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Literature DB >> 10767351

Identification of mutations in the MSX2 homeobox gene in families affected with foramina parietalia permagna.

W Wuyts¹, W Reardon, S Preis, T Homfray, A Rasore-Quartino, H Christians, P J Willems, W Van Hul.

Abstract

Foramina parietalia permagna (FPP) is an autosomal dominant condition characterized by cranial defects of the parietal bones. It can be present as an isolated feature, but it is also one of the characteristics of a contiguous gene syndrome associated with deletions on chromosome 11p11-p12. One of the proteins known to be involved in skull development is the MSX2 homeobox protein. Previously, MSX2 has been shown to be mutated in patients suffering from Boston type craniosynostosis. We have now analyzed the MSX2 gene in five families affected with FPP. An intragenic microsatellite marker did not reveal any recombination and a cumulated LOD score of +3.2 at theta = 0 was obtained. Sequence analysis further showed that in four out of five families an MSX2 mutation was responsible for the skull defect. Moreover, it appears that FPP is caused by haplo-insufficiency of the MSX2 gene. This implies that Boston type craniosynostosis and FPP are allelic variants of the same gene, with FPP caused by loss of MSX2 function and craniosynostosis Boston type due to gain of MSX2 function.

Entities: Disease Gene Mutation Species

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Year: 2000 PMID： 10767351 DOI： 10.1093/hmg/9.8.1251

Source DB: PubMed Journal: Hum Mol Genet ISSN： 0964-6906 Impact factor: 6.150

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Cited

20 in total

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Authors: A M Fink; W Maixner
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3. A novel mutation in the MSX2 homeobox gene of a family with foramina parietalia permagna, headache and vascular anomaly.

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5. The ALX4 homeobox gene is mutated in patients with ossification defects of the skull (foramina parietalia permagna, OMIM 168500).

Authors: W Wuyts; E Cleiren; T Homfray; A Rasore-Quartino; F Vanhoenacker; W Van Hul
Journal: J Med Genet Date: 2000-12 Impact factor: 6.318

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7. MSX2 mediates entry of human pluripotent stem cells into mesendoderm by simultaneously suppressing SOX2 and activating NODAL signaling.

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Journal: Cell Res Date: 2015-10-02 Impact factor: 25.617