L. A. Sandkuijl scite author profile

Although the role of genetic factors in the origin of Parkinson disease has long been disputed, several genes involved in autosomal dominant and recessive forms of the disease have been localized. Mutations associated with early-onset autosomal recessive parkinsonism have been identified in the Parkin gene, and recently a second gene, PARK6, involved in early-onset recessive parkinsonism was localized on chromosome 1p35-36. We identified a family segregating early-onset parkinsonism with multiple consanguinity loops in a genetically isolated population. Homozygosity mapping resulted in significant evidence for linkage on chromosome 1p36. Multipoint linkage analysis using MAPMAKER-HOMOZ generated a maximum LOD-score of 4.3, with nine markers spanning a disease haplotype of 16 cM. On the basis of several recombination events, the region defining the disease haplotype can be clearly separated, by > or =25 cM, from the more centromeric PARK6 locus on chromosome 1p35-36. Therefore, we conclude that we have identified on chromosome 1 a second locus, PARK7, involved in autosomal recessive, early-onset parkinsonism.

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Frequency of glycogen storage disease type II in The Netherlands: implications for diagnosis and genetic counselling

Ausems

et al. 1999

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Glycogen storage disease type II (GSD II) is an autosomal recessive myopathy. Early and lateonset phenotypes are distinguished -infantile, juvenile and adult. Three mutations in the acid α-glucosidase gene are common in the Dutch patient population: IVS1(-13T→G), 525delT and delexon18. 63% of Dutch GSD II patients carry one or two of these mutations, and the genotype-phenotype correlation is known. To determine the frequency of GSD II, we have screened an unselected sample of neonates for the occurrence of these three mutations. Based on the calculated carrier frequencies, the predicted frequency of the disease is 1 in 40 000 divided by 1 in 138 000 for infantile GSD II and 1 in 57 000 for adult GSD II. This is about two to four times higher than previously suggested, which is a reason to become more familiar with the presentation of GSD II in its different clinical forms and to adjust the risk assessment for genetic counselling.

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Genetic Heterogeneity of Polycystic Kidney Disease in Europe1

Peters¹,

Sandkuijl

260

123

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Involvement of the CACNA1A gene containing region on 19p13 in migraine with and without aura

Terwindt

Ophoff²,

Eijk³

et al. 2001

Neurology

125

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Genomewide scan identifies susceptibility locus for dyslexia on Xq27 in an extended Dutch family

Kovel

Hol²,

Heister³

et al. 2004

Journal of Medical Genetics

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Context: Dyslexia is a common disorder with a strong genetic component, but despite significant research effort, the aetiology is still largely unknown. Objective: To identify loci contributing to dyslexia risk. Methods: This was a genomewide linkage analysis in a single large family. Dutch families with at least two first degree relatives suffering from dyslexia participated in the study. Participants were recruited through an advertisement campaign in papers and magazines. The main outcome measure was linkage between genetic markers and dyslexia phenotype. Results: Using parametric linkage analysis, we found strong evidence for a locus influencing dyslexia on Xq27.3 (multipoint lod = 3.68). Recombinations in two family members flanked an 8 cM region, comprising 11 currently confirmed genes. All four males carrying the risk haplotype had very low scores on the reading tests. The presentation in females was more variable, but 8/9 females carrying the risk haplotype were diagnosed dyslexic by our composite score, so we considered the putative risk allele to be dominant with reduced penetrance. Linkage was not found in an additional collection of affected sibling pairs. Conclusions: A locus influencing dyslexia risk is probably located between markers DXS1227 and DXS8091 on the X chromosome, closely situated to a locus indicated by a published genome scan of English sibling pairs. Although the locus may not be a common cause for dyslexia, the relatively small and gene poor region offers hope to identify the responsible gene.

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L. A. Sandkuijl

PARK7, a Novel Locus for Autosomal Recessive Early-Onset Parkinsonism, on Chromosome 1p36

Frequency of glycogen storage disease type II in The Netherlands: implications for diagnosis and genetic counselling

Genetic Heterogeneity of Polycystic Kidney Disease in Europe1

Involvement of the CACNA1A gene containing region on 19p13 in migraine with and without aura

Genomewide scan identifies susceptibility locus for dyslexia on Xq27 in an extended Dutch family

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