Parental origin and germline mosaicism of deletions and duplications of the dystrophin gene: a European study

Summary Knowledge about the parental origin of new mutations and the occurrence of germline mosaicism is important for estimating recurrence risks in Duchenne (DMD) and Becker muscular dystrophy (BMD). However, there are problems in resolving these issues partly because not all mutations can as yet be directly detected, and additionally because genetic ratios are very sensitive to ascertainment bias. In the present study, therefore, analysis was restricted to currently detectable mutations (deletions and duplications) in particular types of families which tend to be rare. In order to obtain sufficient data we pooled results from 25 European centers. In mothers of affected patients who were the first in their family with a dystrophin gene deletion or duplication, the ratio between the paternal and the maternal origin of this new mutation was 32:49 (binomial test P = 0.075) for DMD. In five BMD families the ratio between paternal and maternal origin of new mutations was 32. Recurrence risk because of maternal germline mosaicism was studied in sisters or subsequent sibs of isolated cases with an apparently new detectable mutation. In 12 out of 59 (0.20; 95% CI 0.10–0.31) transmissions of the risk haplotype the DMD mutation was transmitted as well. No recurrences were found in nine BMD families.     

Mirror image duplications of chromosome 21. Three new cases and discussion of the mechanisms of origin

Summary Three new cases of mirror image duplication of a chromosome 21 are studied. In the first case the extra chromosome derived from a single paternal chromosome 21 by intrachromosomal interchange. The analysis of similar published cases suggests that this mechanism may predominate, but interchromosomal interchange, para- and pericentric inversion are likely as well.     

Fin duplications and deletions induced by disruption of retinoic acid signaling

 Retinoic acid (RA), a derivative of vitamin A, plays a critical role as a signaling molecule in axial patterning of vertebrates. Here we report that RA exposure of zebrafish (Danio rerio) and mummichog (Fundulus heteroclitus) embryos during gastrulation results in homeotic duplications of the pectoral fins in up to 94% of fish. We have observed three to four pairs of fins in an individual fish. Although some duplications are partial, many represent complete axial duplications of the pectoral girdle and fin and include coracoscapulae, proximal radials, and dermal fin elements. Fin duplications are observed only at a defined dose of RA. Inhibition of RA synthesis by exposure to citral during a narrow developmental window leads to fish which lack pectoral fins but can be rescued by addition of exogenous RA, suggesting that RA signaling is critical to fin specification during early development. The ability to consistently induce multiple fins in a large number of vertebrate embryos should contribute to the understanding of genetic regulation of the normal positioning of limbs during embryogenesis. Received: 30 August 1997 / Accepted: 6 December 1997     

Familial clustering of IGHC deletions and duplications: functional and molecular analysis

The human immunoglobulin heavy chain constant region locus (IGHC) comprises nine genes and two pseudogenes clustered in a 350 kilobase (kb) region on chromosome 14q32. Several IGHC haplotypes with single or multiple gene deletions and duplications have been characterized. The most likely mechanism accounting for these unusual haplotypes is the unequal crossing-over between homologous regions within the locus. Here we report the analysis of an unusual case of familial clustering of deletions/duplications. In the two branches of the BON family, three duplicated and two deleted haplotypes, all probably independent in origin, have been characterized. The structure of the haplotypes, one of which is described here for the first time, supports the hypothesis of homologous unequal crossing-over as the origin of recombinant haplotypes. The analysis of serological markers in a subject carrying one deleted and one duplicated haplotype allowed us the first direct inferences concerning the functions of the duplicated IGHC haplotypes.     

De novo deletions and duplications at recombination hotspots in mouse germlines

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Exon deletions and duplications in BRCA1 detected by semiquantitative PCR

rearrangements have recently been identified in the BRCA1 gene. Inclusion of a method for identifying such rearrangements should now be a prerequisite for providing a comprehensive mutation detection strategy. We have developed a semiquantitative PCR-based fluorescent assay for the detection of previously identified deletions. This method avoids the need for long PCR or Southern blotting and is suitable for large-scale epidemiological studies. The assay was used to screen 44 high-risk families within the U.K. Yorkshire Health Region. No deletions were detected, but five cases (11%) with an apparent duplication of exon 13 in BRCA1 were identified. The presence of this mutation was confirmed by long PCR. Further developments include extending the assay to include all exons of BRCA1.     

On the toleration of duplications and deletions by the Vicia faba genome

Summary From eight pairs of crosses between differently reconstructed diploid karyotypes of Vicia faba, the progeny after selfing of plants heterozygous for both parental chromosome reconstructions were inspected for occurrence and transmission of duplications and deletions of defined chromosome segments, comprising together about one third of the metaphase genome length. The duplications and deletions studied involved either one or more chromosome segments of the respective karyotype (0.8%–9.1% of the metaphase length). They arose during meiosis in double heterozygotes by crossing over between partially homologous chromosomes or by mis-segregation from multivalents. While most duplications, provided they were not accompanied by deletions and in dependence on the segment involved, were viable and transmissible, even in homozygous state, deletions had lethal effects on gametes of both sexes.     

Multiplex real-time PCR for detection of deletions and duplications in dystrophin gene

Genetic testing of Duchenne and Becker muscular dystrophies (DMD/BMD) is a difficult task due to the occurrence of deletions or duplications within dystrophin (DMD) gene that requires dose sensitive tests. We developed three multiplex quantitative real-time PCR assays for dystrophin exon 5, 45, and 51 within two major hotspots of deletion/duplication. Each exon was co-amplified with a reference X-linked gene and the copy number of the target fragment was calculated by comparative threshold cycle method (delta deltaC(t)). We compared the performance of this method with previously described end-point PCR fluorescent analysis (EPFA) by studying 24 subjects carrying DMD deletions or duplications. We showed that Q-PCR is an accurate and sensitive technique for the identification of deletions and duplications in DMD/BMD. Q-PCR is a valuable tool for independent confirmation of EPFA screening, particularly when deletions/duplications of single exons occur or for rapid identification of known mutations in at risk carriers.     

Pulsed-field electrophoresis screening for immunoglobulin heavy-chain constant-region (IGHC) multigene deletions and duplications.

Genome regions containing multiple copies of homologous genes, such as the immunoglobulin (Ig) heavy-chain constant-region (IGHC) locus, are often unstable and give rise to duplicated and deleted haplotypes. Analysis of such processes is fundamental to understanding the mechanisms of evolution of multigene families. In the IGHC region, a number of single and multiple gene deletions, derived from either unequal crossing-over or looping-out excision, have been described. To study these haplotypes at the population level, a simple and efficient method for preparing large numbers of DNA samples suitable for pulsed-field gel electrophoresis (PFGE) analysis was set up, and a sample of 110 blood donors was screened. Deletions were found to be frequent, as expected on the basis of previous serological surveys for homozygotes. Furthermore, a number of multigene duplications, never identified before, were detected. The total frequency of individuals bearing rearranged IGHC haplotypes was 10%. The genes involved in these deletions and duplications were assessed by densitometric analysis of standard Southern blots hybridized with several IGHC probes; two types of deletion and two types of duplication could thus be characterized. These data provide further evidence of the instability of the IGHC locus and demonstrate that unequal crossing-over is the most likely origin of rearranged IGHC haplotypes; they also suggest that such recombination events may be relatively frequent. Moreover, the simplicity and effectiveness of the large-scale PFGE screening approach will be of great help in the study of multigene families and of other loci involved in aberrant recombinations.     

Efficient algorithms for analyzing segmental duplications with deletions and inversions in genomes

Background  

Segmental duplications, or low-copy repeats, are common in mammalian genomes. In the human genome, most segmental duplications are mosaics comprised of multiple duplicated fragments. This complex genomic organization complicates analysis of the evolutionary history of these sequences. One model proposed to explain this mosaic patterns is a model of repeated aggregation and subsequent duplication of genomic sequences.     

Sites in the AAV5 capsid tolerant to deletions and tandem duplications

Gene therapy vectors based on adeno-associated virus (AAV) have shown much promise in clinical trials for the treatment of a variety of diseases. However, the ability to manipulate and engineer the viral surface for enhanced efficiency is necessary to overcome such barriers as pre-existing immunity and transduction of non-target cells that currently limit AAV applications. Although single amino acid changes and peptide insertions at select sites have been explored previously, the tolerance of AAV to small deletions and tandem duplications of sequence has not been globally addressed. Here, we have generated a large, diverse library of >10⁵ members containing deletions and tandem duplications throughout the viral capsid of AAV5. Four unique mutants were identified that maintain the ability to form viral particles, with one showing improved transduction on both 293T and BEAS-2B cells. This approach may find potential use for the generation of novel variants with improved and altered properties or in the identification of sites that are tolerant to insertions of targeting ligands.     

Analysis of intrachromosomal duplications in yeast Saccharomyces cerevisiae: a possible model for their origin

The complete genome of the yeast Saccharomyces cerevisiae was investigated for intrachromosomal duplications at the level of nucleotide sequences. The analysis was performed by looking for long approximate repeats (from 30 to 3,885 bp) present on each of the chromosomes. We show that direct and inverted repeats exhibit very different characteristics: the two copies of direct repeats are more similar and longer than those of inverted repeats. Furthermore, contrary to the inverted repeats, a large majority of direct repeats appear to be closely spaced. The distance (delta) between the two copies is generally smaller than 1 kb. Further analysis of these "close direct repeats" shows a negative correlation between delta and the percentage of identity between the two copies, and a positive correlation between delta and repeat length. Moreover, contrary to the other categories of repeats, close direct repeats are mostly located within coding sequences (CDSs). We propose two hypotheses in order to interpret these observations: first, the deletion/conversion rate is negatively correlated with delta; second, there exists an active duplication mechanism which continuously creates close direct repeats, the other intrachromosomal repeats being the result, by chromosomal rearrangements of these "primary repeats."     

Submicroscopic terminal deletions and duplications in retarded patients with unclassified malformation syndromes

Unbalanced submicroscopic subtelomeric chromosomal rearrangements represent a significant cause of unexplained moderate to severe mental retardation with and without phenotypic abnormalities. We investigated 254 patients (102 from Zürich, 152 from Liège) for unbalanced subtelomeric rearrangements by using fluorescence in situ hybridisation with probes mapping to 41 subtelomeric regions. Mental retardation combined with a pattern of dysmorphic features, with or without major malformations, and growth retardation and a normal karyotype by conventional G-banding were the criteria of inclusion. Selection criteria were more restrictive for the Zürich series in terms of clinical and cytogenetic pre-investigation. We found 13 unbalanced rearrangements and two further aberrations, which, following the investigation of other family members, had to be considered as variants without influence on the phenotype. The significant aberrations included three de novo deletions (two of 1pter, one of 5pter), three de novo duplications (8pter, 9pter, Xpter), one de novo deletion 13qter-duplication 4qter, and five familial submicroscopic translocations [(1q;18p), (2q;4p), (2p;7q), (3p;22q), (4q;10q), (12p;22q)], most of them with several unbalanced offspring with deletion-duplication. Although the incidence of abnormal results was higher (10/152) in the Liège versus the Zürich series (3/102), similar selection criteria in Zürich as in Liège would have resulted in an incidence of 7/106 and thus similar figures. In our series, submicroscopic unbalanced rearrangements explain the phenotype in 13/254 study probands. The most important selection criterion seems to be the presence of more than one affected member in a family. An examination of subtelomeric segments should be included in the diagnostic work-up of patients with unexplained mental retardation combined with physical abnormalities, when a careful conventional examination of banded chromosomes has yielded a normal result and a thorough clinical examination does not lead to another classification. The proportion of abnormal findings depends strongly on selection criteria: more stringent selection can eliminate some examinations but necessitates a high workload for experienced clinical geneticists. Once the costs and workload of screening are reduced, less selective approaches might finally be more cost-effective.     

Molecular analysis of male-viable deletions and duplications allows ordering of 52 DNA probes on proximal Xq.

While performing a systematic search for chromosomal microdeletions in patients with clinically complex X-linked syndromes, we have observed that large male-viable deletions and duplications are clustered in heterochromatic regions of the X chromosome. Apart from the Xp21 band, where numerous deletions have been found that encompass the Duchenne muscular dystrophy gene, an increasing number of deletions and duplications have been observed that span (part of) the Xq21 segment. To refine the molecular and genetic map of this region, we have employed 52 cloned single-copy DNA sequences from the Xcen-q22 segment to characterize two partly overlapping tandem duplications and two interstitial deletions on the proximal long arm of the human X chromosome. Together with a panel of somatic cell hybrids that had been described earlier, these four rearrangements enabled us to order the 52 probes into nine different groups and to narrow the regional assignment of several genes, including those for tapetochoroidal dystrophy and anhidrotic ectodermal dysplasia.     

Characterization of multiple circular RNAs derived from a plant viroid-like RNA by sequence deletions and duplications.

Northern blot hybridizations with a probe complementary to a 275-nt circular RNA isolated from carnation plants revealed that this RNA co-exists in vivo with minor amounts of other small circular RNAs. Sequencing of cDNA clones of nine RNA species demonstrated deletions and duplications of the predominant 275-nt RNA. Minor sequence heterogeneities were observed at the crossover sites. Deletions mapped to three arms of the cruciform structure of lowest free energy obtained previously for the parental 275-nt RNA, whereas repeats encompassed mostly regions of the arm where deletions were not found. Some of the deleted and duplicated regions corresponded to sequences forming part of the two hammerhead structures involved in the in vitro self-cleavage of the plus and minus strands of the 275-nt RNA. A copy choice model is proposed for the emergence of deletions and duplications, where the RNA polymerase with the nascent strand dissociates from the template at regions rich in secondary and possibly tertiary structures, and reinitiates synthesis at different upstream and downstream positions.     

Chromosome segment duplications in Neurospora crassa and their effects on repeat-induced point mutation and meiotic silencing by unpaired DNA

The size and extent of four Neurospora crassa duplications, Dp(AR17), Dp(IBj5), Dp(OY329), and Dp(B362i), was determined by testing the coverage of RFLP markers. The first three duplications were all > approximately 350 kb and have been shown in earlier studies to act as dominant suppressors of repeat-induced point mutation (RIP) in gene-sized duplications, possibly via titration of the RIP machinery. Dp(B362i), which is only approximately 117 kb long, failed to suppress RIP. RIP suppression in gene-sized duplications by large duplications was demonstrated using another test gene, dow, and supposedly applies generally. Crosses homozygous for Dp(AR17) or Dp(IBj5) were as barren as heterozygous crosses. Barrenness of the heterozygous but not the homozygous crosses was suppressible by Sad-1, a semidominant suppressor of RNAi-dependent meiotic silencing by unpaired DNA. A model is proposed in which large duplications recessively suppress semidominant Sad-1 mutations. The wild-isolated Sugartown strain is hypothesized to contain a duplication that confers not only dominant suppression of RIP but also a barren phenotype, which is linked (9%) to supercontig 7.118 in LG VII.     

Tempos of gene locus deletions and duplications and their relationship to recombination rate during diploid and polyploid evolution in the Aegilops-Triticum alliance

The origin of tetraploid wheat and the divergence of diploid ancestors of wheat A and D genomes were estimated to have occurred 0.36 and 2.7 million years ago, respectively. These estimates and the evolutionary history of 3159 gene loci were used to estimate the rates with which gene loci have been deleted and duplicated during the evolution of wheat diploid ancestors and during the evolution of polyploid wheat. During diploid evolution, the deletion rate was 2.1 x 10(-3) locus(-1) MY(-1) for single-copy loci and 1.0 x 10(-2) locus(-1) MY(-1) for loci in paralogous sets. Loci were duplicated with a rate of 2.9 x 10(-3) locus(-1) MY(-1) during diploid evolution. During polyploid evolution, locus deletion and locus duplication rates were 1.8 x 10(-2) and 1.8 x 10(-3) locus(-1) MY(-1), respectively. Locus deletion and duplication rates correlated positively with the distance of the locus from the centromere and the recombination rate during diploid evolution. The functions of deleted and duplicated loci were inferred to gain insight into the surprisingly high rate of deletions of loci present apparently only once in a genome. The significance of these findings for genome evolution at the diploid and polyploid level is discussed.     

Frequency of duplications in the D-loop in patients with mitochondrial DNA deletions

Small duplications (miniduplications) of the D-loop of human mitochondrial DNA (mtDNA) have been described in patients with mtDNA deletions, mtDNA point mutations and in normal aged tissues. The origin of these miniduplications is still unknown but it is hypothesized that they could be formed after oxidative damage. The respiratory chain (RC) is the main source of free radicals in mitochondria and it is believed that a defect in RC increases free radical generation. If miniduplications are originated by oxidative damage, it is expected that they are more abundant in patients with a defect in the RC. We studied the frequency of miniduplications of D-loop in patients with a RC defect due to mtDNA deletions and in controls. We show that four types of miniduplications could be detected with a higher prevalence than in previous studies and that patients with mtDNA deletions did not have higher proportions or increased number of miniduplications, which is against the hypothesis that miniduplications are generated more abundantly in patients with RC defects. We also clearly demonstrate the age-related nature of these miniduplications by a carefully controlled study regarding the age of subjects, which was not considered in other studies on patients with a mitochondrial disease.