0000000000807876

AUTHOR

Mikko Taipale

0000-0003-3811-1761

showing 2 related works from this author

The Aromatase Gene CYP19A1: Several Genetic and Functional Lines of Evidence Supporting a Role in Reading, Speech and Language

2012

Inspired by the localization, on 15q21.2 of the CYP19A1 gene in the linkage region of speech and language disorders, and a rare translocation in a dyslexic individual that was brought to our attention, we conducted a series of studies on the properties of CYP19A1 as a candidate gene for dyslexia and related conditions. The aromatase enzyme is a member of the cytochrome P450 super family, and it serves several key functions: it catalyzes the conversion of androgens into estrogens; during early mammalian development it controls the differentiation of specific brain areas (e.g. local estrogen synthesis in the hippocampus regulates synaptic plasticity and axonal growth); it is involved in sexua…

MaleCandidate geneSLIEstrogen synthesisTranslocation GeneticDyslexiaCohort StudiesMice0302 clinical medicineGenetics(clinical)Receptors ImmunologicAromatasePromoter Regions GeneticGenetics (clinical)Original ResearchQuantitative trait analysisMice KnockoutGeneticsRegulation of gene expression0303 health sciencesbiologyBrainNuclear ProteinsHuman brainmedicine.anatomical_structureTranslocation breakpointFemaleendocrine systemmedicine.drug_classQuantitative Trait LociNerve Tissue ProteinsPolymorphism Single NucleotideSpeech Disorders03 medical and health sciencesAromataseROBO1GeneticsmedicineAnimalsHumansGenetic Predisposition to DiseaseRNA MessengerEcology Evolution Behavior and SystematicsSSD030304 developmental biologyLanguage DisordersAromatase inhibitorCategorical trait associationDyslexiamedicine.diseaseCytoskeletal ProteinsGene Expression RegulationSynaptic plasticitybiology.protein030217 neurology & neurosurgeryBehavior Genetics
researchProduct

A dominant gene for developmental dyslexia on chromosome 3.

2001

Developmental dyslexia is a neurofunctional disorder characterised by an unexpected difficulty in learning to read and write despite adequate intelligence, motivation, and education. Previous studies have suggested mostly quantitative susceptibility loci for dyslexia on chromosomes 1, 2, 6, and 15, but no genes have been identified yet. We studied a large pedigree, ascertained from 140 families considered, segregating pronounced dyslexia in an autosomal dominant fashion. Affected status and the subtype of dyslexia were determined by neuropsychological tests. A genome scan with 320 markers showed a novel dominant locus linked to dyslexia in the pericentromeric region of chromosome 3 with a m…

AdultMaleReading disabilityAdolescentLocus (genetics)Biologybehavioral disciplines and activitiesDyslexia03 medical and health sciences0302 clinical medicineGenetic linkageDCDC2Memorymental disordersGeneticsmedicineHumansChildGenetics (clinical)Finland030304 developmental biologyAgedGenes DominantGenetics0303 health sciencesAnalysis of VariancePsychological TestsRadiation Hybrid MappingReceptors Dopamine D2HaplotypeDyslexiaReceptors Dopamine D3Chromosome MappingOriginal ArticlesMiddle Agedmedicine.diseasePedigreeDevelopmental disorderChromosome 3HaplotypesReadingReceptors SerotoninFemaleChromosomes Human Pair 3Lod Score030217 neurology & neurosurgeryJournal of medical genetics
researchProduct