Search results for "rase"

showing 10 items of 4343 documents

m6A RNA methylation of major satellite repeat transcripts facilitates chromatin association and RNA:DNA hybrid formation in mouse heterochromatin

2021

Abstract Heterochromatin has essential functions in maintaining chromosome structure, in protecting genome integrity and in stabilizing gene expression programs. Heterochromatin is often nucleated by underlying DNA repeat sequences, such as major satellite repeats (MSR) and long interspersed nuclear elements (LINE). In order to establish heterochromatin, MSR and LINE elements need to be transcriptionally competent and generate non-coding repeat RNA that remain chromatin associated. We explored whether these heterochromatic RNA, similar to DNA and histones, may be methylated, particularly for 5-methylcytosine (5mC) or methyl-6-adenosine (m6A). Our analysis in mouse ES cells identifies only b…

AdenosineAcademicSubjects/SCI00010HeterochromatinRNA methylationMethylationMice03 medical and health scienceschemistry.chemical_compound0302 clinical medicineHeterochromatinGene expressionGeneticsAnimals030304 developmental biology0303 health sciencesbiologyMethyltransferase complexGene regulation Chromatin and EpigeneticsRNAMouse Embryonic Stem CellsDNAChromatinCell biologyHistonechemistryTandem Repeat Sequencesbiology.proteinRNA030217 neurology & neurosurgeryDNANucleic Acids Research
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Machine learning of reverse transcription signatures of variegated polymerases allows mapping and discrimination of methylated purines in limited tra…

2020

AbstractReverse transcription (RT) of RNA templates containing RNA modifications leads to synthesis of cDNA containing information on the modification in the form of misincorporation, arrest, or nucleotide skipping events. A compilation of such events from multiple cDNAs represents an RT-signature that is typical for a given modification, but, as we show here, depends also on the reverse transcriptase enzyme. A comparison of 13 different enzymes revealed a range of RT-signatures, with individual enzymes exhibiting average arrest rates between 20 and 75%, as well as average misincorporation rates between 30 and 75% in the read-through cDNA. Using RT-signatures from individual enzymes to trai…

AdenosineAcademicSubjects/SCI00010Machine learningcomputer.software_genre[SDV.BBM.BM] Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologyMethylationMachine Learning03 medical and health sciences0302 clinical medicineComplementary DNA[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]GeneticsMolecular BiologyPolymerase030304 developmental biologychemistry.chemical_classification0303 health sciencesOligoribonucleotidesGuanosinebiologybusiness.industryRNA-Directed DNA PolymeraseRNARNA-Directed DNA Polymerase[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologyReverse TranscriptionMethylationReverse transcriptaseEnzymechemistryTransfer RNAbiology.protein[SDV.BBM.GTP] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Artificial intelligenceTranscriptomebusinesscomputer030217 neurology & neurosurgery
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The 18S ribosomal RNA m 6 A methyltransferase Mettl5 is required for normal walking behavior in Drosophila

2020

RNA modifications have recently emerged as an important layer of gene regulation. N6-methyladenosine (m6A) is the most prominent modification on eukaryotic messenger RNA and has also been found on noncoding RNA, including ribosomal and small nuclear RNA. Recently, several m6A methyltransferases were identified, uncovering the specificity of m6A deposition by structurally distinct enzymes. In order to discover additional m6A enzymes, we performed an RNAi screen to deplete annotated orthologs of human methyltransferase-like proteins (METTLs) in Drosophila cells and identified CG9666, the ortholog of human METTL5. We show that CG9666 is required for specific deposition of m6A on 18S ribosomal …

AdenosineBiochimiem 6 AMettl5WalkingBiologyBiochemistryRibosome18S ribosomal RNA03 medical and health sciences0302 clinical medicineGene expressionRNA Ribosomal 18SGeneticsAnimalsHumansRNA methyltransferase[SDV.BDD]Life Sciences [q-bio]/Development BiologyMolecular Biology030304 developmental biologyBehavior0303 health sciencesMessenger RNAbehaviorBiologie moléculaireRNA[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologyMethyltransferasesm6ARibosomal RNANon-coding RNARibosome[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biomolecules [q-bio.BM]3. Good healthCell biologyribosomeRNA RibosomalDrosophilaBiologie030217 neurology & neurosurgerySmall nuclear RNAReportsEMBO reports
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CD73-generated extracellular adenosine in chronic lymphocytic leukemia creates local conditions counteracting drug-induced cell death

2011

Abstract Extracellular adenosine (ADO), generated from ATP or ADP through the concerted action of the ectoenzymes CD39 and CD73, elicits autocrine and paracrine effects mediated by type 1 purinergic receptors. We have tested whether the expression of CD39 and CD73 by chronic lymphocytic leukemia (CLL) cells activates an adenosinergic axis affecting growth and survival. By immunohistochemistry, CD39 is widely expressed in CLL lymph nodes, whereas CD73 is restricted to proliferation centers. CD73 expression is highest on Ki-67+ CLL cells, adjacent to T lymphocytes, and is further localized to perivascular areas. CD39+/CD73+ CLL cells generate ADO from ADP in a time- and concentration-dependen…

AdenosineCellular differentiationChronic lymphocytic leukemia5'-Nucleotidase; Adenosine; Adenosine Diphosphate; Adenosine Triphosphate; Antigens CD; Antineoplastic Agents Phytogenic; Apyrase; Autocrine Communication; Cell Death; Cell Differentiation; Cell Movement; Cell Survival; Etoposide; Extracellular Space; GPI-Linked Proteins; Humans; Leukemia Lymphocytic Chronic B-Cell; Paracrine Communication; Receptor Adenosine A2A; Tumor Cells Cultured; Biochemistry; Immunology; Hematology; Cell BiologyMICROENVIRONMENTCD38BiochemistryACTIVATIONAdenosine TriphosphateCell MovementPhytogenichemic and lymphatic diseasesTumor Cells CulturedChronic5'-NucleotidaseEtoposideLeukemiaCulturedCell DeathTUMOR-GROWTHApyrasePurinergic receptorCell DifferentiationHematologyLymphocyticCDTumor CellsCell biologyAdenosine DiphosphateAutocrine CommunicationLeukemiaReceptorIMMUNE SUPPRESSIONReceptor Adenosine A2ACell SurvivalImmunologyAntineoplastic AgentsAdenosinergicBiologyGPI-Linked ProteinsDAMAGE-INDUCED APOPTOSISAdenosine A2AParacrine signallingAntigens CDParacrine CommunicationmedicineHumansAntigensAutocrine signallingImmunobiologyB-CellCell BiologyDAMAGE-INDUCED APOPTOSIS; T-CELLS; IMMUNE SUPPRESSION; ZAP-70 EXPRESSION; TUMOR-GROWTH; RECEPTOR; CD73; ACTIVATION; CD38; MICROENVIRONMENTmedicine.diseaseAntineoplastic Agents PhytogenicLeukemia Lymphocytic Chronic B-CellSettore MED/15 - MALATTIE DEL SANGUET-CELLSCD73Extracellular SpaceZAP-70 EXPRESSIONCD38Blood
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Regulatory T cell-derived adenosine induces dendritic cell migration through the Epac-Rap1 pathway.

2014

Abstract Dendritic cells (DC) are one target for immune suppression by regulatory T cells (Treg), because their interaction results in reduced T cell stimulatory capacity and secretion of inhibitory cytokines in DC. We show that DC in the presence of Treg are more mobile as compared with cocultures with conventional CD4+ T cells and form DC–Treg aggregates within 2 h of culture. The migration of DC was specifically directed toward Treg, as Treg, but not CD4+ T cells, attracted DC in Boyden chambers. Treg deficient for the ectonucleotidase CD39 were unable to attract DC. Likewise, addition of antagonists for A2A adenosine receptors abolished the formation of DC–Treg clusters, indicating a ro…

AdenosineRegulatory T cellT cellImmunologyMedizinchemical and pharmacologic phenomenaCell CommunicationBiologyT-Lymphocytes RegulatoryMiceAdenosine TriphosphateAntigens CDCell MovementmedicineImmunology and AllergyAnimalsGuanine Nucleotide Exchange FactorsDendritic cell migrationReceptors Adenosine A2Apyraserap1 GTP-Binding Proteinshemic and immune systemsDendritic CellsActin cytoskeletonAdenosineAdenosine receptorCell biologyActin Cytoskeletonmedicine.anatomical_structureRap1Signal transductionmedicine.drugSignal TransductionJournal of immunology (Baltimore, Md. : 1950)
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Use of the polymerase chain reaction to demonstrate hepatitis B virus DNA in serum of children with chronic hepatitis B.

1992

The polymerase chain reaction was used to investigate the presence of hepatitis B virus DNA in sera of 61 children with chronic hepatitis B and negative results on dot biot hybridization tests. Our results demonstrate that most chronic carriers of hepatitis B surface antigen in childhood have hepatitis B virus DNA detectable by polymerase chain reaction in their serum and must be considered infectious.

AdolescentHepatitis B virus DNA polymeraseHepatitis B virus DNAmedicine.disease_causePolymerase Chain ReactionVirusHepatitis B virus PRE betalaw.inventionChronic hepatitislawMedicineHumansHepatitis B e AntigensHepatitis B AntibodiesChildPolymerase chain reactionHepatitis B virusbiologybusiness.industryInfantbiology.organism_classificationHepatitis BVirologyHepadnaviridaeChild PreschoolPediatrics Perinatology and Child HealthChronic DiseaseDNA ViralbusinessThe Journal of pediatrics
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Induction of B-cell development in adult mice reveals the ability of bone marrow to produce B-1a cells

2009

AbstractTo study B-cell development from bone marrow (BM), we generated recombination-activating gene 1 (Rag1)–targeted mice lacking mature lymphocytes. B-cell development can be induced in such mice by B cell–specific restoration of a functional Rag1 transcription unit. Follicular and marginal zone B cells populated the spleen when Rag1 expression was permitted. Notably, the peritoneal cavity was dominated by bona fide B-1a cells, as judged by surface markers and functional properties. These BM-derived B-1a cells exhibited a polyclonal VDJ repertoire with substantial N nucleotide insertions. Nevertheless, physiologic frequencies of phosphatidylcholine-specific B cells were detected. Import…

Adoptive cell transfer1303 BiochemistryGenes RAG-1Immunology2720 HematologyB-Lymphocyte SubsetsSpleenBone Marrow CellsEnzyme-Linked Immunosorbent AssayMice Transgenic610 Medicine & healthBiology10263 Institute of Experimental ImmunologyBiochemistryPolymerase Chain ReactionRecombination-activating gene1307 Cell BiologyPeritoneal cavityMicemedicineAnimalsB cellB-Lymphocytes2403 ImmunologyStem CellsCell DifferentiationCell BiologyHematologyMarginal zoneFlow CytometryMolecular biologyAdoptive Transfermedicine.anatomical_structureImmunoglobulin MImmunologybiology.protein570 Life sciences; biologyBone marrow
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Controversies on the role of Th17 in cancer: a TGF-β-dependent immunosuppressive activity?

2012

The immune system has important roles in limiting the spread of cancer and shaping the tumor microenvironment. Although the contributions of T helper 17 (Th17) cells (a subtype of CD4(+) T lymphocytes) to autoimmunity and allergy response are well known, their roles in cancer remain ambiguous. Despite adoptive transfer studies indicating that mouse Th17 cells support anticancer immunity, the Th17 cells that naturally infiltrate experimental tumors appear to have a tumor-promoting effect. These contradictory properties can be related to the high degree of plasticity inherent in Th17 cells and their capacity to differentiate into tumoricidal Th1-like cells. Mouse Th17 cells induced by transfo…

Adoptive cell transferAngiogenesisAntigen-Presenting Cellschemical and pharmacologic phenomenaBiologymedicine.disease_causeAutoimmunityMice03 medical and health sciences0302 clinical medicineImmune systemAntigenAntigens CDTransforming Growth Factor betaImmunityNeoplasmsImmune TolerancemedicineAnimals5'-NucleotidaseMolecular Biology030304 developmental biologyImmunity Cellular0303 health sciencesTumor microenvironmentNeovascularization PathologicApyraseModels ImmunologicalCell DifferentiationTh1 Cells3. Good health030220 oncology & carcinogenesisImmunologyCancer researchTh17 CellsMolecular MedicineTransforming growth factorTrends in Molecular Medicine
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Genetic proof for the transient nature of the Th17 phenotype

2010

IL-17-producing CD4(+) T cells (Th17) have been classified as a new T helper cell subset. Using an IL-17 fate mapping mouse strain, which genetically fixes the memory of IL-17 expression, we demonstrate that IL-17A/F-expressing T helper cells generated either in vitro or in vivo are not a stable T-cell subset. Upon adoptive transfer of IL-17F-reporter-positive Th17 cells to RAG-deficient or WT animals, encephalitogenic Th17 cells partially lose IL-17 expression and upregulate IFN-γ. Additionally, we show that Th1 cells can convert in vivo to IL-17A/IFN-γ-coexpressing cells in the mesenteric lymph nodes (mLN). Our data classify IL-17A and IL-17F as cytokines produced transiently in response …

Adoptive cell transferEncephalomyelitis Autoimmune ExperimentalGenes RAG-1TransgeneImmunologyReceptors Antigen T-CellMice TransgenicBiologyLymphocyte ActivationInterferon-gammaMiceInterleukin 21AntigenGenes ReporterT-Lymphocyte SubsetsIn vivomedicineAnimalsImmunology and AllergyCytotoxic T cellMesenteric lymph nodesMice KnockoutIntegrasesCell DifferentiationT helper cellTh1 CellsAdoptive TransferCell biologyMice Inbred C57BLmedicine.anatomical_structureGene Expression RegulationImmunologyTh17 CellsEuropean Journal of Immunology
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Stat3 and Gfi-1 Transcription Factors Control Th17 Cell Immunosuppressive Activity via the Regulation of Ectonucleotidase Expression

2012

International audience; Although Th17 cells are known to promote tissue inflammation and autoimmunity, their role during cancer progression remains elusive. Here, we showed that in vitro Th17 cells generated with the cytokines IL-6 and TGF-β expressed CD39 and CD73 ectonucleotidases, leading to adenosine release and the subsequent suppression of CD4(+) and CD8(+) T cell effector functions. The IL-6-mediated activation of the transcription factor Stat3 and the TGF-β-driven downregulation of Gfi-1 transcription factor were both essential for the expression of ectonucleotidases during Th17 cell differentiation. Stat3 supported whereas Gfi-1 repressed CD39 and CD73 expression by binding to thei…

Adoptive cell transferMESH : Transcription FactorsCellular differentiationMESH: Th17 CellsT-LymphocytesCellMESH : Promoter Regions GeneticMESH : RNA Small InterferingMESH: Mice KnockoutMice0302 clinical medicineTransforming Growth Factor betaMESH: RNA Small InterferingMESH : STAT3 Transcription FactorImmunology and Allergy[ SDV.IMM ] Life Sciences [q-bio]/ImmunologyEctonucleotidaseMESH: AnimalsRNA Small InterferingSTAT3MESH: Lymphocytes Tumor-InfiltratingPromoter Regions GeneticMESH: Antigens CD5'-NucleotidaseRegulation of gene expressionMice Knockout0303 health sciencesMESH : Gene Expression RegulationApyraseMESH: STAT3 Transcription FactorMESH: Transcription FactorsMESH: Gene Expression RegulationMESH : Mice TransgenicCell biologyMESH : Lymphocytes Tumor-InfiltratingDNA-Binding ProteinsMESH : ApyraseInfectious Diseasesmedicine.anatomical_structure[SDV.IMM]Life Sciences [q-bio]/ImmunologyMESH : DNA-Binding ProteinsMESH: ApyraseSTAT3 Transcription Factor[SDV.IMM] Life Sciences [q-bio]/ImmunologyMESH : Interleukin-6MESH: Mice TransgenicT cellImmunologyMice TransgenicMESH : Mice Inbred C57BLBiology03 medical and health sciencesLymphocytes Tumor-InfiltratingMESH: Mice Inbred C57BLAntigens CDMESH: Promoter Regions GeneticMESH : 5'-NucleotidaseMESH : MicemedicineMESH : Antigens CDMESH : Th17 CellsAnimalsTranscription factorMESH: MiceMESH: Transforming Growth Factor beta030304 developmental biologyMESH : T-LymphocytesBinding SitesInterleukin-6MESH: Interleukin-6Mice Inbred C57BLMESH: T-LymphocytesMESH : Transforming Growth Factor betaMESH: Binding SitesGene Expression Regulationbiology.proteinMESH : Mice KnockoutTh17 CellsMESH : AnimalsMESH: 5'-NucleotidaseMESH: DNA-Binding ProteinsMESH : Binding Sites030215 immunologyTranscription FactorsImmunity
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