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)

It is now widely accepted that human neoplasms arise as a result of a sequence of mutations affecting the structure of genes involved in growth control. In humans, indirect measurements based on age dependent tumor incidence predict that, on average, the accumulation of 5 to 6 different steps is needed to initiate tumor formation. These mutations do not appear to be random, in that certain neoplasms show prediction for structural aberrations in specific genes. In thyroid tumors, some of gene abnormalities were found. The point mutations of ras oncogenes, predominantly H-ras codon 12, are found in 20-25% of follicular adenomas and papillary carcinomas. Recently, the gene rearrangements of the oncogenes trk and ret were identified in the DNA from papillary carcinomas. About 25% of papillary carcinomas contained an introchromosomal (10q) gene rearrangement involving the tyrosine kinase domain of the ret oncogene with an unknown amino-terminal sequence. The mutations of trk and/or ret were not observed in other thyroid neoplastic phenotypes. In medullary thyroid carcinoma, which is a tumor of the parafollicular, calcitonin-secreting C cell of the thyroid, approximately 20% of patients have autosomal dominant inherited forms. Germ line abnormalities on chromosome 10 are linked to at least one type of genetic medullary thyroid carcinoma (MEN type 2a). In the present time, the person who has the abnormality of gene causing MEN type 2a is able to detect by using DNA marker before the onset of tumor.
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PMID:[Thyroid carcinoma]. 198 98

The gene causing cystic fibrosis (CF) has been recently cloned, and the major mutation (delta F508) accounting for approximately 70% of CF chromosomes has been uncovered. We have identified at the 3' end of intron 6 in the CF gene a 4-bp tandem repeat (GATT) that exhibits interesting features. First, PCR screening of 103 normal individuals revealed that the repeat exists only in two polymorphic allelic forms, either as a hexamer or a heptamer. These two alleles are in Hardy-Weinberg equilibrium and predict a heterozygote frequency of 41% (p[seven repeats] = .71; q [six repeats] = .29). Second, the allele with six repeats was found linked to delta F508 on all 76 CF chromosomes investigated, demonstrating strong linkage disequilibrium and suggesting that delta F508 had originated on the gene bearing six repeats. Third, when the repeat alleles are linked to the DNA markers XV2c and KM19, extended haplotypes are generated. These new haplotypes become informative in situations in which prenatal diagnosis cannot be performed solely with XV2c and KM19. Since this repeat marker is located in the CF gene and would be very less likely to recombine with the gene, it can serve as a valuable DNA marker for haplotype analysis. A possible crossover, however, was identified between XV2c and KM19, transferring delta F508 to a different haplotype.
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PMID:A dimorphic 4-bp repeat in the cystic fibrosis gene is in absolute linkage disequilibrium with the delta F508 mutation: implications for prenatal diagnosis and mutation origin. 199 Aug 33

Lymphocyte karyotyping of an infant girl with the clinical features of microphthalmia, iridoschisis, goiter, hip joint dysplasia, labium synechia and craniotabes revealed an Xp deletion. The lymphocyte karyotypes of the parents were normal. Bromodeoxyuridine incorporation studies showed that, in 42 out of 43 metaphases, the deleted X chromosome was late replicating. In one metaphase, the normal X chromosome was observed to be allocyclic. Using DNA markers from the Xp22 region, the breakpoint was assigned distal to DXS16 (pXUT23) and proximal to DXS143 (dic56). Dosage intensity measurements confirmed that the STS gene and the DNA marker DXS31 were involved in the deleted area. Restriction fragment length polymorphism analysis revealed that the paternally derived X-chromosome was deleted.
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PMID:Physical mapping of two Xp markers DXS16 and DXS143. 199 47

We have examined the linkage of two new polymorphic DNA markers (D19S62 and D19S63) and a previously unreported polymorphism with an existing DNA marker (ERCC1) to the myotonic dystrophy (DM) locus. In addition, we have used pulsed-field gel electrophoresis to obtain a fine-structure map of this region. The detection of linkage disequilibrium between DM and one of these markers (D19S63) is the first demonstration of this phenomenon in a heterogeneous DM population. The results suggest that at least 58% of DM patients in the British population, as well as those in a French-Canadian subpopulation, are descended from the same ancestral DM mutation. We discuss the implications of this finding in terms of strategies for cloning the DM gene, for a possible role in modification of risk for prenatal and presymptomatic testing, and we speculate on the origin and number of existing mutations which may result in a DM phenotype.
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PMID:Detection of linkage disequilibrium between the myotonic dystrophy locus and a new polymorphic DNA marker. 206 78

We present a large kindred that contained patients with either adrenoleukodystrophy (ALD) or adrenomyeloneuropathy (AMN). The pedigree clearly supported the X-linked mode of inheritance of the nonneonatal form of ALD/AMN. Analysis with DNA markers at Xq28 suggested segregation of both ALD and AMN with an identical haplotype. This indicated that nonneonatal ALD and AMN are caused by a mutation in the same gene at Xq28. It showed, furthermore, that phenotypic differences between ALD and AMN are not necessarily the consequence of allelic heterogeneity due to different mutations within the same gene. The maximal lod score for linkage of the ALD/AMN gene and the multiallelic anonymous DNA marker at DXS52 was 3.0 at a recombination fraction of 0.00. This made a prenatal or presymptomatic diagnosis and heterozygote detection by DNA analysis with this marker reliable.
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PMID:Linkage of DNA markers at Xq28 to adrenoleukodystrophy and adrenomyeloneuropathy present within the same family. 216 Dec 9

Additional mutations in the cystic fibrosis (CF) gene were identified in the regions corresponding to the two putative nucleotide (ATP)-binding folds (NBFs) of the predicted polypeptide. The patient cohort included 46 Canadian CF families with well-characterized DNA marker haplotypes spanning the disease locus and several other families from Israel. Eleven mutations were found in the first NBF, 2 were found in the second NBF, but none was found in the R-domain. Seven of the mutations were of the missense type affecting some of the highly conserved amino acid residues in the first NBF; 3 were nonsense mutations; 2 would probably affect mRNA splicing; 2 corresponded to small deletions, including another 3-base-pair deletion different from the major mutation (delta F508), which could account for 70% of the CF chromosomes in the population. Nine of these mutations accounted for 12 of the 31 non-delta F508 CF chromosomes in the Canadian families. The highly heterogeneous nature of the remaining CF mutations provides important insights into the structure and function of the protein, but it also suggests that DNA-based genetic screening for CF carrier status will not be straightforward.
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PMID:Identification of mutations in regions corresponding to the two putative nucleotide (ATP)-binding folds of the cystic fibrosis gene. 223 53

The number of DNA synthesizing mast cells in experimental induced wounds was calculated using bromodeoxyuridine as a DNA marker and naphthol AS-D chloroacetate esterase as a mast cell marker. After different survival times, specimens of the wound edge were taken before death and 24 hs after death. At a survival time of 48 hs in vital biopsy the number of DNA synthesizing mast cells peaked, at 72 hs and fell after a period of 8 days. Even though an identical kinetic course was demonstrable in cases of postmortal biopsies the percentage at each survival period was significantly lower than in vital biopsies.
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PMID:[Quantitative studies of mast cell proliferation at the wound edge --rate of DNA synthesis in intravital and postmortem biopsy]. 224 3

Two families in which the gene for the common, autosomal dominant form of polycystic kidney disease (PKD1) was present were examined using flanking DNA markers. The 5'HVR probe detects a linked DNA marker 8 map units distal to the PKD1 gene in males and 1 unit distal to the PKD1 gene in females. The 24-1 probe detects another linked DNA marker 4 map units proximal to the PKD1 gene in males and 0.5 map units proximal to the PKD1 gene in females. When each marker is informative they can be used as a pair flanking the disease gene to follow accurately its transmission through families for presymptomatic or prenatal prediction. For an asymptomatic individual tested in one family, DNA studies reduced the 50% prior risk of carrying the disease gene to 0.006%. An affected woman in a second family was shown to be fully informative for the flanking markers. In a future pregnancy, it will be possible to modify the 50% prior fetal risk to either 0.008% or 99.99% depending on which maternal chromosome 16 is transmitted, and provided that no cross-over occurs between the flanking markers (probability, 1.5%).
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PMID:Predictive diagnosis for polycystic kidney disease using DNA markers. 231 26

The presence or absence of the major cystic fibrosis (CF) mutation, delta F508, in the general patient population was determined by Kerem et al. using allele-specific oligonucleotides for the mutant and normal sequences in the polymerase chain reaction (PCR). delta F508 was identified by Riordan et al., and it is a 3-bp deletion of the phenylalanine codon at position 508. The Hutterite Brethren are an inbred North American population who have three different DNA marker haplotypes of CF chromosomes. Genomic DNA from both a CF child and one parent from each of 10 Hutterite families was analyzed for the presence or absence of the deletion mutation. delta F508 is associated with one of the three CF haplotypes in the Hutterite population, and this is the most common haplotype in a subset of the linkage family data of Kerem et al. The other two Hutterite CF haplotypes are generally rate in Caucasian populations. Since these two CF haplotypes do not carry the deletion mutation, they must carry a different CF mutation(s). The results of the PCR analysis for the deletion mutation lend additional support to our previous conclusion that there were at least three original carriers of CF mutations among the founders of the Hutterite population and that all copies of the same CF haplotype were identical by descent. One Hutterite CF patient has both of the haplotypes which do not carry delta F508. Analysis of this individual's DNA should allow identification of two additional CF mutations in this population.
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PMID:Cystic fibrosis mutations in the Hutterite Brethren. 233 96

A DNA probe (D4S95) that detects a variable number of tandem repeats and a single-site-variation polymorphism after digestion with a single restriction enzyme, AccI, has previously been described. The order of this probe relative to the gene for Huntington disease (HD) and other previously described markers has not been established. Analysis of 24 affected families with HD has shown that D4S95 is in tight linkage with the gene causing HD, with a maximal Lod score of 12.489 at a theta of .03. D4S90 is a probe which maps to 4p16.3, telomeric to D4S95, and detects polymorphisms with HincII and other enzymes. In one affected person, recombination has occurred between D4S10 and HD, between D4S95 and HD, and in all likelihood also between D4S90 and HD, which strongly suggests that the gene for HD is telomeric to all these DNA probes. This suggests that the gene causing HD is located in the most distal region of the short arm of chromosome 4, flanked by D4S90 and the telomere, and supports the locus order D4S10-D4S95-D4S90-HD-telomere. D4S95 is a most useful DNA marker for predictive testing programs, while D4S90 will serve as a useful starting point for identifying DNA fragments closer to the gene for HD.
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PMID:Evidence from family studies that the gene causing Huntington disease is telomeric to D4S95 and D4S90. 252 71

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