Search results for "Kinase"

showing 10 items of 2635 documents

Anti-inflammatory Function of High-Density Lipoproteins via Autophagy of IκB Kinase

2015

Background & Aims: Plasma levels of high-density lipoprotein (HDL) cholesterol are frequently found decreased in patients with inflammatory bowel disease (IBD). Therefore, and because HDL exerts anti-inflammatory activities, we investigated whether HDL and its major protein component apolipoprotein A-I (apoA-I) modulate mucosal inflammatory responses in vitro and in vivo. Methods: The human intestinal epithelial cell line T84 was used as the in vitro model for measuring the effects of HDL on the expression and secretion of tumor necrosis factor (TNF), interleukin-8 (IL-8), and intracellular adhesion molecule (ICAM). Nuclear factor-κB (NF-κB)-responsive promoter activity was studied by …

WT wild typeApolipoprotein BEMSA electrophoretic mobility shift assayMPO myeloperoxidaseIκB kinaseDSS dextran sodium sulphatemTOR the mammalian target of rapamycinRT-PCR real-time polymerase chain reactionNF-κBchemistry.chemical_compound540 ChemistryApoA-I apolipoprotein A-I10038 Institute of Clinical ChemistryOriginal ResearchTNF tumor necrosis factorbiologyIBD inflammatory bowel diseaseChemistryGastroenterologyMyeloperoxidase10076 Center for Integrative Human PhysiologyMEICS murine endoscopic index of colitis severityTumor necrosis factor alphalipids (amino acids peptides and proteins)3-MA 3-methyl adenineNF-κB nuclear factor κBHDL high-density lipoproteinLC3II light chain 3 IIPBS phosphate-buffered salinep-IKK phosphorylated IκB kinase610 Medicine & healthICAM intracellular adhesion molecule246-Trinitrobenzenesulfonic acidTg transgenicmedicineAutophagyCD Crohn’s disease2715 GastroenterologyColitislcsh:RC799-869KO knockoutHepatologyApolipoprotein A-IAutophagyInflammatory Bowel DiseaseTNBS 246-trinitrobenzenesulfonic acidmedicine.diseaseMolecular biologyIL interleukinsiRNA small interfering RNAPI-3 phosphatidylinositol-3Immunologybiology.protein2721 Hepatologylcsh:Diseases of the digestive system. GastroenterologyPFA paraformaldehydeLipoproteinDAPI 4′6-diamidino-2-phenylindoleCMGH Cellular and Molecular Gastroenterology and Hepatology
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NAD(P)H regeneration is the key for heterolactic fermentation of hexoses in Oenococcus oeni

2002

Oenococcus oeni (formerly Leuconostoc oenos) can perform malolactic fermentation, converting L-malate to L-lactate and carbon dioxide, in wines. The energy and redox potential required to support the growth of the micro-organism are supplied mainly by the consumption of carbohydrates via the heterolactic pathway. In the first steps of hexose metabolism two molecules of NAD(P)(+) are consumed, which must be regenerated in later reactions. The aim of this work was to test if aerobic growth of O. oeni promotes higher cell yields than anaerobic conditions, as has been shown for other lactic acid bacteria. O. oeni M42 was found to grow poorly under aerobic conditions with glucose as the only car…

WineFructoseMicrobiologyCofactorchemistry.chemical_compoundMalolactic fermentationAnaerobiosisOenococcus oenibiologyEthanolFructoseCarbohydratebiology.organism_classificationAerobiosisLactic acidCulture MediaGram-Positive CocciGlucosechemistryBiochemistryFermentationbiology.proteinNAD+ kinaseAnaerobic exerciseLeuconostocNADP
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Wee1 inhibition potentiates Wip1-dependent p53-negative tumor cell death during chemotherapy

2016

AbstractInactivation of p53 found in more than half of human cancers is often associated with increased tumor resistance to anti-cancer therapy. We have previously shown that overexpression of the phosphatase Wip1 in p53-negative tumors sensitizes them to chemotherapeutic agents, while protecting normal tissues from the side effects of anti-cancer treatment. In this study, we decided to search for kinases that prevent Wip1-mediated sensitization of cancer cells, thereby interfering with efficacy of genotoxic anti-cancer drugs. To this end, we performed a flow cytometry-based screening in order to identify kinases that regulated the levels of γH2AX, which were used as readout. Another criter…

Wip1ApoptosisCell Cycle ProteinsPharmacologyMESH: G2 Phase Cell Cycle CheckpointsHistonesMESH : PhosphorylationMiceMESH : Cell Cycle ProteinsMESH: AnimalsMESH: Tumor Suppressor Protein p53MESH: HistonesKinaseTp53 mutationsMESH : Mice Transgenic3. Good healthProtein Phosphatase 2CSurvival RateMESH : Antineoplastic AgentsH2ax phosphorylationP53 activationMESH: Protein Phosphatase 2CRNA InterferenceMESH : Colorectal NeoplasmsMESH : Carrier ProteinsHistone H2axMESH: MitochondriaImmunologyHuman fibroblastsMESH: Carrier ProteinsAntineoplastic AgentsMESH: Protein-Tyrosine KinasesMESH: Protein-Serine-Threonine KinasesMESH : Cisplatin03 medical and health sciencesMESH: Cell Cycle ProteinsGenotoxic stressMESH : Protein-Tyrosine KinasesHumansMESH : HistonesAnticancer TherapyMESH: DNA DamageCisplatinMESH: HumansMESH: Phosphorylation[ SDV.BC ] Life Sciences [q-bio]/Cellular BiologyMESH : HumansMESH : Nuclear Proteins030104 developmental biologyCancer cellMESH: Antineoplastic AgentsCisplatinCarrier ProteinsMESH: Nuclear ProteinsMESH : ApoptosisDna-damage response0301 basic medicineCancer ResearchMESH: Caspase 3MESH : Caspase 3PhosphorylationCytotoxicityMESH : DNA DamageSensitizationmedicine.diagnostic_testCaspase 3Nuclear ProteinsProtein-Tyrosine KinasesMESH : Survival RateMitochondriaG2 Phase Cell Cycle CheckpointsWee1medicine.anatomical_structureMESH : Protein Phosphatase 2COriginal ArticleMESH : MitochondriaColorectal Neoplasmsmedicine.drugMESH : Protein-Serine-Threonine KinasesMESH: Cell Line TumorMESH: Survival RateMESH: Mice TransgenicMESH: RNA InterferencePhosphataseMice Transgenic[SDV.BC]Life Sciences [q-bio]/Cellular BiologyBiologyProtein Serine-Threonine KinasesFlow cytometryCellular and Molecular NeuroscienceCell Line TumorMESH : MicemedicineAnimalsMESH: MiceMESH : Cell Line TumorMESH: ApoptosisCell BiologyMESH : Tumor Suppressor Protein p53MESH: CisplatinCancer researchbiology.proteinMESH : AnimalsMESH : G2 Phase Cell Cycle CheckpointsMESH : RNA InterferenceTumor Suppressor Protein p53MESH: Colorectal NeoplasmsDNA DamageCell Death & Disease
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Depletion ofL-arginine induces autophagy as a cytoprotective response to endoplasmic reticulum stress in human T lymphocytes

2012

PMCID: PMC3494587

X-Box Binding Protein 1Proteasome Endopeptidase ComplexProgrammed cell deathXBP1CD3 ComplexMAP Kinase Signaling SystemRNA SplicingT-LymphocytesT cellDown-RegulationApoptosisRegulatory Factor X Transcription FactorsUbiquitin-Activating EnzymesProtein Serine-Threonine KinasesBiologyArginineLymphocyte ActivationAutophagy-Related Protein 7Jurkat cellsJurkat CellsEndoribonucleasesAutophagymedicineHumansMolecular BiologyCell ProliferationTOR Serine-Threonine KinasesAutophagyMembrane ProteinsCell BiologyBECN1Endoplasmic Reticulum StressG1 Phase Cell Cycle CheckpointsBasic Research Paper3. Good healthCell biologyDNA-Binding Proteinsmedicine.anatomical_structureCytoprotectionApoptosisUnfolded protein responseBeclin-1MitogensApoptosis Regulatory ProteinsLysosomesProto-Oncogene Proteins c-aktTranscription FactorsAutophagy
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Creatine kinase is the main target of reactive oxygen species in cardiac myofibrils.

1996

Abstract Reactive oxygen species (ROS) have been reported to alter cardiac myofibrillar function as well as myofibrillar enzymes such as myosin ATPase and creatine kinase (CK). To understand their precise mode and site of action in myofibrils, the effects of the xanthine/xanthine oxidase (X/XO) system or of hydrogen peroxide (H 2 O 2 ) have been studied in the presence and in the absence of phosphocreatine (PCr) in Triton X-100–treated cardiac fibers. We found that xanthine oxidase (XO), with or without xanthine, induced a decrease in maximal Ca 2+ -activated tension. We attributed this effect to the high contaminating proteolytic activity in commercial XO preparations, since it could be p…

Xanthine OxidasebiologyFree RadicalsPhysiologyMyosin ATPaseSuperoxideHydrogen PeroxideMyosinsXanthineMyocardial ContractionPhosphocreatineRatschemistry.chemical_compoundchemistryBiochemistryMyofibrilsbiology.proteinAnimalsCreatine kinasePMSFCardiology and Cardiovascular MedicineMyofibrilXanthine oxidaseReactive Oxygen SpeciesCreatine KinaseCirculation research
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Polar Localization of a Tripartite Complex of the Two-Component System DcuS/DcuR and the Transporter DctA in Escherichia coli Depends on the Sensor K…

2014

The C4-dicarboxylate responsive sensor kinase DcuS of the DcuS/DcuR two-component system of E. coli is membrane-bound and reveals a polar localization. DcuS uses the C4-dicarboxylate transporter DctA as a co-regulator forming DctA/DcuS sensor units. Here it is shown by fluorescence microscopy with fusion proteins that DcuS has a dynamic and preferential polar localization, even at very low expression levels. Single assemblies of DcuS had high mobility in fast time lapse acquisitions, and fast recovery in FRAP experiments, excluding polar accumulation due to aggregation. DctA and DcuR fused to derivatives of the YFP protein are dispersed in the membrane or in the cytosol, respectively, when …

Yellow fluorescent proteinCardiolipinslcsh:MedicineMicrobiologyMreBMicrobial PhysiologyBacterial Physiologylcsh:ScienceCytoskeletonMicrobial MetabolismDicarboxylic Acid TransportersMultidisciplinaryEscherichia coli K12biologyBacterial GrowthEscherichia coli Proteinslcsh:RMicrobial Growth and DevelopmentBiology and Life SciencesFluorescence recovery after photobleachingBacteriologyFusion proteinTwo-component regulatory systemBacterial BiochemistryTransport proteinDNA-Binding ProteinsProtein TransportBiochemistryCytoplasmMultiprotein ComplexesBiophysicsbiology.proteinlcsh:QProtein KinasesResearch ArticleDevelopmental BiologyTranscription FactorsPLoS ONE
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Polar accumulation of the metabolic sensory histidine kinases DcuS and CitA in Escherichia coli

2008

Signal transduction in prokaryotes is frequently accomplished by two-component regulatory systems in which a histidine protein kinase is the sensory component. Many of these sensory kinases control metabolic processes that do not show an obvious requirement for inhomogeneous distribution within bacterial cells. Here, the sensory kinases DcuS and CitA, two histidine kinases of Escherichia coli, were investigated. Both are membrane-integral and involved in the regulation of carboxylate metabolism. The two-component sensors were fused with yellow fluorescent protein (YFP) and live images of immobilized cells were obtained by confocal laser fluorescence microscopy. The fluorescence of the fusio…

Yellow fluorescent proteinbiologyKinaseEscherichia coli ProteinsRecombinant Fusion ProteinsCell PolarityMicrobiologyFusion proteinLuminescent ProteinsProtein TransportBacterial ProteinsBiochemistryCytoplasmEscherichia colibiology.proteinSignal transductionCell fractionationProtein kinase AProtein KinasesHistidineMicrobiology
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Alteration of the YY1/RKIP ratio is a frequent event in hepatocellular carcinoma

2009

Yin Yang 1 Raf-1 kinase inhibitor protein Hepatocellular carcinoma ApoptosisSettore MED/12 - GastroenterologiaSettore MED/06 - Oncologia MedicaSettore BIO/14 - Farmacologia
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Kondrat'eva ligation: Diels-Alder-based irreversible reaction for bioconjugation.

2014

International audience; Diversification of existing chemoselective ligations is required to efficiently access complex and well-defined biomolecular assemblies with unique and valuable properties. The development and bioconjugation applications of a novel Diels-Alder-based irreversible site-specific ligation are reported. The strategy is based on a Kondrat'eva cycloaddition between bioinert and readily functionalizable 5-alkoxyoxazoles and maleimides that readily react together under mild and easily tunable reaction conditions to afford a fully stable pyridine scaffold. The potential of this novel bioconjugation is demonstrated through the preparation of fluorescent conjugates of biomolecul…

[CHIM.THER]Chemical Sciences/Medicinal ChemistryLigandsCatalysis[CHIM.ANAL]Chemical Sciences/Analytical chemistryFluorescence Resonance Energy TransferOrganic chemistryNuclear Magnetic Resonance BiomolecularOxazoleschemistry.chemical_classificationBioconjugationCycloaddition ReactionMolecular Structure[CHIM.ORGA]Chemical Sciences/Organic chemistryChemistryBiomoleculeOrganic Chemistry[CHIM.CATA]Chemical Sciences/CatalysisFluorescenceUrokinase-Type Plasminogen ActivatorCycloaddition[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryEnzyme ActivationFörster resonance energy transferLigationPlasminogen activator[CHIM.CHEM]Chemical Sciences/CheminformaticsConjugateThe Journal of organic chemistry
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The evolution of nitric oxide signalling diverges between the animal and the green lineages

2019

AbstractNitric oxide (NO) is a ubiquitous signalling molecule with widespread distribution in prokaryotes and eukaryotes where it is involved in countless physiological processes. While the mechanisms governing nitric oxide (NO) synthesis and signalling are well established in animals, the situation is less clear in the green lineage. Recent investigations have shown that NO synthase, the major enzymatic source for NO in animals, is absent in land plants but present in a limited number of algae. The first detailed analysis highlighted that these new NO synthases are functional but display specific structural features and probably original catalytic activities. Completing this picture, analy…

[SDE] Environmental Sciences0106 biological sciencesAlgaePhysiologyLineage (evolution)[SDV]Life Sciences [q-bio]RegulatorPlant ScienceSignalling01 natural sciencesNitric oxideEvolution Molecular03 medical and health scienceschemistry.chemical_compoundcyclic nucleotide-gated channel[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyAnimals[SDV.BV] Life Sciences [q-bio]/Vegetal BiologyPhosphodiesteraseCyclic GMPComputingMilieux_MISCELLANEOUS030304 developmental biology0303 health sciencesCGMPbiologyMechanism (biology)KinaseNitric oxide synthaseNitric oxidePlantPlantsGuanylate cyclaseCell biology[SDV] Life Sciences [q-bio]Nitric oxide synthaseSignallingchemistrycGMP-dependent protein kinase[SDE]Environmental Sciencesbiology.proteincGMP-dependent protein kinase010606 plant biology & botanySignal Transduction
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