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

---

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

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.
...
PMID:The combined use of positron emission tomography and DNA polymorphisms for preclinical detection of Huntington's disease. 295 11

We have developed a new method of screening for hemophilia A in families at risk for the disease. A DNA probe (St14) that detects a very polymorphic region on the human X chromosome has been shown to be closely linked to hemophilia A. We observed no recombination between the St14 locus and hemophilia A in 12 families studied. The odds in favor of linkage are 4.4 X 10(9) to 1 (lod score, 9.65). The 95 per cent confidence interval for the probability of a recombination between St14 and hemophilia A is 0 to 6.5 per cent. This DNA probe, which is informative in more than 90 per cent of families at risk of hemophilia A, can be used in conjunction with classic biologic assays to identify carriers with an accuracy of 96 per cent or more. If a small risk of misclassification due to crossover between the test and the disease loci is accepted, this DNA marker should allow first-trimester prenatal diagnosis of hemophilia A. Segregation analysis with St14 may thus represent a major improvement in genetic counseling for hemophilia A.
...
PMID:Genetic screening for hemophilia A (classic hemophilia) with a polymorphic DNA probe. 298 7

Huntington's disease (HD) is an autosomal dominant neurodegenerative disorder characterized by progressive involuntary movements and dementia. The symptoms of the disease, although devastating in severity, do not usually appear until the third to fourth decade of life. The gene defect is highly penetrant, and results in the loss of neurones in the basal ganglia, globus pallidus, and more diffusely in the cortex. A DNA marker, G8 (or D4S10), is tightly linked to Huntington's disease and this gene has been localized to chromosome 4 (ref. 3). The discovery of this linkage marker raises the possibility of developing a presymptomatic test for the disorder, and of eventually isolating the disease gene based on its map position. We have now regionally localized the DNA marker G8 to the terminal band of the short arm of the chromosome, a region representing approximately 0.5% of the total human genome. The assignment was made by examining DNA from patients with Wolf-Hirschhorn syndrome, a birth defect resulting from partial heterozygous deletion of the short arm of chromosome 4.
...
PMID:Deletion of Huntington's disease-linked G8 (D4S10) locus in Wolf-Hirschhorn syndrome. 299 23

A polymorphic DNA marker has been found genetically linked, in a set of 39 human families, to an autosomal recessive gene that causes cystic fibrosis (CF), a disease affecting one in 2000 Caucasian children. The DNA marker (called D0CRI-917) is also linked to the PON locus, which by independent evidence is linked to the CF locus. The best estimates of the genetic distances are 5 centimorgans between the DNA marker and PON and 15 centimorgans between the DNA marker and the CF locus, meaning that the location of the disease gene has been narrowed to about 1 percent of the human genome (about 30 million base pairs). Although the data are consistent with the interpretation that a single locus causes cystic fibrosis, the possibility of genetic heterogeneity remains. The discovery of a linked DNA polymorphism is the first step in molecular analysis of the CF gene and its causative role in the disease.
...
PMID:Cystic fibrosis locus defined by a genetically linked polymorphic DNA marker. 299 31

One hundred and three individuals in 11 unrelated families with the fragile-X [fra(X)] syndrome were tested for polymorphisms identified by probes flanking the fra(X) site at Xq27.3. Two probes distal and 2 proximal to the fra(X) site were used. Thirteen known female carriers were analyzed retrospectively. DNA markers gave probabilities of carrying the mutation of 99% in 1 female, 89% in 8 females, and 10-55% in the other 4 females. We also estimated the probability of having inherited the mutation for 16 individuals of unknown fra(X) status using DNA markers and corrections for incomplete penetrance. The DNA marker test gave risks for females of 1-6% (7 females), 15% (1 female), and 97% (1 female). In males the risks were 1-3% (6 males) and 91% (1 male). In 3 families, DNA marker data were used to calculate probabilities of greater than or equal to 98.5% that transmission of the fra(X) mutation had occurred through normal males. In the retrospective studies, only 1 of 7 retarded males could have been diagnosed prenatally as having the fra(X) mutation with a probability of 99%. DNA marker analysis was uninformative in 5 of these males. When fra(X) carrier status cannot be established by chromosome analysis, DNA marker studies provide an alternative test that can be used to calculate individual risks more precisely. However, linkage analysis of the probe loci in these 11 families suggests that the recombination frequency between the fra(X) locus and the factor IX gene (F9) and DXS52 may be greater than previously suggested. Until the true recombination frequencies are established and the question of heterogeneity among families is fully analyzed, caution in using DNA markers as a predictive test is advised.
...
PMID:An assessment of the use of flanking DNA markers for fra(X) syndrome carrier detection and prenatal diagnosis. 300 91

We describe a general strategy for the detection of high-frequency restriction fragment length polymorphisms in the centromeric regions of human chromosomes by molecular analysis of alpha satellite DNA, a diverse family of tandemly repeated DNA located near the centromeres of all human chromosomes. To illustrate this strategy, cloned alpha satellite repeats isolated from two human chromosomes, 17 and X, have been used under high-stringency conditions that take advantage of the chromosome-specific organization of this divergent repeated DNA family. Multiple high-frequency restriction fragment length polymorphisms are described for the centromeric region of both chromosome 17 and X chromosome. Mendelian inheritance of the variants is demonstrated. The X-linked alpha satellite polymorphisms in particular are highly informative and constitute a virtually unique centromeric DNA marker for each X chromosome examined. Since the strategy we describe is a general one, the alpha satellite family of DNA should provide a rich source of molecular variation in the human genome and should contribute to the development of centromere-based genetic linkage maps of human chromosomes.
...
PMID:Detection of restriction fragment length polymorphisms at the centromeres of human chromosomes by using chromosome-specific alpha satellite DNA probes: implications for development of centromere-based genetic linkage maps. 301 9

Not all doctors would understand the statement "linkage is now established between a DNA marker and the locus for adult polycystic kidney disease at a recombination fraction of 5%". Yet over the next few years increasing numbers of DNA markers linked to single-gene disorders will become available and clinicians will need to identify patients who could benefit from this knowledge.
...
PMID:Genetic linkage. 301 85

Cloned DNA markers which are closely linked to the gene defect causing cystic fibrosis have recently been described. These markers are sufficiently informative for carrier detection in 80% of families where there is a living cystic fibrosis child and unaffected sibs. The tightly linked DNA marker pJ3.11 was used in this study to identify carriers in six families and exclude carrier status in two subjects. Risk calculations for recessive diseases using linked DNA probes may be complex, but useful information for counselling can be obtained in this way.
...
PMID:Cystic fibrosis carrier detection using a linked gene probe. 301 47

A molecular genetic approach employing polymorphic DNA markers has been used to investigate the role of chromosomal aberrations in meningioma, one of the most common tumors of the human nervous system. Comparison of the alleles detected by DNA markers in tumor DNA versus DNA from normal tissue revealed chromosomal alterations present in primary surgical specimens. In agreement with cytogenetic studies of cultured meningiomas, the most frequent alteration detected was loss of heterozygosity on chromosome 22. Forty of 51 patients were constitutionally heterozygous for at least one chromosome 22 DNA marker. Seventeen of the 40 constitutionally heterozygotic patients (43%) displayed hemizygosity for the corresponding marker in their meningioma tumor tissues. Loss of heterozygosity was also detected at a significantly lower frequency for markers on several other autosomes. In view of the striking association between acoustic neuroma and meningioma in bilateral acoustic neurofibromatosis and the discovery that acoustic neuromas display specific loss of genes on chromosome 22, we propose that a common mechanism involving chromosome 22 is operative in the development of both tumor types. Fine-structure mapping to reveal partial deletions in meningiomas may provide the means to clone and characterize a gene (or genes) of importance for tumorigenesis in this and possibly other clinically associated tumors of the human nervous system.
...
PMID:Molecular genetic approach to human meningioma: loss of genes on chromosome 22. 303 50

Three polymorphic DNA markers linked to the locus of Norrie disease were used for indirect genotype analysis in a ten-wk-old fetus at risk for the disease. When haplotypes of the family members and the estimated recombination frequency between Norrie gene and each of the DNA marker loci DXS7, DXS84, and DXS146 were taken into account, the risk that the fetus had inherited the mutation was about 1%.
...
PMID:Prenatal exclusion of Norrie disease with flanking DNA markers. 306 91


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---