Search results for "Transferase"

showing 10 items of 1030 documents

Lecithin-cholesterol-acyltransferase deficiency: autosomal recessive transmission in a large kindred.

2008

Thirty-four members of a single Sardinian kindred with lecithin-cholesterol-acyltransferase deficiency have been studied. The kindred spans four generations and the parents of the two affected siblings are blood relatives. Segregation of the acyltransferase deficiency gene in the family clearly demonstrated an autosomal recessive mode of inheritance. Thirteen family members, including all obligate heterozygotes, had roughly half-normal acyltransferase activities (mean +/- S.D. = 0.39 +/- 0.06 mU/ml) when compared to 17 intrafamilial controls and spouses (mean +/- S.D. = 0.72 +/- 0.09 mU/ml) and 40 blood donors from Marburg/Lahn (mean +/- S.D. =0.76 +/- 0.1 mU/ml). Characterization of the he…

Plasma lipoproteinMaleHeterozygoteThalassemiaLipoproteinsGenes RecessiveConsanguinityConsanguinityLecithin Cholesterol Acyltransferase DeficiencyGeneticsmedicineHumansGenetics (clinical)GeneticsLecithin cholesterol acyltransferase deficiencybiologyHeterozygote advantagemedicine.diseaseHypolipoproteinemiasPedigreeAcyltransferaseLecithin—cholesterol acyltransferasebiology.proteinThalassemiaFemaleHypolipoproteinemiaClinical genetics
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Upregulated acetylcholine synthesis during early differentiation in the embryonic stem cell line CGR8

2012

Stem cells are used to generate differentiated somatic cells including neuronal cells. Synthesis and release of acetylcholine, a neurotransmitter and widely expressed signaling molecule, were investigated in the murine embryonic stem cell line CGR8 during early differentiation, i.e. in the presence of leukemia inhibitory factor (LIF) to maintain pluripotency and in the absence of LIF to induce early differentiation. CGR8 cells express choline acetyltransferase (ChAT) as demonstrated by measurement of enzyme activity and substantial inhibition by bromoacetylcholine. Pluripotent CGR8 cells showed a ChAT activity of 250 pmol acetylcholine/mg/h, contained 1.1 pmol acetylcholine/10⁶ cells and re…

Pluripotent Stem CellsHomeobox protein NANOGSomatic cellGeneral NeuroscienceCell DifferentiationOct-4BiologyMolecular biologyCholine acetyltransferaseAcetylcholineCell LineCholine O-AcetyltransferaseUp-RegulationMiceCell culturemedicineAnimalsStem cellLeukemia inhibitory factorEmbryonic Stem CellsAcetylcholinemedicine.drugNeuroscience Letters
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Mouse embryonic stem cells are hypersensitive to apoptosis triggered by the DNA damage O(6)-methylguanine due to high E2F1 regulated mismatch repair.

2007

Exposure of stem cells to genotoxins may lead to embryonic lethality or teratogenic effects. This can be prevented by efficient DNA repair or by eliminating genetically damaged cells. Using undifferentiated mouse embryonic stem (ES) cells as a pluripotent model system, we compared ES cells with differentiated cells, with regard to apoptosis induction by alkylating agents forming the highly mutagenic and killing DNA adduct O(6)-methylguanine. Upon treatment with N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), ES cells undergo apoptosis at much higher frequency than differentiated cells, although they express a high level of the repair protein O(6)-methylguanine-DNA methyltransferase (MGMT). Apo…

Pluripotent Stem CellsMethylnitronitrosoguanidineDNA ComplementaryGuanineDNA damageDNA repairCellular differentiationApoptosisBiologyDNA Mismatch RepairModels BiologicalDNA AdductsMiceO(6)-Methylguanine-DNA MethyltransferaseDNA adductAnimalsMolecular BiologyEmbryonic Stem CellsSwiss 3T3 CellsBase SequenceCell DifferentiationCell BiologyDNA MethylationFibroblastsEmbryonic stem cellMolecular biologyDNA-Binding ProteinsMutS Homolog 2 ProteinDNA methylationDNA mismatch repairStem cellE2F1 Transcription FactorDNA DamageCell death and differentiation
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Influence of the xyloadenosine analogue of 2?,5?-oligoriboadenylate on poly(A)-specific, 2?,5?-oligoriboadenylate degrading 2?,3?-exoribonuclease and…

1984

The homogeneous poly(A)-specific 2′,3′-exoribonuclease from calf thymus gland, which cleaves both 3′,5′-and 2′,5′-linked oligoriboadenylates, does not degrade (xyloA2'p)2 xyloA, the xylofuranosyladenosine analogue of the 2-5A core. This oligonucleotide, which is supposed to enter intact cells rapidly, was found to possess an increased stability and an enhanced antiherpesvirus activity compared to the natural (A2'p)2A (Eppstein, D. A., Barnett, J. W., Marsh, Y. V., Gosselin, G. and Imbach, J.-L. (1983) Nature 302, 723–724). The poly(A) anabolic enzyme, poly(A) polymerase (Mn2+-dependent), from the same source, which is initiated by (A3'p)2A and its higher oligomers, does not accept 2–5A core…

PolyadenylationOligonucleotidesIn Vitro TechniquesOligomerchemistry.chemical_compoundExoribonucleaseEndoribonucleasesGeneticsAnimalsRNA MessengerMolecular BiologyPolymerasechemistry.chemical_classificationOligoribonucleotidesbiologyAdenine NucleotidesOligonucleotidePolynucleotide AdenylyltransferaseGeneral MedicineMolecular biologyPost-transcriptional modificationEnzymeRibonucleoproteinsBiochemistrychemistryExoribonucleasesbiology.proteinCattlePrimer (molecular biology)Poly AMolecular Biology Reports
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Establishment of Polycomb silencing requires a transient interaction between PC and ESC

2001

Two distinct types of Polycomb complexes have been identified in flies and in vertebrates, one containing ESC and one containing PC. Using LexA fusions, we show that PC and ESC can establish silencing of a reporter gene but that each requires the presence of the other. In early embryonic extracts, we find PC transiently associated with ESC in a complex that includes EZ, PHO, PH, GAGA, and RPD3 but not PSC. In older embryos, PC is found in a complex including PH, PSC, GAGA, and RPD3, whereas ESC is in a separate complex including EZ, PHO, and RPD3.

Polycomb-Group ProteinsRepressorSettore BIO/11 - Biologia MolecolarePlasma protein bindingBiologyPolycomb silencingResearch CommunicationGeneticsPolycomb-group proteinsAnimalsDrosophila ProteinsGene silencingGene Silencingreproductive and urinary physiologyPolycomb Repressive Complex 1Reporter geneurogenital systemPolycomb Repressive Complex 2PcG complexEmbryoHistone-Lysine N-MethyltransferasePrecipitin TestsEmbryonic stem cellMolecular biologyRepressor Proteinsembryonic structuresInsect ProteinsDrosophilaRepressor lexAbiological phenomena cell phenomena and immunityESC/PHOProtein BindingDevelopmental BiologyGenes & Development
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A multiplex polymerase chain reaction protocol for the simultaneous analysis of the glutathione S-transferase GSTM1 and GSTT1 polymorphisms.

1996

Polymorphism GeneticbiologyBase Sequencebusiness.industryMolecular Sequence DataBiophysicsCell BiologyBiochemistryMolecular biologyPolymerase Chain ReactionReverse transcription polymerase chain reactionGlutathione S-transferaseReal-time polymerase chain reactionMultiplex polymerase chain reactionbiology.proteinMedicineHumansbusinessMolecular BiologyNested polymerase chain reactionDNA PrimersGlutathione TransferaseAnalytical biochemistry
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Excess of de novo variants in genes involved in chromatin remodelling in patients with marfanoid habitus and intellectual disability.

2020

PurposeMarfanoid habitus (MH) combined with intellectual disability (ID) (MHID) is a clinically and genetically heterogeneous presentation. The combination of array CGH and targeted sequencing of genes responsible for Marfan or Lujan–Fryns syndrome explain no more than 20% of subjects.MethodsTo further decipher the genetic basis of MHID, we performed exome sequencing on a combination of trio-based (33 subjects) or single probands (31 subjects), of which 61 were sporadic.ResultsWe identified eight genes with de novo variants (DNVs) in at least two unrelated individuals (ARID1B, ATP1A1, DLG4, EHMT1, NFIX, NSD1, NUP205 and ZEB2). Using simulation models, we showed that five genes (DLG4, NFIX, …

ProbandMale[SDV]Life Sciences [q-bio]intellectual deficiencyMESH: NFI Transcription Factorschromatin remodelingMarfan SyndromeCraniofacial AbnormalitiesMESH: ChildIntellectual disabilityMESH: Craniofacial AbnormalitiesMESH: Mental Retardation X-LinkedExomeChildde novo variantsGenetics (clinical)Exome sequencingGeneticsMESH: ExomeMESH: Middle AgedbiologyMESH: Genetic Predisposition to DiseaseMiddle AgedNFIXMESH: Young AdultFemaleAdultMESH: MutationAdolescentChromatin remodelingMESH: Intellectual DisabilityMESH: Marfan SyndromeEHMT1Young AdultMESH: Whole Exome SequencingIntellectual DisabilityExome SequencingGeneticsmedicineHumansGenetic Predisposition to Diseasemarfanoid habitusGeneMESH: Neurodevelopmental DisordersMESH: AdolescentMESH: HumansGenetic heterogeneityMESH: Chromatin Assembly and DisassemblyMESH: Histone-Lysine N-MethyltransferaseMESH: AdultHistone-Lysine N-Methyltransferasemedicine.diseaseChromatin Assembly and DisassemblyMESH: MaleNFI Transcription FactorsNeurodevelopmental DisordersMutationbiology.proteinMental Retardation X-LinkedMESH: FemaleJournal of medical genetics
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Glutathione content, glutathione S-transferase and γ-glutamyltranspeptidase activities in mid-gut gland of Procambarus clarkii: time course in the pr…

1988

Procambarus clarkiiCadmiumbiologyγ glutamyltranspeptidasechemistry.chemical_elementMidgutGlutathionebiology.organism_classificationBiochemistrychemistry.chemical_compoundGlutathione S-transferasechemistryBiochemistryTime coursebiology.proteinBiochemical Society Transactions
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GD3 ganglioside directly targets mitochondria in a bcl-2-controlled fashion.

2000

Lipid and glycolipid diffusible mediators are involved in the intracellular progression and amplification of apoptotic signals. GD3 ganglioside is rapidly synthesized from accumulated ceramide after the clustering of death-inducing receptors and triggers apoptosis. Here we show that GD3 induces dissipation of DeltaPsim and swelling of isolated mitochondria, which results in the mitochondrial release of cytochrome c, apoptosis inducing factor, and caspase 9. Soluble factors released from GD3-treated mitochondria are sufficient to trigger DNA fragmentation in isolated nuclei. All these effects can be blocked by cyclosporin A, suggesting that GD3 is acting at the level of the permeability tran…

Programmed cell deathCeramideApoptosisMitochondria LiverMitochondrionliverBiochemistryMembrane Potentialschemistry.chemical_compoundGangliosidesGeneticsAnimalsMolecular BiologySettore MED/04 - Patologia GeneralebiologyCytochrome cCaspase 9SialyltransferasesCell biologyRatsmitochondriaEnzyme ActivationchemistryMitochondrial permeability transition poreProto-Oncogene Proteins c-bcl-2ApoptosisCaspasesbiology.proteinCyclosporinecaspases; cyclosporine; proto-oncogene proteins c-bcl-2; sialyltransferases; caspase 9; rats; animals; enzyme activation; apoptosis; membrane potentials; gangliosides; mitochondria liver; subcellular fractionsApoptosis-inducing factorlipids (amino acids peptides and proteins)ApoptosomeBiotechnologySubcellular FractionsFASEB journal : official publication of the Federation of American Societies for Experimental Biology
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Primary proliferating immature myeloid cells from CML patients are not resistant to induction of apoptosis by DNA damage and growth factor withdrawal.

1996

Induction of apoptosis by growth factor deprivation or gamma-irradiation-induced DNA damage was directly studied in proliferating primary haemopoietic cells derived from CD34-positive cells of 13 CML patients and 12 normal controls. CD34-positive cells were cultured in the presence of appropriate concentrations of SCF and G-CSF for 5–7 d. After gamma irradiation with 500 rad or growth factor deprivation, the fraction of apoptotic cells was assessed by two independent methods applying either measurement of cells incorporating FITC-labelled dUTP by terminal transferase or assessment of the fraction of cells with a less than 2N DNA content in flow cytometry. Proliferating CML cells were not re…

Programmed cell deathDNA damagemedicine.medical_treatmentFusion Proteins bcr-ablApoptosisBiologyFlow cytometrychemistry.chemical_compoundhemic and lymphatic diseasesGranulocyte Colony-Stimulating FactormedicineHumansStem Cell Factormedicine.diagnostic_testGrowth factorHematologyHematopoietic Stem CellsIn vitroTerminal deoxynucleotidyl transferasechemistryApoptosisGamma RaysImmunologyLeukemia Myeloid Chronic-PhaseCancer researchDNACell DivisionDNA DamageBritish journal of haematology
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