Friedel Wenzel scite author profile

Friedel Wenzel

4Publications

130Citation Statements Received

100Citation Statements Given

How they've been cited

191

120

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Affiliations

University Hospital of Basel, University Children’s Hospital Basel, University of Basel

Publications

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Deletion in Xp22.11: PTCHD1 is a candidate gene for X-linked intellectual disability with or without autism

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Röthlisberger

Blattner

et al. 2010

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Submicroscopic chromosomal anomalies play an important role in the aetiology of intellectual disability (ID) and have been shown to account for up to 10% of non-syndromic forms. We present a family with two affected boys compatible with X-linked inheritance of a phenotype of severe neurodevelopmental disorder co-segregating with a deletion in Xp22.11 exclusively containing the PTCHD1 gene. Although the exact function of this gene is unknown to date, the structural overlap of its encoded patched domain-containing protein 1, the transmembrane protein involved in the sonic hedgehog pathway, and its expression in human cortex and cerebellum as well as in mice and drosophila brain suggests a causative role of its nullisomy in the developmental phenotype of our family. Our findings support the recent notions that PTCHD1 may play a role in X-linked intellectual disability (XLID) and autism disorders.

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Genotyping fetal paternally inherited SNPs by MALDI‐TOF MS using cell‐free fetal DNA in maternal plasma: Influence of size fractionation

Liu

Wenzel²,

Holzgreve

et al. 2006

Electrophoresis

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The determination of fetal point mutations from fetal cell-free DNA (cf-DNA) in maternal plasma is technically challenging due to the preponderance of maternal sequences. It has recently been shown that fetal cf-DNA sequences are smaller than maternal ones and that the selection of small cf-DNA fragments by size fractionation by agarose gel electrophoresis leads to the enrichment of fetal cf-DNA sequences, thereby permitting the detection of otherwise masked fetal point mutations. In a separate development, the use of MALDI-TOF MS has also been shown to facilitate the detection of fetal point mutations from cf-DNA in maternal plasma. In this study, a combination of these approaches was examined. cf-DNA was extracted from 18 maternal plasma samples, 10 taken at term and 8 obtained early in the second trimester. A total of 41 SNP loci were examined in size-fractionated and total cf-DNA using either a conventional homogeneous MassEXTEND (hME) assay or a nucleotide-specific single allele base extension reaction (SABER) assay. The analysis of total cf-DNA indicated that size fractionation considerably enhanced the sensitivity of the standard hME assay, especially for samples taken early in pregnancy. Size fractionation also rendered the signals obtained by the SABER assay more precise.

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Novel Real-Time Quantitative PCR Test for Trisomy 21

Zimmermann¹,

Holzgreve²,

Wenzel

et al. 2002

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Interstitial deletion 1q42 in a patient with agenesis of corpus callosum: Phenotype–genotype comparison to the 1q41q42 microdeletion suggests a contiguous 1q4 syndrome

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Röthlisberger

Boesch

et al. 2010

American J of Med Genetics Pt A

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Interstitial deletions of 1q4 are rare and present with different deletion breakpoints and variable phenotype. We report on the clinical and molecular cytogenetic findings in a girl with minor anomalies, midline defects including prenatally ascertained agenesis of the corpus callosum, epilepsy and developmental delay. A de novo 5.45 Mb deletion almost exclusively located within 1q42 was found to cause this phenotype, which shows significant overlap with the microdeletion 1q41q42 syndrome reported in a few patients except for the agenesis of the corpus callosum. However, deletions in patients with the 1q41q42 syndrome mainly extend into the 1q41 region with a region of overlap including the DISP1 gene involved in the SHH pathway, which is not part of the 1q42 deletion in our patient. We suggest that an interaction of genes involved in pathways of embryonic development rather than haploinsufficiency of single genes in the so-called critical regions is causing complex malformation syndromes due to cytogenetic microaberrations in the 1q4 region.

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Friedel Wenzel

Deletion in Xp22.11: PTCHD1 is a candidate gene for X-linked intellectual disability with or without autism

Genotyping fetal paternally inherited SNPs by MALDI‐TOF MS using cell‐free fetal DNA in maternal plasma: Influence of size fractionation

Novel Real-Time Quantitative PCR Test for Trisomy 21

Interstitial deletion 1q42 in a patient with agenesis of corpus callosum: Phenotype–genotype comparison to the 1q41q42 microdeletion suggests a contiguous 1q4 syndrome

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