Search results for "Mitochondrial Complex I"

showing 8 items of 8 documents

New evidence for the multiplicity of ubiquinone- and inhibitor-binding sites in the mitochondrial complex I.

2000

Determination of the number of ubiquinone- and inhibitor-binding sites in the mitochondrial complex I (NADH:ubiquinone oxidoreductase) is a controversial question with a direct implication for elaborating a suitable model to explain the bioenergetic mechanism of this complicated enzyme. We have used combinations of both selective inhibitors and common ubiquinone-like substrates to demonstrate the multiplicity of the reaction centers in the complex I in contrast with competition studies that have suggested the existence of a unique binding site for ubiquinone. Our results provide new evidence for the existence of at least two freely exchangeable ubiquinone-binding sites with different specif…

BioenergeticsStereochemistryUbiquinoneSubmitochondrial ParticlesBiophysicsBiologyIn Vitro TechniquesBiochemistryModels BiologicalMitochondria HeartSubstrate SpecificityOxidoreductaseAnimalsNADH NADPH OxidoreductasesBinding siteMultiplicity (chemistry)Molecular Biologychemistry.chemical_classificationNADH-Ubiquinone OxidoreductaseBinding SitesElectron Transport Complex IKineticsEnzymechemistryBiochemistryCattleEnergy MetabolismMitochondrial Complex IArchives of biochemistry and biophysics

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Tucupentol, a novel mono-tetrahydrofuranic acetogenin from Annona montana, as a potent inhibitor of mitochondrial complex I.

2009

Ten acetogenins, one of them new, were isolated from leaves and twigs of a Bolivian collection of Annona montana. The new compound that we named tucupentol (1) is a mono-tetrahydrofuranpentahydroxy-acetogenin. The inhibitory potency of tucupentol (1) on the mitochondrial complex I was evaluated, and this activity was compared with that of the known acetogenins, annonacin-A, cisannonacin-10-one, aromin, and gigantetronenin, also isolated from this plant material. The mentioned acetogenins acted as selective inhibitors of mitochondrial complex I in the 0.8-5.4-nM range. Fil: Álvarez Colom, Olga. Universidad Nacional de Tucumán. Facultad de Bioquímica, Química y Farmacia. Instituto de Química …

BoliviaAcetogeninsBioengineeringGigantetroneninMitochondrionBiochemistryAnnonaMitochondria Heartchemistry.chemical_compoundInhibitory Concentration 50AnimalsMedicinal plantsFuransMolecular BiologyNuclear Magnetic Resonance BiomolecularTucupentolElectron Transport Complex IbiologyPlant StemsOtras Ciencias QuímicasCiencias QuímicasGeneral ChemistryGeneral Medicinebiology.organism_classificationAnnona montanaPlant LeavesInhibitory potencychemistryBiochemistryAcetogeninMolecular MedicineCattleCIENCIAS NATURALES Y EXACTASMitochondrial Complex IChemistrybiodiversity

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ChemInform Abstract: Tucupentol, a Novel Mono-tetrahydrofuranic Acetogenin from Annona montana, as a Potent Inhibitor of Mitochondrial Complex I.

2009

Ten acetogenins, one of them new, were isolated from leaves and twigs of a Bolivian collection of Annona montana. The new compound that we named tucupentol (1) is a mono-tetrahydrofuran-pentahydroxy-acetogenin. The inhibitory potency of tucupentol (1) on the mitochondrial complex I was evaluated, and this activity was compared with that of the known acetogenins, annonacin-A, cis-annonacin-10-one, aromin, and gigantetronenin, also isolated from this plant material. The mentioned acetogenins acted as selective inhibitors of mitochondrial complex I in the 0.8-5.4-nM range.

Inhibitory potencychemistry.chemical_compoundbiologyChemistryStereochemistryAcetogeninGigantetroneninGeneral Medicinebiology.organism_classificationTucupentolMitochondrial Complex IAnnona montanaChemInform

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Mitochondrial complex I: new insights from inhibitor assays

2000

The NADH:ubiquinone oxidoreductase (complex I) of the mitochondrial respiratory chain is by far the most complicated of the proton-translocating enzymes involved in the oxidative phosphorylation. Many clues regarding both electron transfer and proton translocation are still unknown. In this sense, inhibitor assays are relevant and useful pieces for elaborating a suitable model to explain the elusive bioenergetic mechanism of this enzyme. This short review presents the most recent advances in inhibitor studies and highlights the major controversies.

Proton translocationchemistry.chemical_classificationNADH-Ubiquinone OxidoreductaseMechanism (biology)Cell BiologyPlant ScienceGeneral MedicineOxidative phosphorylationBiologyMitochondrial respiratory chainEnzymeBiochemistrychemistryOxidoreductaseMitochondrial Complex IProtoplasma

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New method for the determination of the absolute stereochemistry in antitumoral annonaceous acetogenins

1998

Abstract The absolute configurations at the carbinol centers in several acetogenins were determined through p-bromophenylurethane derivatives and subsequent Mosher ester methodology. This method has been applied on α,α′-dihydroxylated adjacent bis-THF acetogenins with a threo/cis/threo/cis/erythro relative configuration membrarollin (1), a new acetogenin isolated from Rollinia membranacea seeds, rollimembrin (2), membranacin (3) and rolliniastatin-1 (4), and a threo/trans/threo/translerythro relative configuration motrilin (5), squamocin (6), and desacetyluvaricin (7). 1 was found to be the most potent inhibitor of the mammalian mitochondrial complex I.

Rollinia membranaceaChemistryStereochemistryOrganic ChemistryMembranacinDiastereomerRollimembrinBiochemistrychemistry.chemical_compoundDrug DiscoveryAcetogeninAnnonaceous AcetogeninsDesacetyluvaricinMitochondrial Complex ITetrahedron

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Tucumanin, a β-hydroxy-γ-lactone bistetrahydrofuranic acetogenin from Annona cherimolia, is a potent inhibitor of mitochondrial complex I

2004

A new β-hydroxy-γ-methyl-γ-lactone bistetrahydrofuranic acetogenin, tucumanin, with the infrequent symmetrical threo/trans/threo/trans/ threo relative configuration at the tetrahydrofuran rings was isolated from Annona cherimolia (Annonaceae) seeds. The inhibitory potency on the mitochondrial complex I of acetogenins with this relative configuration (tucumanin and asimicin) was compared with that shown by the corresponding pairs with an asymmetrical threo/trans/threo/trans/erythro relative configuration (laherradurin/rolliniastatin-2, and itrabin/molvizarin). All these compounds act as selective inhibitors of mitochondrial complex 1 in the 0.18 - 1.55 nM range. Fil: Barrachina, Isabel. Univ…

StereochemistryChemical structurePharmaceutical Scienceinhibitory potencyBiologyAnnonaMitochondria HeartAnalytical Chemistry//purl.org/becyt/ford/1 [https]chemistry.chemical_compoundInhibitory Concentration 50LactonesDrug Discovery//purl.org/becyt/ford/1.4 [https]HumansEnzyme InhibitorsAnnona cherimoliaFuransTetrahydrofuranPharmacologychemistry.chemical_classificationElectron Transport Complex IPlant ExtractsOtras Ciencias QuímicasOrganic ChemistryDiastereomerCiencias Químicasbiology.organism_classificationβ-hydroxy-γ-methyl-γ-lactoneComplementary and alternative medicinechemistryAnnonaceaeAnnona cherimolia (Annonaceae)AcetogeninSeedsMolecular MedicineMitochondrial Complex ILactonemitochondrial complex ICIENCIAS NATURALES Y EXACTASPhytotherapy

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Kinetic characterization of mitochondrial complex I inhibitors using annonaceous acetogenins

1999

The NADH:ubiquinone oxidoreductase (complex I) of the mitochondrial respiratory chain is by far the largest and most complicated of the proton-translocating enzymes involved in the oxidative phosphorylation. Many clues regarding the electron pathways from matrix NADH to membrane ubiquinone and the links of this process with the translocation of protons are highly controversial. Different types of inhibitors become valuable tools to dissect the electron and proton pathways of this complex enzyme. Therefore, further knowledge of the mode of action of complex I inhibitors is needed to understand the underlying mechanism of energy conservation. This study presents for the first time a detailed …

UbiquinoneSubmitochondrial ParticlesBiophysicsOxidative phosphorylationBiologyBiochemistryMitochondria HeartLactonesOxidoreductaseRotenoneNAD(P)H Dehydrogenase (Quinone)Mammalian enzymeAnimalsFuransMolecular Biologychemistry.chemical_classificationNADH-Ubiquinone OxidoreductasePlant ExtractsNADKineticsMitochondrial respiratory chainEnzymechemistryBiochemistryCattleAnnonaceous AcetogeninsMitochondrial Complex I

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Semisynthesis of new tetrahydrofuranic alkyl ester and furano-pyrone derivatives as inhibitors of the mitochondrial complex I

2002

Abstract Methoxymethylation of altholactone ( 1 ) led to the corresponding O -methoxymethyl derivative ( 3 ) in addition to the unexpected 6,7-dihydro-7-methoxy analogue ( 4 ), and two original tetrahydrofuranic (THF) alkyl esters ( 5 , 6 ). Moreover, when we accomplished a new method for the preparation of the furano-pyrone goniofupyrone ( 7 ) through 7-hydroxylation of 1 in acid medium, a minor compound ( 8 ) with an identical skeleton to that of compounds 5 and 6 was identified. Careful examination of the published spectral data of the reported styryl-lactones with an heptolide skeleton reveals that those structures possess also a THF alkyl ester skeleton. The revision of those structure…

chemistry.chemical_classificationAltholactoneStereochemistryOrganic ChemistryBiochemistrySemisynthesisChemical correlationPyroneGoniofupyronechemistry.chemical_compoundchemistryDrug DiscoverySpectral dataAlkylMitochondrial Complex ITetrahedron

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