Search results for "F1ATPase"

showing 3 items of 3 documents

Photoaffinity cross-linking of F1ATPase from spinach chloroplasts by 3'-arylazido-beta-alanyl-8-azido ATP.

1994

UV irradiation of the ATPase (CF1) from spinach chloroplasts in the presence of 3'-arylazido-beta-alanyl-8-azido ATP (8,3'-DiN3ATP) results in a nucleotide-dependent inactivation of the enzyme and in a nucleotide-dependent formation of alpha-beta cross-links. The results demonstrate an interfacial localization of the nucleotide binding sites on CF1.

Nucleotide binding siteAzidesChloroplastsStereochemistryPhotochemistryAffinity labelATPaseBiophysicsBiochemistryChloroplastF1ATPasechemistry.chemical_compoundAdenosine TriphosphateStructural BiologyVegetablesGeneticsBinding siteChenopodiaceaeInterfacial localizationMolecular BiologyPhotoaffinity cross-linkingchemistry.chemical_classificationbiologyfood and beveragesAffinity LabelsCell Biologybiology.organism_classificationChloroplastProton-Translocating ATPasesEnzymeCross-Linking Reagentschemistrybiology.proteinSpinach chloroplastAdenosine triphosphateFEBS letters
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Structural dynamics in F1ATPase during the first reaction cycle of ATP hydrolysis

1991

Abstract The velocity of ATP hydrolysis, catalyzed by purified F 1 ATPase from Micrococcus luteus , was decelerated on decreasing the temperature. At 13′C one reaction cycle is completed after 20 s. Hydrolysis was triggered upon rapid mixing of the enzyme with ATP. During the first reaction cycle, succeeding structural alterations of the F 1 ATPase were traced by time resolved X-ray scattering. The scattering spectra obtained from consecutive intervals of 1 s, revealed the F 1 ATPase to pass a conformational state exhibiting an expanded (6%) molecular shape. The expanded state was observed between 45% and 65% of the time required to complete the reaction cycle. This pointx out a conformatio…

Reaction mechanismProtein ConformationStereochemistryATPaseBiophysicsTime resolved X-ray scatteringBiochemistryMicrococcusCatalysisF1ATPaseHydrolysisMolecular dynamicsAdenosine TriphosphateStructural BiologyATP hydrolysisGeneticsMolecular Biologychemistry.chemical_classificationbiologyHydrolysisX-RaysReaction cycleCell Biologybiology.organism_classificationKineticsProton-Translocating ATPasesEnzymechemistryDynamic structure transitionbiology.proteinMicrococcus luteusFEBS Letters
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Photoaffinity labeling of the coupling factor 1 from the thermophilic bacterum PS3 by 8-azido ATP

1984

AbstractTo localize the nucleotide binding sites of the F1ATPase (TF1) from the thermophilic bacterium PS3 we have used 14C-labeled 8-azido ATP (8-N3ATP) as photoaffmity label. 8-N3ATP is hydrolyzed by the F,ATPase in the absence of ultraviolet light. Irradiation by ultraviolet light of the enzyme in the presence of 8-N3ATP results in reduction of ATPase activity and in preferential nucleotide specific labeling of the α subunits (0.8–0.9 mol 8-N3ATP/TF1,α:β = 4:1). Inactivation and labeling do not depend on the presence of Mg2+. Both effects decrease upon addition of various nucleotide di- or triphosphates.

chemistry.chemical_classificationPhotoaffinity labelingStereochemistryNoncatalytic nucleotide binding siteThermophileBiophysicsCell BiologyBiochemistryCoupling (electronics)HydrolysisEnzymechemistryStructural BiologyPhotoaffinity labelingMoleBacterial F1ATPaseGeneticsUltraviolet lightCatalytic nucleotide binding siteNucleotideThermophilic bacterium PS3Molecular BiologyFEBS Letters
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