Yeast Artificial Chromosome Cloning
of the Xq13.3-q21.31 Region and Fine
Mapping of a Deletion Associated with
Choroideremia and Nonspecific
Mental Retardation

Maarel, Silvère M. van der; Scholten, Inge H. J. M.; Maat-Kievit, J.A.; Huber, I.; Kok, Y.J.M. de; Wijs, Ilse J. de; Pol, T.J.R. van de; Bokhoven, Hans van; Dunnen, Johan T. den; Ommen, G.J.B. van; Philippe, Christophe; Monaco, Anthony P.; Smeets, Hubert J.M.; Ropers, Hans‐Hilger; Cremers, Frans P.M.

doi:10.1159/000472301

Cited by 14 publications

(13 citation statements)

References 48 publications

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“…If this mechanism plays a role in the Xq2i region, it is directional in nature, since a large deletion 120 kb distal to the POU3F4 gene (patient AP; Fig. 4), is associated with mental retardation and choroideremia, but not with hearing impairment (20). It remains to be investigated whether tran scriptional silencing of the respective genes is due to posi tion effects, To explain the DFN3 phenotype in patient 5086, we favour a model in which the proposed inversion separates a control element, most likely an enhancer element, from the POU3F4 transcription unit.…”

Section: Discussionmentioning

confidence: 99%

“…If the expression of this gene depends on the presence of an enhancer situated proximal to the POU3F4 gene, small mutations or chromo somal abnormalities might be found in the chromosomal region centromeric to the cosmid contig. To investigate this region in more detail, a YAC clone from this particular region was recently isolated (20) and the construction of a cosmid contig is underway. Elucidation of the molecular mechanism respons ible for the DFN3 phenotype in patients with structural abnormalities at a large distance from the POU3F4 gene will yield important new insights into the regulation of this gene.…”

Section: Discussionmentioning

confidence: 99%

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A duplication/paracentric inversion associated with familial X-linked deafness (DFN3) suggests the presence of a regulatory element more than 400 kb upstream of the POU3F4 gene

Kok¹,

Merkx²,

Maarel³

et al. 1995

Human Molecular Genetics

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X-llnked deafness with stapes fixation (DFN3) is caused by mutations in the POU3F4 gene at Xq21.1. By employing pulsed field gel electrophoresis (PFGE) we identified a chromosomal aberration in the DNA of a DFN3 patient who did not show alterations in the open reading frame (ORF) of POU3F4. Southern blot analysis indicated that a DNA segment of 150 kb, located 170 kb proximal to the POU3F4 gene, was duplicated. Fluorescence in situ hybridization (FISH) analysis, PFGE, and detailed Southern analysis revealed that this duplication is part of a more com plex rearrangement including a paracentric inversion involving the Xq21.1 region, and presumably the Xq21.3 region. Since at least two DFN3-associated minideletions are situated proximal to the duplicated segment, the inversion most likely disconnects the POU3F4 gene from a regulatory element which is located at a distance of at least 400 kb upstream of the POU3F4 gene.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

A duplication/paracentric inversion associated with familial X-linked deafness (DFN3) suggests the presence of a regulatory element more than 400 kb upstream of the POU3F4 gene

Kok¹,

Merkx²,

Maarel³

et al. 1995

Human Molecular Genetics

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“…Although our YAC 979a10 isolate is smaller than the original clone (780 kb instead of 1600 kb), the same markers could be PCR-amplified (data not shown). This indicates that YAC 979a10 spans the MRX critical interval including the gap in the Xq21 YAC contig constructed by Van der Maarel et al (1995).…”

Section: Fine-mapping Of the Mrx Critical Intervalmentioning

confidence: 91%

“…Physical finemapping of the Xq21 deletions previously enabled us to clone the genes underlying CHM and DFN3, denoted REP-1 and POU3F4, respectively (Cremers et al, 1990b;de Kok et al, 1995;van Bokhoven et al, 1994b). The gene underlying MRX in patients with this contiguous gene syndrome has been mapped to a region between POU3F4 and REP-1 (May et al, 1995;van der Maarel et al, 1995). We have narrowed down the MRX critical region in Xq21 by fine-mapping the deletion in patients with DFN3.…”

Section: Introductionmentioning

confidence: 99%

A Novel Ribosomal S6-Kinase (RSK4; RPS6KA6) Is Commonly Deleted in Patients with Complex X-Linked Mental Retardation

Helm¹,

Kissing²,

Duijnhoven³

et al. 1999

Genomics

110

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“…The current 13 contigs, with their bracketing markers, index positions roughly in megabases, and relevant references to some of the significant partial published versions (in addition to Schlessinger et al 1991 andNelson et al 1995), are as follows, from Xpter to Xqter: Xpter-DXS6667 (0-52 Mb; Coffey et al 1992; Monaco et al 1992;Alitalo et al 1995;Black et al 1995;Ferrero et al 1995;Ried et al 1995;Trump et al 1996; Boycott et al 1996); OATL2-centromere (52-58.5 Mb;Miller et al 1995); centromere; DXS62-DXS1 (62-63 Mb); DXS1-DXS1225 (63-79 Mb; Villard et al 1995);DXS447-DXS26 (79-84 Mb;van der Maarel et al 1995);DXS995-TBG (84-106 Mb;Vetrie et al 1994;Forbes et al 1996, Sargent et al 1996; DXS7667-COL4A5 (107-109.5 Mb;Srivastava et al 1995); DXS1210-DXS287 (109.5-113 Mb); DXS1059-DXS8088 (113-118.5 Mb); DXS7308-DXS7872 (118.5-120 Mb); ANT2-DXS7317 (120-124 Mb); DXS8081-DXS1206 (124-131 Mb); and DXS1339-Xqter (131-160 Mb; Palmieri et al 1994;Rogner et al 1994; Pilia et al 1996; Zucchi et al 1996).…”

Section: Strategy and Contigs From Sts Content Mappingmentioning

confidence: 99%

X chromosome map at 75-kb STS resolution, revealing extremes of recombination and GC content.

Nagaraja

MacMillan²,

Kere³

et al. 1997

Genome Res.

111

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In addition to sustaining an exponentially increasing rate of gene finding (Collins 1995), yeast artificial chromosome/sequence-tagged site (STS/YAC)-based maps (Burke et al. 1987;Olson et al. 1989) have begun to reveal additional features of chromosome structure and dynamics. For example, during the development of maps for subportions of the X chromosome, the existence of a second "pseudoautosomal" region at the Xq terminus of the chromosome was demonstrated (Freije and Schlessinger 1992;Li and Hamer 1995), followed by the discovery that the region shows a unique phenomenon of gene inactivation on both the X and Y homologs (D'Esposito et al. 1996). In another instance, it was shown that a cluster of genes in a delimited segment of XpI 1 escape X inactivation (Miller et al. 1995). As the density of markers across the chromosome has increased beyond the 100-kb resolution goal suggested for the 1Corresponding author. E-MAIL davids@sequencer.wustl.edu; FAX (314) 362-3203."genome initiative," additional features are revealed, as described here.The average inter-STS distance of-75 kb has been achieved by the placement of 2091 STSs on cognate YACs across the 160 Mb of the chromosome. Collectively, the STSs sample -1% of Xspecific sequences. About half of the STSs (962) are made from YAC insert ends (Kere et al. 1992), and another 592 are from randomly derived unique Xchromosomal sequences. However, the STSs also include 97 expressed sequence tags (ESTs) and 190 gene-specific STSs from known genes, as well as 192 dinucleotide and 38 tri-and tetranucleotide repeat markers that detect polymorphism. As a result, the YAC/STS map can be integrated with transcriptional and genetic maps. RESULTS Mapping Strategy and PerformanceWe used a modified "all-walking" form of STS content mapping (Kere et al. 1992) in which STSs were

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Yeast Artificial Chromosome Cloning of the Xq13.3-q21.31 Region and Fine Mapping of a Deletion Associated with Choroideremia and Nonspecific Mental Retardation

Cited by 14 publications

References 48 publications

A duplication/paracentric inversion associated with familial X-linked deafness (DFN3) suggests the presence of a regulatory element more than 400 kb upstream of the POU3F4 gene

A duplication/paracentric inversion associated with familial X-linked deafness (DFN3) suggests the presence of a regulatory element more than 400 kb upstream of the POU3F4 gene

A Novel Ribosomal S6-Kinase (RSK4; RPS6KA6) Is Commonly Deleted in Patients with Complex X-Linked Mental Retardation

X chromosome map at 75-kb STS resolution, revealing extremes of recombination and GC content.

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