/S113-HD-telomere. The D4S98/S114/S113 cluster therefore represents the nearest cloned sequences to HD, and provides a valuable new point for launching directional cloning strategies to isolate and characterize this disease gene.
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PMID:Mapping of D4S98/S114/S113 confines the Huntington's defect to a reduced physical region at the telomere of chromosome 4. 290 44

We report the clinical and cytogenetic findings in a family in which a balanced reciprocal translocation between the long arm of chromosome 4 and the short arm of chromosome 5 is segregating together with Huntington disease in 2 generations. In situ hybridization studies revealed that the linked human DNA marker is located on the short arm of the normal and translocated chromosome 4 in the region 4p16. The association between Huntington disease and the translocation in this family may represent a chance occurrence. However, it is also possible that there is an undetected rearrangement of DNA on chromosome 4 involving the gene for Huntington disease but not affecting the site of the linked marker. Finally, the likelihood that this represents heterogeneity cannot be excluded.
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PMID:A family with Huntington disease and reciprocal translocation 4;5. 294 Aug 59

The finding of a genetically linked polymorphic DNA marker has made possible a predictive test for Huntington's chorea. This DNA probe has so far been used only for research and has technical limitations, but some workers now wish to apply it to clinical predictions. Those identified by the probe as being probable carriers of the Huntington's chorea gene would be exposed to uncertain psychological risks and social pressures. Ethical guidelines should be established, but these require greater knowledge of the potential benefits and hazards of this powerful new procedure. Controlled clinical trials are urgently needed.
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PMID:Ethics of predictive testing for Huntington's chorea: the need for more information. 294 16

The linked DNA marker for Huntington disease has recently been mapped to the short arm of chromosome 4 by somatic cell hybridization studies. Southern blot analysis of DNA from patients with Wolf-Hirschhorn syndrome (WHS) has suggested that the linked marker maps within the terminal 4p16 band. We have now accomplished subregional assignment of G8 (D4S10) to 4p16.1-16.3 using in situ hybridization techniques on two patients with nonoverlapping interstitial deletions of 4p. The mapping of G8 (D4S10) to a region deleted in patients with WHS will allow the application of new strategies for detecting DNA sequences closer to the locus for Huntington disease.
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PMID:Subregional assignment of the linked marker G8 (D4S10) for Huntington disease to chromosome 4p16.1-16.3. 294 29

Somatic cell hybrids were selected that retain a derivative chromosome 5 from an individual in which the p15.1-pter segment of chromosome 5 is replaced with the p15.1-pter segment of chromosome 4. Hybrids that retain this derivative chromosome exclusively were found to be positive for G8, a DNA marker closely linked to the Huntington disease gene on chromosome 4p. From one such hybrid, a segregant was isolated that had deleted the entire q arm of the derivative chromosome but retained the p arm intact as its only detectable human DNA. A complete recombinant DNA library was prepared from this cell line, and the inserts in approximately 1/3 of the recombinant phage with human DNA were shown to be derived from 4pter-4p15.1, which represents only approximately 1% of the total human genome. The cell hybrid and DNA library represent a rapid and efficient means to identify and isolate many polymorphic DNA markers close to and flanking the Huntington disease gene.
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PMID:A cell hybrid and recombinant DNA library that facilitate identification of polymorphic loci in the vicinity of the Huntington disease gene. 294 30

The finding of a polymorphic DNA marker for Huntington's disease offers the potential for preclinical and prenatal screening for this condition. However, before implementation of a programme of this nature in South Africa, certain technical, medical psychosocial and ethical considerations require careful appraisal. The current situation with regard to the importance and implications of this new technology to affected kindreds is reviewed and discussed.
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PMID:Molecular genetics and Huntington's disease. The South African situation. 295 28

Twenty-three persons at risk for Huntington's disease (HD) have been studied using a polymorphic human linked DNA marker (D4S10) and positron emission tomography (PET). We determined the likelihood of inheritance of the gene for HD in 13 persons, using DNA polymorphism studies. Of these, eight persons had a greater than 90% probability of being presymptomatic heterozygotes for HD. Three of these eight subjects had caudate glucose utilization detected by PET that was more than 2 standard deviations (SD) below the age-matched control mean. Measurement of caudate glucose utilization in the other five presumed presymptomatic heterozygotes revealed results between 1 and 2 SD below the mean. Five persons had a less than 10% likelihood of having inherited the abnormal gene for HD. Of these, four had normal rates of glucose utilization in the caudate nuclei. However, one individual with DNA results indicating a low risk of developing HD had abnormally low measures of caudate glucose utilization. This suggests that a recombination had occurred between the linked marker and the gene in this person. These studies suggest that PET studies of caudate glucose utilization may help to confirm results of DNA studies in some persons, and may provide an opportunity to detect when DNA results may be incorrect due to recombination.
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PMID:The combined use of positron emission tomography and DNA polymorphisms for preclinical detection of Huntington's disease. 295 11

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