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

Although a number of human genes that cause disease have been traced through the defective product, most genetic defects are recognized only by phenotype. When the biochemical defect is unknown, a gene can be located only through molecular approaches based on coinheritance (genetic linkage) of the disease phenotype with a particular allele of a polymorphic DNA marker that has already been mapped to a specific chromosomal region. Linkage studies in affected families have already localized genes for several important diseases, including cystic fibrosis. Finding a genetic linkage in families in which a disease segregates requires that the human genetic map have a large number of polymorphic markers; when the map is dense enough, any disease gene can be located by linkage to a known marker. Many DNA segments with a high degree of polymorphism are being found and mapped as markers in normal reference pedigrees. Genetic linkage mapping has implications even broader than its application to prenatal diagnosis or therapeutic strategy; analyzing mutations in important genes will illuminate basic mechanisms in molecular biology and the early events that lead to cancer and other disorders.
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PMID:Mapping approaches to gene identification in humans. 347 70

Several multigenerational S-leut Hutterite families with cystic fibrosis (CF) were ascertained. Linkage studies with DNA marker loci MET and pJ3.11 (D7S8) were performed to determine whether (1) the CF gene in this inbred population is linked to DNA markers on chromosome 7, as it is in outbred populations of European origins, and (2) ancestral origin(s) of the CF gene could be determined. Our results indicate that the CF gene in Hutterite families segregates with chromosome 7 markers, identified by probes metH and pJ3.11. Thus, the CF mutation in Hutterites is likely to be either at the same locus as or at one closely linked to that reported in outbred populations. Heterozygous carriers could be distinguished from normal homozygous sibs of affected individuals. In the families studied, three different chromosome 7 haplotypes carried the CF mutation, raising the possibility that the CF gene may have been introduced into this population by as many as three different ancestors.
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PMID:Studies of cystic fibrosis in Hutterite families by using linked DNA probes. 347 2

Positional cloning involves first finding linkage between an inherited phenotype (such as a disease) and a DNA marker, followed by the use of a variety of physical and genetic mapping techniques to move from linkage to mutation. If there is a founder effect within a population, crossovers are often rare between the mutation causing the phenotype and closely situated markers and increasing disequilibrium may be observed as the site of the mutation is approached. Standard coefficients of disequilibrium may, however, be insensitive to the relative position of close markers and the mutation, because they depend upon allele frequencies in the normal population compared to those of the founder chromosome. Using cystic fibrosis in European populations as a model system, alternative methods for determining the position of a mutation are discussed. These include haplotype parsimony and three-way interval likelihood analysis. Both methods predict the location of the major CF mutation accurately from a real set of more than 600 European CF chromosomes.
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PMID:Haplotype analysis to determine the position of a mutation among closely linked DNA markers. 836 37

Burkholderia cepacia is a problematic pathogen that may spread among patients with cystic fibrosis (CF). One highly infectious CF strain that causes epidemics in both the United Kingdom and eastern Canada has been shown to possess both the cable pilin subunit gene (cblA) and a unique combination of insertion sequences. However, no genetic markers linking this strain type with other types epidemic at various centers have been identified. Using a randomly amplified polymorphic DNA (RAPD) typing scheme, we identified an apparently conserved 1.4-kb fragment in the DNA fingerprint of epidemic B. cepacia strains. Conservation of the DNA marker among epidemic strains was demonstrated by Southern hybridization, and its prevalence was assessed in a collection of chromosomal DNAs extracted from 627 isolates representative of 132 RAPD-defined B. cepacia strain types. The marker was specifically associated with seven epidemic CF strains, was absent among nonepidemic strains infecting individual patients with CF, and rare among strains recovered from the natural environment. Only one of the seven epidemic CF strain types possessed DNA homologous to cblA. The RAPD marker was designated the "B. cepacia epidemic strain marker" (BCESM). Sequence analysis of chromosomal DNA corresponding to the 1.4-kb RAPD marker revealed the presence of a putative open reading frame (ORF) with significant homology to several negative transcriptional regulators; the ORF was designated the "epidemic strain marker regulator," or esmR. The BCESM DNA is the first genetic marker that has been identified to be specifically associated with and conserved among several epidemic B. cepacia strains which infect multiple patients with CF.
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PMID:Identification and characterization of a novel DNA marker associated with epidemic Burkholderia cepacia strains recovered from patients with cystic fibrosis. 915 33

Burkholderia cepacia is an opportunistic respiratory pathogen in cystic fibrosis patients. One highly transmissible and virulent clone belonging to genomovar IIIa expresses pili with unique cable morphology, which enable the bacterium to bind cytokeratin 13 in epithelial cells. The cblA gene, encoding the major pilin subunit, is often used as a DNA marker to identify potentially virulent isolates. The authors have now cloned and sequenced four additional genes, cblB, cblC, cblD and cblS, in the pilus gene cluster. This work shows that the products of the first four genes of the cbl operon, cblA, cblB, cblC and cblD, are sufficient for pilus assembly on the bacterial surface. Deletion of cblB abrogated pilus assembly and compromised the stability of the CblA protein in the periplasm. In contrast, deletion of cblD resulted in no pili, but there was no effect on expression and stability of the CblA protein subunit. These results, together with protein sequence homologies, predicted structural analyses, and the presence of typical amino acid motifs, are consistent with the assignment of functional roles for CblB as a chaperone that stabilizes the major pilin subunit in the periplasm, and CblD as the initiator of pilus biogenesis. It is also shown that expression of Cbl pili in Escherichia coli is not sufficient to mediate the binding of bacteria to the epithelial cell receptor cytokeratin 13, and that B. cepacia still binds to cytokeratin 13 in the absence of Cbl pili, suggesting that additional bacterial components are required for effective binding.
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PMID:Identification and molecular analysis of cable pilus biosynthesis genes in Burkholderia cepacia. 1268 38

A number of transmissible Pseudomonas aeruginosa strains have been identified which potentially constitute an emerging threat to patients with cystic fibrosis (CF). We sought to identify DNA markers that were specific to a transmissible P. aeruginosa CF clone and evaluate these probes on a large collection of genotypically distinct P. aeruginosa strains. Using subtractive DNA hybridization, in combination with analysis using the P. aeruginosa PAO1 genome chip, DNA markers specific for or absent from the Manchester transmissible CF strain (MA) were identified. Five subtractive DNA hybridization markers (MA15, MA18, MA21, MA22, and MA30) were found to be specific to strain MA and were located within a novel 13,318-bp genomic island, designated the MA island. The MA island encoded 18 genes and consisted of two bacteriophage-like regions; one region encoded the MA-specific subtractive hybridization markers, while the other bacteriophage-like region contained a Vibrio cholera-like toxin gene. Probes MA15, MA18, MA21, MA22, and MA30 were all found to be specific to strain MA when a collection of 141 P. aeruginosa strains was examined by hybridization with each DNA marker. In contrast, a previously isolated DNA marker for the Liverpool transmissible CF strain, PS21, was not found to be specific, detecting two additional strain types in the collection screened. Both the Manchester and Liverpool strain types were not encountered in CF populations outside the United Kingdom. The MA genomic island and Vibrio cholera-like toxin gene within it constitute novel genetic factors associated with a transmissible P. aeruginosa strain and their role in pathogenesis remains to be determined.
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PMID:Identification of DNA markers for a transmissible Pseudomonas aeruginosa cystic fibrosis strain. 1583 46


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