0000000000254456

AUTHOR

Brigitte Stucki-buchli

showing 5 related works from this author

Comparative analysis of two paradigm bacteriophytochromes reveals opposite functionalities in two-component signaling

2021

Bacterial phytochrome photoreceptors usually belong to two-component signaling systems which transmit environmental stimuli to a response regulator through a histidine kinase domain. Phytochromes switch between red light-absorbing and far-red light-absorbing states. Despite exhibiting extensive structural responses during this transition, the model bacteriophytochrome from Deinococcus radiodurans (DrBphP) lacks detectable kinase activity. Here, we resolve this long-standing conundrum by comparatively analyzing the interactions and output activities of DrBphP and a bacteriophytochrome from Agrobacterium fabrum (Agp1). Whereas Agp1 acts as a conventional histidine kinase, we identify DrBphP a…

Histidine KinaseLightPROTEINSScienceAgrobacteriumHISTIDINE KINASESKinasesMolecular Dynamics SimulationPhotoreceptors MicrobialTRANSDUCTIONArticleCYANOBACTERIAL PHYTOCHROME CPH1ACTIVATIONBacterial ProteinsProtein DomainsCRYSTAL-STRUCTUREPHOSPHORYLATIONX-ray crystallographyBacterial structural biologyQREARRANGEMENTSphotoreceptorsAGROBACTERIUM-TUMEFACIENSPhosphoric Monoester HydrolasesINSIGHTSbacterial phytochromesEnzyme mechanismsbacteriaDeinococcus3111 BiomedicineSignal Transduction
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Illuminating a Phytochrome Paradigm – a Light-Activated Phosphatase in Two-Component Signaling Uncovered

2020

ABSTRACTBacterial phytochrome photoreceptors usually belong to two-component signaling systems which transmit environmental stimuli to a response regulator through a histidine kinase domain. Phytochromes switch between red light-absorbing and far-red light-absorbing states. Despite exhibiting extensive structural responses during this transition, the model bacteriophytochrome fromDeinococcus radiodurans(DrBphP) lacks detectable kinase activity. Here, we resolve this long-standing conundrum by comparatively analyzing the interactions and output activities of DrBphP and a bacteriophytochrome fromAgrobacterium fabrum(AgP1). Whereas AgP1 acts as a conventional histidine kinase, we identify DrBp…

0303 health sciencesPhytochromebiologyChemistryKinasePhosphataseHistidine kinaseDeinococcus radioduransbiology.organism_classificationCell biology03 medical and health sciencesResponse regulator0302 clinical medicineKinase activity030217 neurology & neurosurgeryHistidine030304 developmental biology
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Site-by-site tracking of signal transduction in an azidophenylalanine-labeled bacteriophytochrome with step-scan FTIR spectroscopy

2021

Signal propagation in photosensory proteins is a complex and multidimensional event. Unraveling such mechanisms site-specifically in real time is an eligible but a challenging goal. Here, we elucidate the site-specific events in a red-light sensing phytochrome using the unnatural amino acid azidophenylalanine, vibrationally distinguishable from all other protein signals. In canonical phytochromes, signal transduction starts with isomerization of an excited bilin chromophore, initiating a multitude of processes in the photosensory unit of the protein, which eventually control the biochemical activity of the output domain, nanometers away from the chromophore. By implementing the label in pri…

Models MolecularAzidesProtein ConformationPhenylalaninespektroskopiaTongue regionGeneral Physics and Astronomyfotobiologia010402 general chemistryTracking (particle physics)01 natural sciences03 medical and health scienceschemistry.chemical_compoundBacterial ProteinsSpectroscopy Fourier Transform InfraredAmino Acid SequenceAmino AcidsPhysical and Theoretical ChemistryFourier transform infrared spectroscopyBilin030304 developmental biology0303 health sciencesBinding SitesStaining and LabelingbiologyPhytochromeChemistryDeinococcus radioduransChromophorePhotochemical Processesbiology.organism_classification0104 chemical sciencesKineticsBiophysicsPhytochromeproteiinitvalokemiaSignal transductionProtein BindingSignal TransductionPhysical Chemistry Chemical Physics
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Chromophore-Protein Interplay During the Phytochrome Photocycle Revealed by Step-Scan FTIR Spectroscopy

2018

Phytochrome proteins regulate many photoresponses of plants and microorganisms. Light absorption causes isomerization of the biliverdin chromophore, which triggers a series of structural changes to activate the signaling domains of the protein. However, the structural changes are elusive, and therefore the molecular mechanism of signal transduction remains poorly understood. Here, we apply two-color step-scan infrared spectroscopy to the bacteriophytochrome from Deinococcus radiodurans. We show by recordings in H2O and D2O that the hydrogen bonds to the biliverdin D-ring carbonyl become disordered in the first intermediate (Lumi-R) forming a dynamic microenvironment, then completely detach …

0301 basic medicineInfrared spectroscopyMolecular Dynamics SimulationBiochemistryCatalysis03 medical and health scienceschemistry.chemical_compoundchromophore-protein interplayColloid and Surface ChemistryBacterial ProteinsSpectroscopy Fourier Transform InfraredPeptide bondta116BiliverdinbiologyPhytochromeHydrogen bondBiliverdineta1182WaterHydrogen BondingDeinococcus radioduransGeneral ChemistryChromophorePhotochemical Processesbiology.organism_classification030104 developmental biologychemistryBiophysicsProtein Conformation beta-StrandDeinococcusPhytochromevalokemiaproteiinitSignal transductionstep-scan FTIR spectroscopyAdenylyl CyclasesJournal of the American Chemical Society
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Coordination of the biliverdin D-ring in bacteriophytochromes.

2018

Phytochrome proteins translate light into biochemical signals in plants, fungi and microorganisms. Light cues are absorbed by a bilin chromophore, leading to an isomerization and a rotation of the D-ring. This relays the signal to the protein matrix. A set of amino acids, which is conserved across the phytochrome superfamily, holds the chromophore in the binding pocket. However, the functional role of many of these amino acids is not yet understood. Here, we investigate the hydrogen bonding network which surrounds the D-ring of the chromophore in the resting (Pr) state. We use UV/vis spectroscopy, infrared absorption spectroscopy and X-ray crystallography to compare the photosensory domains…

0301 basic medicineModels MolecularStereochemistryProtein ConformationProtein Data Bank (RCSB PDB)General Physics and Astronomyphytochrome proteinsbakteerit03 medical and health scienceschemistry.chemical_compoundProtein structureBacterial ProteinsProteobacteriabiochemical signalsDeinococcusPhysical and Theoretical ChemistryStigmatella aurantiacaBiliverdinBinding SitesbiologyPhytochromeBiliverdineta1182Deinococcus radioduransHydrogen BondingChromophorebiology.organism_classificationPhotochemical ProcessesD-ring030104 developmental biologychemistryproteiinitvalokemiaDeinococcusPhytochromeProtein BindingPhysical chemistry chemical physics : PCCP
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