The fragile X syndrome in a large family. III. Investigations on linkage of flanking DNA markers with the fragile site Xq27

In a large family with the fragile X syndrome, we performed linkage investigations with six probes, detecting RFLPs at both sides of the fragile site Xq27. The nearest flanking markers were cX55.7 (DXS105) on the centromeric side (theta = 0.04, lod 5.0) and St14 (DXS52) on the telomeric side (theta = 0.08, lod 4.0). Non-penetrance could be shown by the presence of the grandpaternal X chromosome in three mentally retarded fra(X) positive males. A second non-penetrant male in this family had inherited an abnormal grandmaternal X chromosome. His carrier mother had two retarded fra(X) positive brothers. Intermediate between the non-penetrant and fully penetrant males was a non-retarded male, who expressed the fragile site in 6% of his cells. His X chromosome showed the same polymorphisms as were found in his seven severely retarded brothers. In five fra(X) negative females the presence of an abnormal X chromosome could be demonstrated. Despite the existence of non-penetrance in this pedigree, there was no close linkage between a factor IX polymorphism and the fragile site (theta = 0.16, lod 1.9). However, in six descendants of a non-penetrant male, the change to penetrance appeared to be accompanied by a low recombination frequency for flanking markers.

Efficient isolation of X chromosome-specific single-copy probes from a cosmid library of a human X/hamster hybrid-cell line: mapping of new probes close to the locus for X-linked mental retardation

We isolated X-chromosomal DNA probes from a cosmid library constructed from a single human X/hamster hybrid-cell line (C12D). One hundred human clones were isolated and used to construct a pool of X-chromosomal DNA. This DNA was digested into 0.15-2-kb fragments and subcloned into plasmids allowing the rapid characterization of new single-copy probes. These were regionally mapped and used for the detection of restriction-site polymorphisms. Together with a series of subcloned probes from individually isolated cosmids, we found seven polymorphic probes among 53 tested. Thirty-one of the probes were physically localized to different regions of the X chromosome. Four polymorphic probes map to Xq27-Xq28: DXS102 (cX38.1), DXS105(cX55.7), DXS107(cpX234), and DXS134(cpX67). These were genetically mapped by multipoint analysis relative to previously characterized loci, a mapping that resulted in the following order: DXYS1, DXS107, DXS51/DXS102, F9, DXS105, Fra-X, F8/DXS52, DXS15, DXS134. The mapping of DXS105 between F9 and Fra-X makes this probe useful for Fra-X analysis. For the linkage between FraX and DXS105, a maximum lod score of 5.01 at 4 cMorgans has been obtained in one large Dutch pedigree.

DNA probe analysis for carrier detection and prenatal diagnosis of Duchenne muscular dystrophy: a standard diagnostic procedure

Thirteen marker loci localised on the short arm of the X chromosome are available for use in genetic studies for Duchenne muscular dystrophy (DMD). This large number of probes detecting about 20 RFLPs encouraged us to set up a standard procedure using a sequence of selected probes and restriction enzymes for the diagnosis of DMD families. The application of DNA probe analysis for carrier detection and prenatal diagnosis, involving 61 pedigrees of both familial and isolated cases, has yielded the following results. Carrier detection using flanking markers was possible in more than 75% of the cases (104 out of 136 females) with a reliability of better than 98%. Prenatal diagnosis was possible in 95% of the cases (65 out of 68 proven carriers or women at risk). Twenty-three prenatal diagnoses were performed on male fetuses; 13 appeared to have a low risk for DMD (less than 1%) and thus the pregnancies continued. Seven have since come to term and the male infants have normal CK levels. The genetic distances of the loci relative to the DMD locus and their order on the short arm of the X chromosome were deduced from our total DMD family material and are not significantly different from those reported earlier. For 754 (DXS84) we found a genetic distance of 5 cM with a lod score of +12.4 and 95% confidence limits between 2 and 12 cM. Similar data were obtained for pERT87 (DXS164), suggesting that in our family material both loci are tightly linked. Multiply informative recombination showed that both 754 and pERT87 map proximal to the DMD mutations in the cases studied. The high frequency of DMD mutations and its relation to the observed instability in this part of the genome will be discussed. Unequal crossing over is proposed as one of the mechanisms contributing to the high mutation frequency.

A physical map of 4 million bp around the Duchenne muscular dystrophy gene on the human X-chromosome

Employing pulsed field gradient electrophoresis, we constructed a 4.5 million bp (Mb) Sfil restriction map of the human X-chromosomal region p21, harboring genes for Duchenne (DMD) and Becker Muscular Dystrophy. In a DMD patient with additional chronic granulomatosis and retinitis pigmentosa, the proximal 3.5 Mb is deleted. Another DMD patient, with additional glycerol kinase deficiency and adrenal hypoplasia, lacks at least 3.3 Mb in the middle region, including marker C7 but not B24, placing C7 closer to DMD. Another DMD patient has a partial pERT-87 deletion of minimally 140 kb. Truncated Sfil fragments in a female X:21 translocation patient place the junction probe XJ1.1 115 kb from the distal end of the normal fragment. Probe pERT-84 maps to the same fragment, within 750 kb of XJ1.1.

Development of additional RFLP probes near the locus for Duchenne muscular dystrophy by cosmid cloning of the DXS84 (754) locus

We have isolated 70kb of sequences surrounding probe 754 (DXS84), linked with Duchenne muscular dystrophy. In addition to the original PstI RFLP detected by 754, BglII and EcoRI RFLPs were detected with the single copy subclone 754.11 and a HindIII RFLP with the subclone 754.6. The BglII and HindIII and HindIII RFLPs both have minor allele frequencies of 40%, as in PstI polymorphism. The EcoRI polymorphism has a minor allele frequency of 23%. Since a linkage disequilbrium is observed between these RFLPs (P less than 0.001), the BglII and the HindIII RFLPs do not contribute to the heterozygosity. However, the minor allele of the EcoRI RFLP segregates exclusively with the major haplotype of the PstI-BglII-HindIII complex, and consequently 47% of the homozygotes for the haplotype become heterozygous. As a result, the overall heterozygote frequency of the DXS84 locus increases from 50% to 65%.

Isolation of a random cosmid clone, cX5, which defines a new polymorphic locus DXS148 near the locus for Duchenne muscular dystrophy

We have isolated a random cosmid cX5 (DXS148), which maps into a small Xp21 deletion associated with Duchenne muscular dystrophy (DMD), chronic granulomatous disease (CGD), retinitis pigmentosa (RP) and McLeod syndrome, cX5 maps proximally outside several other deletions associated with DMD, glycerol kinase deficiency (GK) and adrenal hypoplasia (AHC). The following order of loci is proposed: centromere-OTC-cX5 (DXS148)-754 (DXS84)-PERT87 (DXS164)/DMD-telomere. A subclone cX5.7, isolated from this cosmid, identifies an MspI RFLP, with a minor allele frequency of 35%. This probe forms an important adjunct to the existing RFLPs for family studies in Duchenne muscular dystrophy.

The X chromosome shows less genetic variation at restriction sites than the autosomes

Using a standard technique, 122 single-copy probes were screened for their ability to detect restriction fragment length polymorphisms (RFLPs) in the human genome. The use of a standardized RFLP screening enables the introduction of statistical methods in the analysis of differences in RFLP content between chromosomes and enzymes. RFLPs were detected from panels containing at least 17 unrelated chromosomes, digested with TaqI, MspI, BglII, HindIII, EcoRI, and PstI. Forty autosomal probes, representing a sample of 2,710 base pairs (bp) per haploid genome, were tested, and 24 RFLPs were found. With 82 X-chromosomal probes, 17 RFLPs were found in 6,228 bp per haploid genome. The frequency of X-chromosomal RFLPs is three times less than that of the autosomes; this difference is highly significant (P = less than .001). The frequency of RFLPs revealed by various restriction enzymes and the possibility that the X chromosome is a "low mutation" niche in the human genome are discussed.

An anonymous single copy chromosome 22 clone, D22S10 (22c1-18) identifies an RFLP with PstI

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Human X chromosome markers and Duchenne muscular dystrophy

Two DNA markers, a random DNA fragment 754 and the cDNA sequence encoding the gene for ornithine transcarbamylase (OTC) have been studied in kindreds segregating for Duchenne muscular dystrophy. 754 and OTC are located close physically to the mutation in the region Xp21 below the breakpoints in two Duchenne females. The genetic distance was found to be approximately 10cM between 754 and DMD (two crossovers in 26 meioses) and to be approximately 10cM between OTC and DMD (two crossovers in 26 meioses). Physical data suggest the order DMD-754-OTC. The frequency of recombination compared to physical distance between these markers and DMD suggests that there may be a hot spot of recombination. The relevance of these observations for the isolation of the DMD mutation and clinical use of these probes is discussed.

Prenatal diagnosis and carrier detection of Duchenne muscular dystrophy with closely linked RFLPs

By the use of a series of closely linked DNA probes detecting restriction fragment length polymorphisms (RFLPs) distributed over the short arm of the X chromosome, a double crossover was detected in a Duchenne muscular dystrophy carrier and an affected male fetus was diagnosed at 12 weeks of gestation, with a probable accuracy of more than 99.0%. A new mutation was identified in another family with the same degree of reliability; three females in this family were thus deemed not to be DMD carriers. The eleven RFLP-markers presently available on the short arm of the X chromosome are useful in the diagnosis of DMD since they bridge the Duchenne locus at genetic distances varying between 3 and 20 cmo. Moreover, recombination within the set of markers provides an independent way of regionally mapping these probes relative to each other along the short arm of the X chromosome.

Minor Xp21 chromosome deletion in a male associated with expression of Duchenne muscular dystrophy, chronic granulomatous disease, retinitis pigmentosa, and McLeod syndrome

We are reporting a male patient who suffered from chronic granulomatous disease associated with cytochrome b-245 deficiency and McLeod red cell phenotype, Duchenne muscular dystrophy, and retinitis pigmentosa. On cytogenetic analysis, he seemed to have a very subtle interstitial deletion of part of band Xp21. Since it was impossible to know whether this material was truly deleted or inserted elsewhere in the genome, somatic cell and molecular studies were carried out. In somatic cell hybrids, the deleted X chromosome was isolated on a Chinese hamster background. Southern blot analysis with 20 single-copy probes, that had been mapped to the X short arm, led to the discovery of one (probe 754) that is missing from this patient's X chromosome and also from his total DNA. This proves that he, indeed, has a deletion rather than a balanced insertion. The results provide cytological mapping information for the X-linked phenotypes present in this patient. Furthermore, probe 754 recognizes a restriction fragment length polymorphism of high frequency that makes it the most powerful probe currently available for linkage studies with X-linked muscular dystrophy.

Studies on the structure of cointegrates between octopine and nopaline Ti-plasmids and their tumour-inducing properties

Stable cointegrates between incRh-1 octopine (Ach5) and nopaline (C58) Ti-plasmids, present in ten independently isolated Agrobacterium tumefaciens strains, showed identical restriction endonuclease patterns. Each cointegration event had taken place in the common sequence between the T-regions of both Ti-plasmids. This illustrates a high preference for this region when used in the formation of cointegrates. Four crown gall tissues, obtained after transformation of Nicotiana tabacum cells by one of the mutants, were analysed by using Southern blot analysis for their T-DNA structure. The borders of T-DNA frequently appeared to differ from T-DNA borders previously detected in tumour tissues that had been induced by Agrobacterium strain C58 or Ach5. Therefore, it was concluded that possibly a less stringent mechanism exists for the integration into plant DNA of T-DNA, derived from a composite (octopine/nopaline) T-region than for integration of T-DNA from a normal (octopine or nopaline) T-region.