Search results for "cag repeat"

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Disruption of the ATXN1-CIC complex causes a spectrum of neurobehavioral phenotypes in mice and humans

2017

International audience; Gain-of-function mutations in some genes underlie neurodegenerative conditions, whereas loss-of-function mutations in the same genes have distinct phenotypes. This appears to be the case with the protein ataxin 1 (ATXN1), which forms a transcriptional repressor complex with capicua (CIC). Gain of function of the complex leads to neurodegeneration, but ATXN1-CIC is also essential for survival. We set out to understand the functions of the ATXN1-CIC complex in the developing forebrain and found that losing this complex results in hyperactivity, impaired learning and memory, and abnormal maturation and maintenance of upper-layer cortical neurons. We also found that CIC …

Male0301 basic medicineAutism Spectrum DisorderAtaxin 1neuronsautismNerve Tissue Proteinsattention-deficit/hyperactivity disorderAmygdalaArticleMice03 medical and health sciencesTranscriptional repressor complexataxin-1Cerebellum[ SDV.MHEP ] Life Sciences [q-bio]/Human health and pathologyGeneticsmedicineAnimalsHumansAttention deficit hyperactivity disorderInterpersonal Relationssca1 neuropathologybiologysocial-behaviorNeurodegenerationcag repeatNuclear ProteinsNeurodegenerative Diseasesmedicine.diseasePhenotypeRepressor ProteinsPhenotype030104 developmental biologymedicine.anatomical_structureAutism spectrum disorderintellectual disabilitybiology.proteinAutismFemaleNeurosciencetime pcr datarepressor capicua[SDV.MHEP]Life Sciences [q-bio]/Human health and pathology
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Deregulated Splicing Is a Major Mechanism of RNA-Induced Toxicity in Huntington's Disease.

2019

Huntington's disease (HD) is caused by an expanded CAG repeat in the huntingtin (HTT) gene, translating into an elongated polyglutamine stretch. In addition to the neurotoxic mutant HTT protein, the mutant CAG repeat RNA can exert toxic functions by trapping RNA-binding proteins. While few examples of proteins that aberrantly bind to mutant HTT RNA and execute abnormal function in conjunction with the CAG repeat RNA have been described, an unbiased approach to identify the interactome of mutant HTT RNA is missing. Here, we describe the analysis of proteins that preferentially bind mutant HTT RNA using a mass spectrometry approach. We show that (I) the majority of proteins captured by mutant…

congenital hereditary and neonatal diseases and abnormalitiesSpliceosomeHuntingtinRNA SplicingMutantRNA-binding proteinRNA-binding proteinsBiologygenetics [Huntington Disease]Structural Biologymental disordersmedicineAnimalsHumansddc:610genetics [RNA]Molecular BiologyGeneHuntingtin Proteingenetics [Spliceosomes]CAG repeat RNANeurodegenerationneurodegenerationRNAgenetics [Huntingtin Protein]medicine.diseasenervous system diseasesCell biologypolyglutamine diseaseHuntington Diseasenervous systemCardiovascular and Metabolic DiseasesRNA splicingSpliceosomesgenetics [RNA Splicing]RNATechnology PlatformsspliceosomeJournal of molecular biology
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