Search results for "X-INACTIVATION"

showing 4 items of 14 documents

Intestinal malrotation in a female newborn affected by Osteopathia Striata with Cranial Sclerosis due to a de novo heterozygous nonsense mutation of …

2022

Abstract Background Osteopathia Striata with Cranial Sclerosis (OS-CS), also known as Horan-Beighton Syndrome, is a rare genetic disease; about 90 cases have been reported to date. It is associated with mutations (heterozygous for female subjects and hemizygous for males) of the AMER1 gene, located at Xq11.2, and shows an X-linked pattern of transmission. Typical clinical manifestations include macrocephaly, characteristic facial features (frontal bossing, epicanthal folds, hypertelorism, depressed nasal bridge, orofacial cleft, prominent jaw), hearing loss and developmental delay. Males usually present a more severe phenotype than females and rarely survive. Diagnostic suspicion is based o…

MaleSclerosisCase report Next generation sequencing OS-CS Skeletal dysplasia X-inactivationCleft LipTumor Suppressor ProteinsInfant NewbornGeneral MedicineMegalencephalyCleft PalateCodon NonsenseHumansFemaleBone DiseasesAdaptor Proteins Signal Transducing
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The human X chromosome is enriched for germline genes expressed in premeiotic germ cells of both sexes.

2006

The role of X-chromosomal genes in spermatogenesis has been subject to a number of studies in different organisms. Recently, it was proposed that the X chromosome has a predominant role in premeiotic stages of mammalian spermatogenesis. We analyzed the expression of a representative set of 17 X-linked and 48 autosomal germline-restricted genes in different stages of human germ cell development. In accordance with data from other species, we show that the human X chromosome is indeed significantly enriched for genes activated in premeiotic stages of spermatogenesis. In contrast to recent studies, however, we found that expression of these genes is not restricted to spermatogenesis, but is ac…

MaleTranscriptional ActivationGene DosageBiologyChromatin remodelingGametogenesisOogenesisGeneticsmedicineChromosomes HumanCluster AnalysisHumansSpermatogenesisMolecular BiologyGeneSkewed X-inactivationGenetics (clinical)X chromosomeCells CulturedRegulation of gene expressionGeneticsChromosomes Human XDosage compensationChromosome MappingGeneral MedicineDNA MethylationMeiosismedicine.anatomical_structureGerm CellsGene Expression RegulationDNA methylationFemaleGerm cellHuman molecular genetics
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Comment: Why are females with Fabry disease affected?

2019

medicine.medical_specialtyHunter Syndromebusiness.industryHunter syndromemedicine.diseaseLysosomal Storage DisorderFabry diseaseEndocrinologyEndocrinologyInternal medicineGeneticsmedicineFabry DiseaseX-inactivationX-linked DisorderbusinessMolecular BiologyLetter to the Editor
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Disease manifestations and X inactivation in heterozygous females with Fabry disease

2006

Aim: Fabry disease is an X-linked lysosomal storage disorder characterized by an accumulation of neutral glycosphingolipids in multiple organ systems caused by α-galactosidase A deficiency due to mutations in the GLA gene. The majority of heterozygous females show the characteristic signs and symptoms of the disease, and some of them are severely affected. The current hypothesis for the occurrence of disease manifestations in females is skewed X inactivation favouring the mutant GLA allele. Method: We analyzed the patterns of X inactivation in the leukocytes of 28 biochemically and genetically characterized symptomatic Fabry disease heterozygotes and their correlation with clinical and bioc…

medicine.medical_specialtyPathologyMutantHeterozygote advantageGeneral MedicineDiseaseBiologymedicine.diseaseFabry diseaseX-inactivationEndocrinologyInternal medicinePediatrics Perinatology and Child HealthGenotypemedicineAlleleSkewed X-inactivationActa Paediatrica
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