Search results for "Multienzyme Complexes"

showing 10 items of 50 documents

Membrane D-lactate oxidase in Zymomonas mobilis: evidence for a branched respiratory chain.

1998

Respiratory chain composition of the ethanol-producing bacterium Zymomonas mobilis was studied. Its membrane D-lactate oxidase was characterised. With NADH, but not D-lactate as substrate, a cytochrome o-like component was seen in CO difference spectra. Chlorpromazine specifically inhibited reduction of cytochrome d, while myxothiazol eliminated the cytochrome o-like features in CO difference spectra. It is suggested that electrons from NADH are distributed between branches terminated by the cytochrome o-like component, cytochrome a, and cytochrome d. With D-lactate, electrons are transported to cytochrome a, or an unidentified CN(-)-sensitive oxidase, and cytochrome d.

StereochemistryChlorpromazineMicrobiologyMixed Function OxygenasesElectron Transportchemistry.chemical_compoundOxygen ConsumptionCytochrome C1Multienzyme ComplexesGeneticsCytochrome c oxidaseNADH NADPH OxidoreductasesLactic AcidMolecular BiologyZymomonasbiologyMyxothiazolCytochrome b6f complexCytochrome bCytochrome cCytochrome dNADAerobiosisThiazolesBiochemistrychemistrySpectrophotometryCoenzyme Q – cytochrome c reductasebiology.proteinCytochromesMethacrylatesOxidation-ReductionFEMS microbiology letters

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Gamma-lactone-Functionalized antitumoral acetogenins are the most potent inhibitors of mitochondrial complex I.

2001

To study the relevance of the terminal alpha,beta-unsaturated gamma-methyl-gamma-lactone moiety of the antitumoral acetogenins of Annonaceae for potent mitochondrial complex I inhibition, we have prepared a series of semisynthetic acetogenins with modifications only in this part of the molecule, from the natural rolliniastatin-1 (1) and cherimolin-1 (2). Some of the hydroxylated derivatives (1b, 1d and 1e) in addition to two infrequent natural beta-hydroxy gamma-methyl gamma-lactone acetogenins, laherradurin (3) and itrabin (4), are more potent complex I inhibitors than any other known compounds.

StereochemistryClinical BiochemistrySubmitochondrial ParticlesPharmaceutical ScienceAntineoplastic AgentsMitochondrionBiochemistryMitochondria HeartLactonesMagnoliopsidaMultienzyme ComplexesDrug DiscoveryMoietyAnimalsNADH NADPH OxidoreductasesFuransMolecular Biologychemistry.chemical_classificationElectron Transport Complex IbiologyMolecular StructureOrganic ChemistryBiological activitybiology.organism_classificationIn vitroEnzymechemistryEnzyme inhibitorAnnonaceaebiology.proteinMolecular MedicineCattleLactoneBioorganicmedicinal chemistry letters

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Specific interactions of monotetrahydrofuranic annonaceous acetogenins as inhibitors of mitochondrial complex I.

2000

Annonaceous acetogenins (ACG) are a wide group of cytotoxic compounds isolated from plants of the Annonaceae family. Some of them are promising candidates to be a future new generation of antitumor drugs due to the ability to inhibit the NADH:ubiquinone oxidoreductase of the respiratory chain (mitochondrial complex I), main gate of the energy production in the cell. ACG are currently being tested on standard antitumor trials although little is known about the structure activity relationship at the molecular level. On recent studies, the relevance of several parts of the molecule for the inhibitory potency has been evaluated. Due to the great diversity of skeletons included in this family of…

StereochemistryRespiratory chainHerb-Drug InteractionsToxicologyMitochondria HeartLactonesOxidoreductaseMultienzyme ComplexesMoleculeMoietyStructure–activity relationshipAnimalsDrug InteractionsNADH NADPH OxidoreductasesEnzyme InhibitorsFuransAlkylChromatography High Pressure Liquidchemistry.chemical_classificationElectron Transport Complex IbiologyPlant ExtractsGeneral Medicinebiology.organism_classificationAntineoplastic Agents PhytogenicchemistryElectron Transport Complex IBiochemistryAnnonaceaeSeedsCattlePhytotherapyChemico-biological interactions

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Incorporation of ATP synthetase into long-term stable liposomes of a polymerizable synthetic sulfolipid

1981

SulfolipidPolymersUltraviolet RaysLipid BilayersBiophysicsRhodospirillum rubrumModels BiologicalBiochemistrychemistry.chemical_compoundMultienzyme ComplexesStructural BiologyGeneticsFreeze FracturingMolecular BiologyLiposomeATP synthasebiologyChemistryPhosphotransferasesCell BiologySulfuric AcidsLipidsATP Synthetase ComplexesAdenosine DiphosphateEnzyme ActivationMicroscopy ElectronBiochemistryLiposomesbiology.proteinFEBS Letters

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Induction of apoptosis in human osteosarcoma Saos-2 cells by the proteasome inhibitor MG132 and the protective effect of pRb

2003

Induction of apoptosis in human osteosarcoma Saos-2 cells by the proteasome inhibitor MG132 and the protective effect of pRb

Time FactorsLeupeptinsApoptosisRetinoblastoma ProteinAntioxidantsAmino Acid Chloromethyl KetonesMembrane Potentialschemistry.chemical_compoundSettore BIO/10 - BiochimicaMG132Caspase 8OsteosarcomaChemistryCaspase 3Cytochromes cFlow CytometryMitochondriaCysteine EndopeptidasesProto-Oncogene Proteins c-bcl-2CaspasesOsteosarcomamedicine.drugmusculoskeletal diseasesProteasome Endopeptidase ComplexCell SurvivalBlotting Westernbcl-X Proteinmacromolecular substancesTransfectionMultienzyme ComplexesCell Line Tumorparasitic diseasesmedicineHumansProtease InhibitorsneoplasmsMolecular BiologySaos-2 cellsDose-Response Relationship DrugCell Biologymedicine.diseaseAcetylcysteineApoptosis osteosarcoma proteasome inhibitorsMicroscopy FluorescenceApoptosisCancer researchProteasome inhibitorTumor Suppressor Protein p53Reactive Oxygen Specieshuman activities

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α-Synuclein expression levels do not significantly affect proteasome function and expression in mice and stably transfected PC12 cell lines

2004

α-Synuclein (α-syn) is a small protein of unknown function that is found aggregated in Lewy bodies, the histopathological hallmark of sporadic Parkinson disease and other synucleinopathies. Mutations in the α-syn gene and a triplication of its gene locus have been identified in early onset familial Parkinson disease. α-Syn turnover can be mediated by the proteasome pathway. A survey of published data may lead to the suggestion that overexpression of α-syn wild type, and/or their variants (A53T and A30P), may produce a decrease in proteasome activity and function, contributing to α-syn aggregation. To investigate the relationship between synuclein expression and proteasome function we have s…

Time Factorsanimal diseasesmedicine.disease_causePC12 CellsBiochemistryMicechemistry.chemical_compoundTransgenesPromoter Regions GeneticMice KnockoutGeneticsMutationInnervationBrainParkinson DiseaseProteasome complexAmyloidosisCell biologyInnervacióalpha-SynucleinAdditions and CorrectionsPèptidsPlasmidsProteasome Endopeptidase ComplexPrionsProtein subunitBlotting WesternImmunoblottingSynucleinsMice TransgenicNerve Tissue ProteinsBiologyTransfectionBacterial ProteinsMultienzyme ComplexesmedicineAnimalsImmunoprecipitationMolecular BiologyAlpha-synucleinSynucleinopathiesEpilepsyWild typeGenetic VariationCell BiologyAxonsRatsnervous system diseasesMice Inbred C57BLEpilèpsiaDisease Models AnimalLuminescent ProteinschemistryProteasomenervous systemSinapsiMutationSynapsesSynucleinAmiloïdosiPeptides

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Novel inhibitors of mitochondrial respiratory chain: endoperoxides from the marine tunicate Stolonica socialis.

2001

The Mediterranean tunicate Stolonica socialis contains a new class of powerful cytotoxic acetogenins, generically named stolonoxides. In this paper, which also details the isolation and chemical characterization of a minor component (3a) of the tunicate extract, we report the potent inhibitory activity (IC(50) < 1 microM) of stolonoxides (1a and 3a) on mitochondrial electron transfer. The compounds affect specifically the functionality of complex II (succinate:ubiquinone oxidoreductase) and complex III (ubiquinol:cytochrome C oxidoreductase) in mammalian cells, thereby causing a rapid collapse of the whole energetic metabolism. This result, which differs from the properties of similar known…

UbiquinolMagnetic Resonance SpectroscopyStereochemistryIn Vitro TechniquesFunctional activityElectron Transportchemistry.chemical_compoundElectron Transport Complex IIIMarine Natural ProductOxidoreductaseMultienzyme ComplexesDrug DiscoveryMediterranean SeaAnimalsNADH NADPH OxidoreductasesUrochordataEnzyme InhibitorsFuranschemistry.chemical_classificationElectron Transport Complex IbiologyCytochrome cElectron Transport Complex IISuccinate dehydrogenaseElectron Transport Complex IIMyocardiumDioxolanesMitochondriaPeroxidesSuccinate DehydrogenaseMitochondrial respiratory chainchemistryBiochemistryElectron Transport Complex ICoenzyme Q – cytochrome c reductasebiology.proteinMolecular MedicineCattleStructure ElucidationOxidoreductasesJournal of medicinal chemistry

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New molecular aspects of regulation of mitochondrial activity by fenofibrate and fasting

2000

Abstract Fenofibrate and fasting are known to regulate several genes involved in lipid metabolism in a similar way. In this study measuring several mitochondrial enzyme activities, we demonstrate that, in contrast to citrate synthase and complex II, cytochrome c oxidase (COX) is a specific target of these two treatments. In mouse liver organelles, Western blot experiments indicated that mitochondrial levels of p43, a mitochondrial T3 receptor, and mitochondrial peroxisome proliferator activated receptor (mt-PPAR), previously described as a dimeric partner of p43 in the organelle, are increased by both fenofibrate and fasting. In addition, in PPARα-deficient mice, this influence was abolishe…

[SDV]Life Sciences [q-bio]Receptors Cytoplasmic and NuclearPeroxisome proliferator-activated receptorMitochondria LiverMitochondrionBiochemistryMice0302 clinical medicineFenofibrateStructural BiologyBIOLOGIE CELLULAIRECitrate synthaseFibrateReceptorComputingMilieux_MISCELLANEOUSMice Knockoutchemistry.chemical_classification0303 health sciencesFenofibratebiologyElectron Transport Complex IIFastingPeroxisomeDNA-Binding ProteinsSuccinate Dehydrogenase[SDV] Life Sciences [q-bio]OxidoreductasesDimerizationmedicine.drugPeroxisome proliferator activated receptormedicine.medical_specialtyBiophysicsCitrate (si)-Synthase[INFO] Computer Science [cs]Mitochondrial T3 receptorElectron Transport Complex IV03 medical and health sciencesMultienzyme ComplexesInternal medicineGeneticsmedicineAnimalsCytochrome c oxidase[INFO]Computer Science [cs]MitochondrionMolecular BiologyCrosses Genetic030304 developmental biologyOrganellesLipid metabolismCell BiologyMice Inbred C57BLEndocrinologychemistrybiology.protein030217 neurology & neurosurgeryTranscription Factors

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Engineering a Saccharomyces cerevisiae Wine Yeast That Exhibits Reduced Ethanol Production during Fermentation under Controlled Microoxygenation Cond…

2006

ABSTRACTWe recently showed that expressing an H2O-NADH oxidase inSaccharomyces cerevisiaedrastically reduces the intracellular NADH concentration and substantially alters the distribution of metabolic fluxes in the cell. Although the engineered strain produces a reduced amount of ethanol, a high level of acetaldehyde accumulates early in the process (1 g/liter), impairing growth and fermentation performance. To overcome these undesirable effects, we carried out a comprehensive analysis of the impact of oxygen on the metabolic network of the same NADH oxidase-expressing strain. While reducing the oxygen transfer rate led to a gradual recovery of the growth and fermentation performance, its i…

[SDV]Life Sciences [q-bio]Saccharomyces cerevisiaeWineMICROOXYGENATIONEthanol fermentationBiologyApplied Microbiology and Biotechnology03 medical and health scienceschemistry.chemical_compoundOxygen ConsumptionMultienzyme ComplexesETHANOLNADPHEthanol fuelNADH NADPH Oxidoreductases030304 developmental biologySACCHAROMYCES CEREVISIAE0303 health sciencesEcology030306 microbiologyAcetaldehydebiology.organism_classificationPhysiology and BiotechnologyMicrooxygenationYeastRecombinant ProteinsLactococcus lactisYeast in winemakingKineticsGlucosechemistryBiochemistryGenes BacterialFermentationWINE YEASTFermentationGenetic EngineeringFood ScienceBiotechnology

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Inhibition of the herpes simplex virus-coded thymidine kinase-complex by 9-?-D-arabinofuranosyladenine 5?-monophosphate (ara-AMP) and 9-(2-hydroxyeth…

1984

The thymidine kinase-complex isolated from herpes simplex virus type 1 and type 2 (HSV-1 and HSV-2) is associated with the following enzyme activities: ATP:dThd (dCyd) deoxypyrimidine kinase, ATP:dTMP thymidylate kinase, ADP:dThd- and AMP:dThd5′-phosphotransferase. In kinetic experiments it is shown that ara-AMP inhibits AMP:dThd- and ADP:dThd phosphotransferase activity, while acyclo-GMP impairs ADP:dThd phosphotransferase reaction only; the inhibition was found to be non-compertitive. The functional subunit ATP:dThd kinase was not affected by either compound.

chemistry.chemical_classificationArabinonucleotidesGuanineKinaseAcyclovirGeneral MedicineBiologyThymidine KinaseThymidylate kinaseVirologyMolecular biologyPhosphotransferaseKineticschemistry.chemical_compoundEnzymechemistryBiochemistryMultienzyme ComplexesThymidine kinaseVirologySimplexvirusNucleotideThymidineVidarabine PhosphateArchives of Virology

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