Liesbeth M. Bleeker-Wagemakers scite author profile

Dominantly inherited familial amyloidosis, Finnish type (FAF) is caused by the accumulation of a 71-amino acid amyloidogenic fragment of mutant gelsolin (GSN). FAF is common in Finland but is very rare elsewhere. In Finland and in two American families, the mutation is a G654A transition leading to an Asp to Asn substitution at residue 187. We found the same mutation in a Dutch family but a Danish FAF family had a G654T mutation, predicting Asp to Tyr at residue 187. We also found the G654T transversion in a Czech family. Using GSN polymorphisms, different haplotypes were found in the Danish and Czech families. We conclude that substitution of the uncharged Asn or Tyr for the acidic Asp at residue 187 creates a conformation that may be preferentially amyloidogenic for GSN.

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Mutations in the candidate gene for Norrie disease

Berger

Pol²,

Warburg

et al. 1992

Hum Mol Genet

124

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Recently, we and others have isolated a candidate gene for X linked Norrie disease (ND) which was found to be deleted or disrupted in several patients. As a prerequisite for the identification of point mutations in the ND gene we have established the exon-intron structure of this gene. In 17 unrelated patients and 15 controls, PCR products derived from the promoter region, exons 1 and 2 as well as the coding part of exon 3 were analysed with the single strand conformation polymorphism (SSCP) technique. In 12 patients altered PCR fragments were detected which were studied in detail by direct sequencing. Eleven different mutations were found, and all but one are likely to give rise to significant structural changes in the predicted protein. These findings, and the absence of functionally relevant base changes in healthy controls, emphasize the causal role of this candidate gene in Norrie disease and pave the way for reliable diagnosis and carrier detection.

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Submicroscopic interstitial deletion of the X chromosome explains a complex genetic syndrome dominated by Norrie disease

Gal

Wieringa

Smeets

et al. 1986

Cytogenet Genome Res

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Norrie disease (ND), an X-linked recessive disorder, is characterized by congenital blindness followed by bulbar atrophy. We have examined a three-generation family in which ND is part of a complex X-linked syndrome with severe mental retardation, hypogonadism, growth disturbances, and increased susceptibility to infections as additional features. This syndrome is apparently due to an interstitial deletion, as evidenced by the failure of the L1.28 DNA probe (DXS7 locus, Xp11.3) to detect complementary DNA sequences on the defective X chromosome of an affected male and of several obligatory heterozygotes. Attempts to further define this deletion with other DNA probes from the proximal short arm of the X chromosome or by prometaphase chromosome analysis were unsuccessful.

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Assignment of a Gene for Autosomal Recessive Retinitis Pigmentosa (RP12) to Chromosome 1q31-q32.1 in an Inbred and Genetically Heterogeneous Disease Population

et al. 1994

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