Search results for "Cytochrome C1"

showing 4 items of 4 documents

Cytochrome c is released in a single step during apoptosis

2005

Release of cytochrome c from mitochondria is a central event in apoptotic signaling. In this study, we utilized a cytochrome c fusion that binds fluorescent biarsenical ligands (cytochrome c-4CYS (cyt. c-4CYS)) as well as cytochrome c-green fluorescent protein (cyt. c-GFP) to measure its release from mitochondria in different cell types during apoptosis. In single cells, the kinetics of cyt. c-4CYS release was indistinguishable from that of cyt. c-GFP in apoptotic cells expressing both molecules. Lowering the temperature by 7 degrees C did not affect this corelease, but further separated cytochrome c release from the subsequent decrease in mitochondrial membrane potential (DeltaPsi(m)). Cyt…

CytochromeUltraviolet RaysGreen Fluorescent ProteinsApoptosisLigandsMembrane PotentialsJurkat CellsCytochrome C1HumansCytochrome c oxidaseEnzyme InhibitorsMolecular BiologyProtein Synthesis InhibitorsMicroscopy VideobiologyTumor Necrosis Factor-alphaCytochrome bCytochrome cTemperatureCytochromes cCytochrome P450 reductaseCell BiologyStaurosporineMitochondriaCell biologyKineticsenzymes and coenzymes (carbohydrates)Coenzyme Q – cytochrome c reductaseDactinomycinbiology.proteinApoptosomeBiomarkersHeLa CellsCell Death & Differentiation
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The oxidation of ubiquinol by the isolated rieske iron-sulfur protein in solution

1990

The pre-steady-state redox reactions of the Rieske iron-sulfur protein isolated from beef heart mitochondria have been characterized. The rates of oxidation by c-type cytochromes is much faster than the rate of reduction by ubiquinols. This enables the monitoring of the oxidation of ubiquinols by the Rieske protein through the steady-state electron transfer to cytochrome c in solution. The pH and ionic strength dependence of this reaction indicate that the ubiquinol anion is the direct reductant of the oxidized cluster of the iron-sulfur protein. The second electron from ubiquinol is diverted to oxygen by the isolated Rieske protein, and forms oxygen radicals that contribute to the steady-s…

Iron-Sulfur ProteinsUbiquinolCytochromeUbiquinoneBiophysicsmacromolecular substancesPhotochemistryBiochemistryRedoxMitochondria HeartElectron Transport Complex IIIElectron transferchemistry.chemical_compoundCytochrome C1AnimalsMolecular BiologybiologyChemistryCytochrome cHydrogen-Ion ConcentrationSolutionsKineticsCoenzyme Q – cytochrome c reductaseRieske proteinbiology.proteinCytochromesCattleOxidation-ReductionArchives of Biochemistry and Biophysics
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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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Structure of the Zymomonas mobilis respiratory chain: oxygen affinity of electron transport and the role of cytochrome c peroxidase

2014

The genome of the ethanol-producing bacterium Zymomonas mobilis encodes a bd-type terminal oxidase, cytochrome bc 1 complex and several c-type cytochromes, yet lacks sequences homologous to any of the known bacterial cytochrome c oxidase genes. Recently, it was suggested that a putative respiratory cytochrome c peroxidase, receiving electrons from the cytochrome bc 1 complex via cytochrome c 552, might function as a peroxidase and/or an alternative oxidase. The present study was designed to test this hypothesis, by construction of a cytochrome c peroxidase mutant (Zm6-perC), and comparison of its properties with those of a mutant defective in the cytochrome b subunit of the bc 1 complex (Zm…

ZymomonasbiologyCytochrome bc1Cytochrome c peroxidaseCytochrome cCytochrome dCytochrome-c PeroxidaseMicrobiologyMolecular biologyStandardElectron TransportOxygenBiochemistryCytochrome C1Coenzyme Q – cytochrome c reductasebiology.proteinCytochrome c oxidaseOxidoreductasesPhysiology and BiochemistryGene DeletionPeroxidaseMicrobiology
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