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

Paragangliomas of the head and neck are slow growing tumors which rarely show malignant progression. Familial transmission has been described consistent with an autosomal dominant mode of inheritance. Clinical manifestations of hereditary paragangliomas are determined by the sex of the transmitting parent. All affected individuals have inherited the disease gene from their father, expression of the phenotype is not observed in the offspring of an affected female until subsequent transmittance of the gene through a male carrier. This finding strongly suggests that genomic imprinting is involved. We report the results of a linkage study on a large Dutch pedigree with hereditary paragangliomas. Highly significant evidence for genetic linkage to chromosome 11q23-qter with the anonymous DNA marker D11S147 was detected with a peak lod score of 6.0 at a recombination fraction theta = 0.0. Likelihood calculations yielded an odds ratio of 2.7 x 10(6) in favor of genomic imprinting versus the absence of genomic imprinting.
Hum Mol Genet 1992 Apr
PMID:A gene subject to genomic imprinting and responsible for hereditary paragangliomas maps to chromosome 11q23-qter. 130 Nov 44

Female birds can be identified through the presence of a W-chromosome. We describe a procedure for amplifying a W-linked DNA marker in the starling (Sturnus vulgaris) by the polymerase chain reaction (PCR) so allowing the diagnosis of sex in this species. The technique is sensitive, allowing even the smallest chicks to be sexed from a blood sample. The method possesses a positive internal control to ensure accuracy. It is also applicable to the spotless starling (S. unicolor) but not to two bird species outside the genus. The nucleotide sequence of the female-specific PCR product is given.
Mol Ecol 1992 Oct
PMID:The identification of sex in the starling Sturnus vulgaris using a molecular DNA technique. 134 95

In cultivated beet no useful level of resistance of the beet cyst nematode (BCN) Heterodera schachtii Schm. has been found, unlike the situation in wild species of the section Procumbentes. Stable introgression of resistance genes from the wild species into Beta vulgaris has not been achieved, but resistant monosomic additions (2n = 18 + 1), diploids of B. vulgaris with an extra alien chromosome carrying the resistance locus, have been obtained. Here we describe a new series of resistant monosomic fragment addition material of B. patellaris chromosome 1 (pat-1). We further describe the cloning of a single-copy DNA marker that specifically hybridizes with a monosomic addition fragment of approximately 8 Mb (AN5-90) carrying the BCN resistance locus. This marker and another fragment-specific, single-copy DNA marker probably flank the BCN locus on the addition fragment present in the AN5-203 material, which is approximately 19 Mb in size. Furthermore, several specific repetitive DNA markers have been isolated, one of which hybridizes to AN5-90 and also to DNA from a smaller DNA segment of Beta procumbens, present in line B883, carrying a BCN resistance locus introgressed into the B. vulgaris genome. This suggests that the specific repetitive marker is closely linked to the BCN locus.
Mol Gen Genet 1992 Nov
PMID:Isolation of DNA markers linked to a beet cyst nematode resistance locus in Beta patellaris and Beta procumbens. 146 14

The search for the Huntington's disease (HD) gene has prompted construction of a complete long-range restriction map of a 2.5-Mb candidate region, distal to the DNA marker D4S10. To facilitate the procurement of cloned DNA from this candidate region, we have augmented the existing regional mapping panel of somatic cell hybrids with hybrid HHW1071 containing a t(4p16;12) chromosome from a patient with Wolf-Hirschhorn syndrome. This translocation maps between D4S180 and D4S127, subdividing the HD candidate region and setting a proximal limit to the Wolf-Hirschhorn syndrome region. Using the expanded mapping panel, we have regionally assigned 14 independently cloned cosmids, five proximal to the t(4;12) breakpoint in the same region as D4S10 and nine distal to the breakpoint. By a combination of overlap with previously mapped cosmids and pulsed-field gel analysis, each of these cosmids has been positioned on the long-range restriction map of 4p16.3, increasing the clone coverage of the candidate region to approximately 40%. Single-copy probes from mapped cosmids were used to identify eight new DNA polymorphisms spanning the HD candidate region. These new DNA markers should prove valuable for analysis of recombination and linkage disequilibrium in HD, as well as for preclinical diagnosis of the disorder.
Somat Cell Mol Genet 1991 Sep
PMID:New DNA markers in the Huntington's disease gene candidate region. 168 79

Using two random DNA markers, and pulsed field gel electrophoresis, a 1.5-Mb physical map surrounding the 11p13 aniridia locus (AN2) has been assembled. The map was constructed using a combination of single- and double-restriction digests on DNA from normal controls and a patient transmitting familial aniridia. The aniridia patient has a chromosome translocation and the two DNA markers flank the breakpoint. This 11p13 breakpoint lies no further than 100 kb from the DNA marker 1104 (D11S95), located on the centromeric side of the breakpoint. Two CpG islands, separated by 550 kb and flanking the translocation, suggest an upper limit to the size of the gene.
Somat Cell Mol Genet 1989 Nov
PMID:Long-range restriction map around 11p13 aniridia locus. 255 2

A portion of a cDNA clone corresponding to the 3' end of the human quinonoid dihydropteridine reductase (QDPR) mRNA was used as a probe to physically map the QDPR gene by analysis of somatic cell hybrid lines. The provisional assignment of QDPR to chromosome 4, based on expression of the human enzyme in hybrids, was confirmed. The gene was further regionally localized on the short arm to 4p16.1----4p15.1. This physical localization places QDPR in the same area of the genome that contains the defect causing Huntington's disease (HD). The QDPR probe revealed a restriction fragment length polymorphism with the enzyme BanII, permitting determination of its genetic proximity to D4S10, an anonymous DNA marker tightly linked to HD. QDPR is only loosely linked to D4S10, excluding any primary role for the gene in HD.
Somat Cell Mol Genet 1987 Sep
PMID:Physical and genetic localization of quinonoid dihydropteridine reductase gene (QDPR) on short arm of chromosome 4. 288 72

We have examined the phylogenetic distribution of two t-specific markers among representatives of various taxa belonging to the genus Mus. The centromeric TCP-1a marker (a testicular protein variant specific for all t-haplotypes so far studied) has also been apparently detected in several non-t representatives of the Mus IVA, Mus IVB, and probably M. cervicolor species. By contrast, a t-specific restriction-fragment-length polymorphism allele (RFLP) of the telomeric alpha-globin pseudogene DNA marker alpha-psi-4 was found only in animals belonging to the M. musculus-complex species either bearing genuine t-haplotypes or, like the M. m. bactrianus specimen studied here, likely to do so. This t-specific alpha-psi-4 RFLP allele was found to be as divergent from the RFLP alleles of the latter, non-t, taxonomical groups as it is from Mus 4A, Mus 4B, or M. spretus ones. These results suggest the presence of t-haplotypes and of t-specific markers in populations other than those belonging to the M. m. domesticus and M. m. musculus subspecies, implying a possible origin for t-haplotypes prior to the radiation of the most recent offshoot of the Mus genus (i.e., the spretus/domesticus divergence), some 1-3 Myr ago.
Mol Biol Evol 1988 Mar
PMID:Phylogenetic distribution in the genus Mus of t-complex-specific DNA and protein markers: inferences on the origin of t-haplotypes. 289 63

Upon superinfection of immune (lysogenic) cells with bacteriophage Mu, a form of Mu DNA accumulates that sediments about twice as fast as the linear phage DNA marker in neutral sucrose gradients. This form is also detected upon infection of sensitive cells with Mu. We have purified it and examined its physical nature. Under the electron microscope it appears circular and supertwisted. Upon treatment with Pronase, phenol or sodium dodecyl sulfate, however, it is converted to a linear Mu-length form, indicating that the circle is not covalently closed. The linear DNA still has heterogeneous host sequences at its termini. The circular DNA is resistant to the action of Escherichia coli exonuclease III and T7 exonuclease, but becomes sensitive to these nucleases after treatment with Pronase showing the presence of a protein that binds non-covalently to the ends of the DNA to circularize it as well as protect it from digestion with exonucleases. The complex is resistant to high salt (up to 6 M-NaCl) but can undergo transitions between forms that are partially open, open circular, linear and circular dimers and trimers. Examination of DNA from mature phage particles reveals that a circular DNA species is present in at least 0.1 to 1% of the population. The purified complex is extremely efficient in transfection of E. coli spheroplasts. We estimate the molecular weight of the protein in this DNA-protein complex to be approximately 64,000, and suggest that this complex might represent the integrative precursor of infecting Mu DNA.
J Mol Biol 1983 Jun 25
PMID:Infecting bacteriophage mu DNA forms a circular DNA-protein complex. 630 60

This paper describes a knowledge-based system for molecular diagnostics, and its application to fully automated diagnosis of X-linked genetic disorders. Molecular diagnostic information is used in clinical practice for determining genetic risks, such as carrier determination and prenatal diagnosis. Initially, blood samples are obtained from related individuals, and PCR amplification is performed. Linkage-based molecular diagnosis then entails three data analysis steps. First, for every individual, the alleles (i.e., DNA composition) are determined at specified chromosomal locations. Second, the flow of genetic material among the individuals is established. Third, the probability that a given individual is either a carrier of the disease or affected by the disease is determined. The current practice is to perform each of these three steps manually, which is costly, time consuming, labor-intensive, and error-prone. As such, the knowledge-intensive data analysis and interpretation supersede the actual experimentation effort as the major bottleneck in molecular diagnostics. By examining the human problem solving for the task, we have designed and implemented a prototype knowledge-based system capable of fully automating linkage-based molecular diagnostics in X-linked genetic disorders, including Duchenne Muscular Dystrophy (DMD). Our system uses knowledge-based interpretation of gel electrophoresis images to determine individual DNA marker labels, a constraint satisfaction search for consistent genetic flow among individuals, and a blackboard-style problem solver for risk assessment. We describe the system's successful diagnosis of DMD carrier and affected individuals from raw clinical data.
Proc Int Conf Intell Syst Mol Biol 1994
PMID:Intelligent DNA-based molecular diagnostics using linked genetic markers. 758 9

A noncoding nuclear DNA marker sequence (Cpn1-1) was used to investigate subdivision in the grasshopper Chorthippus parallelus and deduce postglacial expansion patterns across its species range in Europe. Investigation of the spatial distribution of 71 Cpn1-1 haplotypes and estimation of levels of genetic differentiation (KST values) between populations and geographic regions provided evidence for subdivision of C. parallelus into at least five major geographic regions and indicated that the French form of C. parallelus originated after range expansion from a Balkan refugium. Further evidence for subdivision of C. parallelus between Italy and northern Europe suggests that the Alps may have formed a significant barrier to gene flow in this grasshopper.
Mol Ecol 1995 Feb
PMID:Postglacial expansion and genome subdivision in the European grasshopper Chorthippus parallelus. 771 54


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