0000000000530247

AUTHOR

B. Wellek

showing 3 related works from this author

Lack of linkage between gene(s) controlling the synthesis of the seventh component of complement and the HLA region on chromosome No. 6 in man.

1976

The family of an individual was studied who lacks the seventh component of complement in his serum (C7 homozygous deficiency). Both parents are C7 heterozygousdeficient. In this investigation, the following parameters were determined: complement components in functional and immunochemical tests; HLA-A,B antigens, HLA-D (MLC) determinants; the Bf system; glyoxalase I and B cell antigens. No evidence for linkage between the immunogenetic linkage group on chromosome 6 and gene(s) controlling the synthesis of the seventh component of complement was obtained. This is in accordance with the assumption that only genes controlling components of the initiating rather than the membrane attack unit of…

GeneticsChromosomes Human 6-12 and XMaleGenetic LinkageChromosomeHuman leukocyte antigenComplement System ProteinsBiologyComplement factor BHuman geneticsComplement C7Complement (complexity)medicine.anatomical_structureAntigenHLA AntigensHistocompatibility AntigensGeneticsmedicineHumansLymphocyte Culture Test MixedChildGeneGenetics (clinical)B cellHuman genetics
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Evaluating the effect of spastin splice mutations by quantitative allele-specific expression assay

2010

Background:  Mutations in the SPG4/SPAST gene are the most common cause for hereditary spastic paraplegia (HSP). The splice-site mutations make a significant contribution to HSP and account for 17.4% of all types of mutations and 30.8% of point mutations in the SPAST gene. However, only few studies with limited molecular approach were conducted to investigate and decipher the role of SPAST splice-site mutations in HSP. Methods:  A reverse transcriptase-polymerase chain reaction (RT-PCR) analysis and quantitative allele-specific expression assay were performed. Results:  We have characterized the consequence of two novel splice-site mutations (c.1493 + 1G>A and c.1414−1G>A) in the SPAST gene…

Genetics0303 health sciencesbusiness.industryHereditary spastic paraplegiaPoint mutationSpastinmedicine.disease03 medical and health sciencesExon0302 clinical medicineNeurologyRNA splicingMedicinespliceNeurology (clinical)businessSPAST gene030217 neurology & neurosurgeryAllele specific030304 developmental biologyEuropean Journal of Neurology
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Syndrome of autosomal recessive polycystic kidneys with skeletal and facial anomalies is not linked to the ARPKD gene locus on chromosome 6p

2000

We report on two sibs, both males, one born at 37 the other at 24 weeks of gestation, both with a syndrome similar to that seen in three sets of sibs by Gillessen-Kaesbach et al. [1993: Am J Med Genet 45:511–518]. Both propositi had polycystic kidneys and hepatic fibrosis indistinguishable from that seen in autosomal recessive polycystic kidney disease (ARPKD), and skeletal and facial anomalies. Skeletal abnormalities included “butterfly” vertebrae, square shape of pelvis, and brachymelia. The facial anomalies included hypertelorism, epicanthic folds, and anteverted nares. Additional external findings were apparently low-set ears and a short neck. Histopathological examination of the kidney…

medicine.medical_specialtyPathologyGenetic heterogeneityBiologyCystic Changemedicine.diseaseAutosomal Recessive Polycystic Kidney DiseaseEndocrinologyGenetic linkageInternal medicinemedicineCystHypertelorismmedicine.symptomGenetics (clinical)Potter SyndromeKidney diseaseAmerican Journal of Medical Genetics
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