Search results for " Nonsense"

showing 10 items of 54 documents

MFAP5 Loss-of-Function Mutations Underscore the Involvement of Matrix Alteration in the Pathogenesis of Familial Thoracic Aortic Aneurysms and Dissec…

2014

Thoracic aortic aneurysm and dissection (TAAD) is an autosomal-dominant disorder with major life-threatening complications. The disease displays great genetic heterogeneity with some forms allelic to Marfan and Loeys-Dietz syndrome, and an important number of cases still remain unexplained at the molecular level. Through whole-exome sequencing of affected members in a large TAAD-affected family, we identified the c.472CT (p.Arg158(∗)) nonsense mutation in MFAP5 encoding the extracellular matrix component MAGP-2. This protein interacts with elastin fibers and the microfibrillar network. Mutation screening of 403 additional probands identified an additional missense mutation of MFAP5 (c.62GT …

AdultMalecongenital hereditary and neonatal diseases and abnormalitiesAdolescentExtracellular matrix componentNonsense mutationHaploinsufficiencyThoracic aortic aneurysmPathogenesisContractile ProteinsReportGeneticsmedicineHumansMissense mutationGenetics(clinical)ExomeChildGenetics (clinical)AgedGlycoproteinsAged 80 and overGeneticsAortic Aneurysm ThoracicbiologyGenetic heterogeneitySequence Analysis DNAFibroblastsMiddle Agedmedicine.diseasePedigree3. Good healthAortic DissectionAmino Acid SubstitutionCodon Nonsensebiology.proteinIntercellular Signaling Peptides and ProteinsFemaleHaploinsufficiencyElastinThe American Journal of Human Genetics
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A Novel Loss of Function Mutation of PCSK9 Gene in White Subjects With Low-Plasma Low-Density Lipoprotein Cholesterol

2007

Objectives— The PCSK9 gene, encoding a pro-protein convertase involved in posttranslational degradation of low-density lipoprotein receptor, has emerged as a key regulator of plasma low-density lipoprotein cholesterol. In African-Americans two nonsense mutations resulting in loss of function of PCSK9 are associated with a 30% to 40% reduction of plasma low-density lipoprotein cholesterol. The aim of this study was to assess whether loss of function mutations of PCSK9 were a cause of familial hypobetalipoproteinemia and a determinant of low-plasma low-density lipoprotein cholesterol in whites. Methods and Results— We sequenced PCSK9 gene in 18 familial hypobetalipoproteinemia subjects and i…

AdultMalemedicine.medical_specialtyNonsense mutationBiologymedicine.disease_causePolymorphism Single NucleotideRisk AssessmentSensitivity and SpecificityStatistics NonparametricWhite Peopleloss of function mutationHypobetalipoproteinemiaschemistry.chemical_compoundPCSK9 GeneGene FrequencyInternal medicinemedicineHumansGenetic Predisposition to DiseaseMutationhypocholesterolemiaCholesterolIncidencePCSK9Serine EndopeptidasesCholesterol LDLmedicine.diseaseHypocholesterolemiaEndocrinologyfamilial hypobetalipoproteinemiachemistryCodon NonsensePCSK9 geneCase-Control Studiesfamilial hypobetalipoproteinemia hypocholesterolemia loss of function mutation PCSK9 genefamilial hypobetalipoproteinemia; hypocholesterolemia; loss of function mutation; PCSK9 gene.FemaleProprotein ConvertasesHypobetalipoproteinemiaProprotein Convertase 9Cardiology and Cardiovascular MedicineLipoprotein
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A Novel APOB Mutation Identified by Exome Sequencing Cosegregates With Steatosis, Liver Cancer, and Hypocholesterolemia

2013

Objective— In familial hypobetalipoproteinemia, fatty liver is a characteristic feature, and there are several reports of associated cirrhosis and hepatocarcinoma. We investigated a large kindred in which low-density lipoprotein cholesterol, fatty liver, and hepatocarcinoma displayed an autosomal dominant pattern of inheritance. Approach and Results— The proband was a 25-year-old female with low plasma cholesterol and hepatic steatosis. Low plasma levels of total cholesterol and fatty liver were observed in 10 more family members; 1 member was affected by liver cirrhosis, and 4 more subjects died of either hepatocarcinoma or carcinoma on cirrhosis. To identify the causal mutation in this f…

AdultMalemedicine.medical_specialtySettore MED/09 - Medicina InternaApolipoprotein BNonsense mutationBiologyArticlehypobetaliproteinemia type 1Hypobetalipoproteinemiasexome fatty liver hypobetalipoproteinemia familial 2Young Adultsymbols.namesakeInternal medicinemedicineHumansExomeHEPATOCELLULAR CARCINOMAExomeExome sequencingApolipoproteins Bfatty liverFamily HealthGeneticsSanger sequencingLiver NeoplasmsFatty liverMiddle AgedHEPATOCELLULAR CARCINOMA; exome; fatty liver; hypobetaliproteinemia type 1medicine.diseasePedigreeFatty LiverHypocholesterolemiaCholesterolEndocrinologyCodon Nonsensebiology.proteinsymbolsFemaleCardiology and Cardiovascular MedicineLiver cancerexomeArteriosclerosis, Thrombosis, and Vascular Biology
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A novel mutation of the extracellular matrix protein 1 gene (ECM1) in a patient with lipoid proteinosis (Urbach-Wiethe disease) from Sicily

2005

Summary Background  Lipoid proteinosis (LP), also known as Urbach–Wiethe disease, is a rare autosomal recessive disorder characterized by a hoarse voice, warty skin infiltration and scarring. Mutations within the extracellular matrix protein 1 (ECM1) gene cause LP. Objectives  We report the molecular analysis of the ECM1 gene in a Sicilian patient with LP in order to extend the mutation spectrum of this genodermatosis. Methods  We studied a 32-year-old female born from consanguineous parents who was diagnosed at the age of 11 years as having LP. She has a clinical phenotype corresponding to Urbach–Wiethe disease characterized by papules/nodules, indurated plaques and sometimes ulcerated les…

AdultPathologymedicine.medical_specialtySettore MED/09 - Medicina InternaBiopsyMolecular Sequence DataNonsense mutationDermatologyBiologyUrbach–Wiethe diseasemedicine.disease_causePolymerase Chain ReactionFrameshift mutationExtracellular matrix protein 1ExonmedicineHumanseducationSicilyGeneExtracellular Matrix Proteinseducation.field_of_studyMutationBase SequenceGenodermatosisSkin Diseases Geneticmedicine.diseasePedigreeECM1 gene lipoid proteinosis mutationSettore MED/03 - Genetica MedicaCodon NonsenseLipoid Proteinosis of Urbach and WietheSettore MED/26 - NeurologiaFemaleBritish Journal of Dermatology
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Translational readthrough of ciliopathy genes BBS2 and ALMS1 restores protein, ciliogenesis and function in patient fibroblasts

2021

Abstract Background Ciliary dysfunction underlies a range of genetic disorders collectively termed ciliopathies, for which there are no treatments available. Bardet-Biedl syndrome (BBS) is characterised by multisystemic involvement, including rod-cone dystrophy and renal abnormalities. Together with Alstrom syndrome (AS), they are known as the ‘obesity ciliopathies’ due to their common phenotype. Nonsense mutations are responsible for approximately 11% and 40% of BBS and AS cases, respectively. Translational readthrough inducing drugs (TRIDs) can restore full-length protein bypassing in-frame premature termination codons, and are a potential therapeutic approach for nonsense-mediated ciliop…

BBS2AdultMaleMedicine (General)AdolescentNonsense mutationAminopyridinesCell Cycle ProteinsCiliopathiesGeneral Biochemistry Genetics and Molecular Biologychemistry.chemical_compoundR5-920AtalurenCiliogenesismedicineHumansReceptors SomatostatinBardet-Biedl SyndromeAlstrom SyndromeCells CulturedOxadiazolesbusiness.industryTumor Suppressor ProteinsTranslational readthroughRProteinsGeneral MedicineFibroblastsmedicine.diseaseNonsense suppressionCiliopathiesAtalurenCiliopathyALMS1chemistryCodon NonsenseAmlexanoxCancer researchMedicineBBS2businessAlström syndromeResearch PaperEBioMedicine
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Enhancement of premature stop codon readthrough in the CFTR gene by Ataluren (PTC124) derivatives.

2015

Abstract Premature stop codons are the result of nonsense mutations occurring within the coding sequence of a gene. These mutations lead to the synthesis of a truncated protein and are responsible for several genetic diseases. A potential pharmacological approach to treat these diseases is to promote the translational readthrough of premature stop codons by small molecules aiming to restore the full-length protein. The compound PTC124 (Ataluren) was reported to promote the readthrough of the premature UGA stop codon, although its activity was questioned. The potential interaction of PTC124 with mutated mRNA was recently suggested by molecular dynamics (MD) studies highlighting the importanc…

Cystic FibrosisNonsense mutationPeptide Chain Elongation TranslationalCystic Fibrosis Transmembrane Conductance RegulatorSettore BIO/11 - Biologia MolecolareMolecular Dynamics SimulationCFTR genechemistry.chemical_compoundStructure-Activity RelationshipPlasmidDrug DiscoveryTumor Cells CulturedCoding regionHumansGreen fluorescent proteinGenePharmacologyGeneticsMessenger RNAOxadiazolesNonsense mutationDose-Response Relationship DrugMolecular StructureDrug Discovery3003 Pharmaceutical ScienceOrganic ChemistryTranslational readthroughSettore CHIM/06 - Chimica OrganicaGeneral MedicinePTCs readthroughStop codonAtalurenSettore BIO/18 - GeneticachemistrySettore CHIM/03 - Chimica Generale E InorganicaCodon NonsenseCystic fibrosiMutationFluorinated oxadiazoleHeLa CellsEuropean journal of medicinal chemistry
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Toward a Rationale for the PTC124 (Ataluren) Promoted Readthrough of Premature Stop Codons: A Computational Approach and GFP-Reporter Cell-Based Assay

2014

The presence in the mRNA of premature stop codons (PTCs) results in protein truncation responsible for several inherited (genetic) diseases. A well-known example of these diseases is cystic fibrosis (CF), where approximately 10% (worldwide) of patients have nonsense mutations in the CF transmembrane regulator (CFTR) gene. PTC124 (3-(5-(2-fluorophenyl)-1,2,4-oxadiazol-3-yl)-benzoic acid), also known as Ataluren, is a small molecule that has been suggested to allow PTC readthrough even though its target has yet to be identified. In the lack of a general consensus about its mechanism of action, we experimentally tested the ability of PTC124 to promote the readthrough of premature termination c…

Duchenne muscular distrophy (DMD)Protein ConformationNonsense mutationBlotting WesternGreen Fluorescent ProteinsPharmaceutical ScienceCystic Fibrosis Transmembrane Conductance RegulatorSettore BIO/11 - Biologia MolecolareBiologyMolecular Dynamics Simulationmedicine.disease_causeReal-Time Polymerase Chain Reactionpremature termination codons (PTC)ArticleGreen fluorescent proteinchemistry.chemical_compoundDrug DiscoverymedicineCoding regionHumansRNA Messengermolecular dynamics (MD)GeneCells CulturedGeneticsnonsense mutation readthroughMessenger RNAMutationOxadiazolesReverse Transcriptase Polymerase Chain Reactiongreen fluorescent protein (GFP)atalurenSettore CHIM/06 - Chimica OrganicaStop codonAtalurenSettore BIO/18 - GeneticachemistryCodon NonsenseSettore CHIM/03 - Chimica Generale E InorganicaMutationCodon TerminatorMutagenesis Site-DirectedMolecular MedicineNucleic Acid Conformationcystic fibrosis (CF)oxadiazoleHeLa Cells
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Gene symbol: f9.

2007

Factor IXSettore MED/38 - Pediatria Generale E SpecialisticaCodon NonsenseMutationCodon TerminatorHumansHemophilia B/genetics.CodonHemophilia BSicilyProtein Structure TertiaryHuman genetics
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Gene Repair of an Usher Syndrome Causing Mutation by Zinc-Finger Nuclease Mediated Homologous Recombination

2012

PURPOSE. Human Usher syndrome (USH) is the most frequent cause of inherited deaf-blindness. It is clinically and genetically heterogeneous, assigned to three clinical types of which the most severe type is USH1. No effective treatment for the ophthalmic component of USH exists. Gene augmentation is an attractive strategy for hereditary retinal diseases. However, several USH genes, like USH1C, are expressed in various isoforms, hampering gene augmentation. As an alternative treatment strategy, we applied the zinc-finger nuclease (ZFN) technology for targeted gene repair of an USH1C, causing mutation by homologous recombination. METHODS. We designed ZFNs customized for the p.R31X nonsense mut…

Gene isoformNonsense mutationCell Cycle ProteinsBiologyRetinaCell Linechemistry.chemical_compoundHumansDNA Breaks Double-StrandedDNA CleavageHomologous RecombinationGeneAdaptor Proteins Signal TransducingZinc fingerGeneticsTargeted Gene RepairfungiZinc FingersDNAEndonucleasesZinc finger nucleaseCytoskeletal ProteinschemistryCodon NonsenseHomologous recombinationUsher SyndromesDNATargeted Gene RepairInvestigative Opthalmology & Visual Science
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Forced Retroevolution of an RNA Bacteriophage

2000

AbstractThe operator hairpin ahead of the replicase gene in RNA bacteriophage MS2 contains overlapping signals for binding the coat protein and ribosomes. Coat protein binding inhibits further translation of the gene and forms the first step in capsid formation. The hairpin sequence was partially randomized to assess the importance of this structure element for the bacteriophage and to monitor alternative solutions that would evolve on the passaging of mutant phages. The evolutionary reconstruction of the operator failed in the majority of mutants. Instead, a poor imitation developed containing only some of the recognition signals for the coat protein. Three mutants were of particular inter…

GeneticsOperator Regions GeneticBase SequencebiologyMolecular Sequence DataRNARNA-dependent RNA polymeraseRNA-Dependent RNA Polymerasebiology.organism_classificationRibosomeStop codonEvolution MolecularBacteriophageSense CodonCodon NonsenseMutagenesisProtein BiosynthesisVirologyBacteriophage MS2Nucleic Acid ConformationGeneLevivirusVirology
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