Search results for "HEREDITARY"

showing 10 items of 650 documents

Absence of mutation at the GAP-related domain of the neurofibromatosis type 1 gene in sporadic neurofibrosarcomas and other bone and soft tissue sarc…

1995

The NF1 gene encodes neurofibromin, a GTPase-activating protein containing a GAP-related domain (NF1-GRD) that is capable of downregulating ras by stimulating ras intrinsic GTPase activity. We tested 44 sarcomas, nine of which corresponded to sporadic neurofibrosarcomas, for mutations at the NF1-GRD by the polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) technique, finding no mutation in every sample tested. We suggest that inactivation of the NF1-GRD by gene mutation seems not to be an important event in the tumorigenesis of sarcomas.

congenital hereditary and neonatal diseases and abnormalitiesCancer ResearchNeurofibromatosis 1DNA Mutational AnalysisBone NeoplasmsSoft Tissue NeoplasmsGTPaseBiologyGene mutationmedicine.disease_causePolymerase Chain ReactionGeneticsmedicineHumansneoplasmsMolecular BiologyGenePolymorphism Single-Stranded ConformationalGeneticsMutationNeurofibromin 1ProteinsSarcomaSingle-strand conformation polymorphismmedicine.diseaseNeurofibromin 1eye diseasesnervous system diseasesNeurofibrosarcomaCancer researchbiology.proteinSarcomaCarcinogenesisCancer Genetics and Cytogenetics
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In the literature: April 2020

2020

Deficient DNA mismatch repair (dMMR) may be caused by germline or somatic mutations in mismatch repair genes ( MLH1 , MSH2 , MSH3 , MSH6 and PMS2 ) or through epigenetic silencing of MLH1 .1 dMMR induces a hypermutator phenotype, also known as microsatellite instability (MSI). Next-generation sequencing identifies MSI in 12 cancer types. The highest prevalence is seen in endometrial cancer (31.4%), followed by colorectal cancer (19.7%) and gastric cancer (GC, 19.1%). MSI was related to better prognosis for colorectal cancer and GC . Moreover, the dMMR/MSI hypermutator phenotype is thought to produce large numbers of immunogenic neoantigens that can be recognised by immune cells, leading to …

congenital hereditary and neonatal diseases and abnormalitiesCancer Researchbusiness.industryCancerMicrosatellite instabilityNewsmedicine.diseaseMLH1digestive system diseasesnot applicableMSH6OncologyMSH3MSH2medicineCancer researchPMS2DNA mismatch repair1506businessneoplasmsESMO Open
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First analysis of the National Lung Cancer Register in Spain (RTT).

2018

e13608Background: The Spanish Lung Cancer Group (GECP) initiated a Tumor Thoracic Register (RTT) in September 2016 with the aim of evaluating accurate, basic data concerning this oncological pathol...

congenital hereditary and neonatal diseases and abnormalitiesCancer Researchmedicine.medical_specialtyintegumentary systemOncologyRegister (music)business.industryInternal medicinemedicineLung cancermedicine.diseasebusinessJournal of Clinical Oncology
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A ceRNA analysis on LMNA gene focusing on the Hutchinson-Gilford progeria syndrome

2013

Background: Hutchinson-Gilford progeria syndrome is a rare dominant human disease of genetic origin. The average life expectancy is about 20 years, patients’ life quality is still very poor and no efficient therapy has yet been developed. It is caused by mutation of the LMNA gene, which results in accumulation in the nuclear membrane of a particular splicing form of Lamin-A called progerin. The mechanism by which progerin perturbs cellular homeostasis and leads to the symptoms is still under debate. Micro-RNAs are able to negatively regulate transcription by coupling with the 3’ UnTranslated Region of messenger RNAs. Several Micro-RNAs recognize the same 3’ UnTranslated Region and each Micr…

congenital hereditary and neonatal diseases and abnormalitiesCandidate geneCeRNA Hutchinson-Gilford Progeria LMNA Lamin-A 3’ UTR MiRNALMNACellular homeostasisHealth InformaticsLamin-ABiologySettore MED/13 - EndocrinologiaLMNAProgeriaCeRNAmedicineHutchinson-GilfordGeneticsProgeriaintegumentary systemCompeting endogenous RNAThree prime untranslated regionResearchnutritional and metabolic diseasesmedicine.diseaseProgerinSettore BIO/18 - GeneticaRNA splicing3’ UTRMiRNAJournal of Clinical Bioinformatics
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Tissue‐dependent differences in Bardet–Biedl syndrome gene expression

2019

BACKGROUND INFORMATION Primary cilia are highly conserved multifunctional cell organelles that extend from the cell membrane. A range of genetic disorders, collectively termed ciliopathies, is attributed to primary cilia dysfunction. The archetypical ciliopathy is the Bardet-Biedl syndrome (BBS), patients of which display virtually all symptoms associated with dysfunctional cilia. The primary cilium acts as a sensory organelle transmitting intra- and extracellular signals thereby transducing various signalling pathways facilitated by the BBS proteins. Growing evidence suggests that cilia proteins also have alternative functions in ciliary independent mechanisms, which might be contributing …

congenital hereditary and neonatal diseases and abnormalitiesContext (language use)BiologyCiliopathiesMice03 medical and health sciences0302 clinical medicineBardet–Biedl syndromeGene expressionOrganellemedicineAnimalsBardet-Biedl Syndrome030304 developmental biologyMice KnockoutRegulation of gene expression0303 health sciencesCiliumCell BiologyGeneral Medicinemedicine.diseaseCell biologyDisease Models AnimalCiliopathyGene Expression RegulationOrgan Specificity030217 neurology & neurosurgerySignal TransductionBiology of the Cell
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Phosphorylation of mismatch repair proteins MSH2 and MSH6 affecting MutSα mismatch-binding activity

2002

Mismatch repair (MMR) is involved in the removal of mispaired bases from DNA and thus plays an important role in the maintenance of genomic stability and the prevention of mutations and cancer. Moreover, MMR triggers genotoxicity and apoptosis upon processing of DNA lesions such as O6-methylguanine. Whereas the enzymology of MMR has been elucidated in great detail, only limited data are available concerning its regulation. Here we show that the major mismatch-binding proteins MSH2 and MSH6, forming the MutSalpha complex, are phosphorylated in vitro by protein kinase C and casein kinase II, but not by protein kinase A. Phosphorylation of MSH2 and MSH6 was also found within the cell, with MSH…

congenital hereditary and neonatal diseases and abnormalitiesDNA RepairDNA repairBase Pair MismatchMacromolecular SubstancesActive Transport Cell NucleusBiologyProtein Serine-Threonine KinasesArticleProto-Oncogene ProteinsGeneticsHumansProtein phosphorylationPhosphorylationProtein kinase ACasein Kinase IIneoplasmsProtein kinase CProtein Kinase CCell Nucleusnutritional and metabolic diseasesdigestive system diseasesDNA-Binding ProteinsMutS Homolog 2 ProteinBiochemistryMSH2PhosphorylationDNA mismatch repairCasein kinase 2HeLa Cells
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"Table 1" of "Cross-sections and leptonic forward-backward asymmetries from the Z0 running of LEP."

2000

Hadronic cross section measured with the 1993 data. Additional systematic error of 0.10 PCT (efficiencies and backgrounds) and 0.29 PCT (absolute luminosity).

congenital hereditary and neonatal diseases and abnormalitiesE+ E- --> HADRONSE+ E- Scatteringparasitic diseasesIntegrated Cross SectionExclusive89.431-93.015Cross SectionR measurementbacterial infections and mycosesSIGhormones hormone substitutes and hormone antagonists
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Genetic and Chemical Modifiers Of A CUG Toxicity Model in Drosophila

2007

Non-coding CUG repeat expansions interfere with the activity of human Muscleblind-like (MBNL) proteins contributing to myotonic dystrophy 1 (DM1). To understand this toxic RNA gain-of-function mechanism we developed a Drosophila model expressing 60 pure and 480 interrupted CUG repeats in the context of a non-translatable RNA. These flies reproduced aspects of the DM1 pathology, most notably nuclear accumulation of CUG transcripts, muscle degeneration, splicing misregulation, and diminished Muscleblind function in vivo. Reduced Muscleblind activity was evident from the sensitivity of CUG-induced phenotypes to a decrease in muscleblind genetic dosage and rescue by MBNL1 expression, and furthe…

congenital hereditary and neonatal diseases and abnormalitiesGene Dosagelcsh:MedicineRNA-binding proteinBiologyEyechemistry.chemical_compoundTrinucleotide RepeatsAnimalsDrosophila ProteinsMyotonic DystrophyMBNL1lcsh:ScienceGeneGenetics and Genomics/Genetics of DiseaseGeneticsMessenger RNADNA Repeat ExpansionMultidisciplinaryAlternative splicinglcsh:RBrainNuclear ProteinsRNA-Binding ProteinsRNAPhenotypeCell biologyDisease Models AnimalGenetics and Genomics/Disease ModelschemistryRNA splicingDrosophilalcsh:QGenèticaResearch Article
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Functional Assessment of Variants in the TSC1 and TSC2 Genes Identified in Individuals with Tuberous Sclerosis Complex

2011

The effects of missense changes and small in-frame deletions and insertions on protein function are not easy to predict, and the identification of such variants in individuals at risk of a genetic disease can complicate genetic counselling. One option is to perform functional tests to assess whether the variants affect protein function. We have used this strategy to characterize variants identified in the TSC1 and TSC2 genes in individuals with, or suspected of having, Tuberous Sclerosis Complex (TSC). Here we present an overview of our functional studies on 45 TSC1 and 107 TSC2 variants. Using a standardized protocol we classified 16 TSC1 variants and 70 TSC2 variants as pathogenic. In add…

congenital hereditary and neonatal diseases and abnormalitiesGenetic counselingtuberous sclerosis complexBiologyTuberous Sclerosis Complex 1 Protein03 medical and health sciencesTuberous sclerosis0302 clinical medicineTuberous SclerosisGenetic variationTuberous Sclerosis Complex 2 ProteinGeneticsmedicineMissense mutationHumansunclassified variantsGeneGenetics (clinical)Cells Cultured030304 developmental biologyGenetics0303 health sciencesModels GeneticTumor Suppressor ProteinsLife SciencesGenetic Variationmedicine.diseaseTSC23. Good healthnervous system diseasesTSC1medicine.anatomical_structureTSC1TSC2030217 neurology & neurosurgeryCommon disease-common variant
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Current development of CFTR potentiators in the last decade

2020

Cystic fibrosis (CF) is a genetic disorder produced by the loss of function of CFTR, a main chloride channel involved in transepithelial salt and water transport. CFTR function can be rescued by small molecules called "potentiators" which increase gating activity of CFTR on epithelial surfaces. High throughput screening (HTS) assays allowed the identification of new chemical entities endowed with potentiator properties, further improved through medicinal chemistry optimization. In this review, the most relevant classes of CFTR potentiators developed in the last decade were explored, focusing on structure-activity relationships (SAR) of the different chemical entities, as a useful tool for t…

congenital hereditary and neonatal diseases and abnormalitiesHigh-throughput screeningGlycineComputational biologyQuinolonesVX-770Aminophenols01 natural sciencesCystic fibrosisCystic fibrosisSmall Molecule LibrariesStructure-Activity Relationship03 medical and health sciencesDrug DiscoverymedicineHumansCFTR potentiatorCFTRLoss function030304 developmental biologyPharmacology0303 health sciencesWater transportbiology010405 organic chemistryChemistryOrganic ChemistryCFTR potentiatorsBiological activityGeneral MedicineTriazolesPotentiatormedicine.diseaseCystic fibrosis transmembrane conductance regulator0104 chemical sciencesCystic fibrosiMutationChloride channelbiology.proteinCystic fibrosis transmembrane conductance regulatorEuropean Journal of Medicinal Chemistry
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