Lisa Köhler scite author profile

Photo-CIDNP in the reaction center of the diatom Cyclotella meneghiniana observed by 13 C MAS NMRThe solid-state photo-CIDNP effect in a new kingdom of the tree of life Abstract: Photo-CIDNP MAS NMR presents a unique tool to obtain insight into the photosynthetic reaction centers (RCs) of bacteria and plants. Using the dramatic enhancement of sensitivity and selectivity of the solid-state photo-CIDNP effect, structural as well as functional information can be obtained from the cofactor molecules forming a light-induced spin-correlated radical pair (SCRP) in a given reaction center. Here we demonstrate that the effect can be observed in a further species, which belongs neither to the plant nor the bacteria kingdom. Cyclotella (C.) meneghiniana is a member of the diatom phylum and, therefore, belongs to the kingdom of chromista. Chromista are some of the most productive organisms in nature, even in comparison to trees and terrestrial grasses. The observation of the effect in chromista indicates that the effect occurs in all photosynthetic organisms and completes the list with the last phototrophic kingdoms. Our data also demonstrate that the photo-and spin-chemical machineries of photosystem I of plants and chromista are very similar with respect to structure as well as function.

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Long‐Term Preservation of Short‐Lived Photoproducts of Phytochromes at Room Temperature

Köhler

Gärtner

Matysik

et al. 2021

ChemPhotoChem

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Phytochromes (Phys) are biliproteins that regulate light responses in plants, fungi, and microorganisms through photoconversion between a dark state and a photoproduct. Thermal reversion of the photoproduct is an intrinsic property of all Phys, typically occurring on a timescale of seconds to days. Despite methodological advances, the structural and spectroscopic determination of short-lived photoproducts has proven challenging. We herein present an innovative approach for photoproduct stabilisation by incorporating the protein into trehalose glasses (TGs). The resulting Phy-trehalose matrices were investigated by UV/Vis absorption and solid-state NMR spectroscopies. Our results demonstrate that the TGs strongly inhibit thermal reversion of the incorporated Phy proteins for periods as long as several weeks at room temperature (RT), during which the proteins fully sustain their native structures and spectral and biochemical properties. This sample preparation approach is beneficial for revealing bona fide structure/ function relationships of short-lived photoproducts that are otherwise not accessible, thus paving the way towards a deeper molecular understanding of the diversified spectral properties of Phys. Our results also provide new insights into the molecular mechanism of trehalose bioprotection.

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Light- and pH-dependent structural changes in cyanobacteriochrome AnPixJg2

Altmayer

Köhler

Bielytskyi

et al. 2022

Photochem Photobiol Sci

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Cyanobacteriochromes (CBCRs) are phytochrome-related photosensory proteins that play an essential role in regulating phototaxis, chromatic acclimation, and cell aggregation in cyanobacteria. Here, we apply solid-state NMR spectroscopy to the red/green GAF2 domain of the CBCR AnPixJ assembled in vitro with a uniformly 13C- and 15N-labeled bilin chromophore, tracking changes in electronic structure, geometry, and structural heterogeneity of the chromophore as well as intimate contacts between the chromophore and protein residues in the photocycle. Our data confirm that the bilin ring D is strongly twisted with respect to the B–C plane in both dark and photoproduct states. We also identify a greater structural heterogeneity of the bilin chromophore in the photoproduct than in the dark state. In addition, the binding pocket is more hydrated in the photoproduct. Observation of interfacial 1H contacts of the photoproduct chromophore, together with quantum mechanics/molecular mechanics (QM/MM)-based structural models for this photoproduct, clearly suggests the presence of a biprotonated (cationic) imidazolium side-chain for a conserved histidine residue (322) at a distance of ~2.7 Å, generalizing the recent theoretical findings that explicitly link the structural heterogeneity of the dark-state chromophore to the protonation of this specific residue. Moreover, we examine pH effects on this in vitro assembled holoprotein, showing a substantially altered electronic structure and protonation of the photoproduct chromophore even with a small pH drop from 7.8 to 7.2. Our studies provide further information regarding the light- and pH-induced changes of the chromophore and the rearrangements of the hydrogen-bonding and electrostatic interaction network around it. Possible correlations between structural heterogeneity of the chromophore, protonation of the histidine residue nearby, and hydration of the pocket in both photostates are discussed. Graphical abstract

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Hydrogen Bond between a Tyrosine Residue and the C-Ring Propionate Has a Direct Influence on Conformation and Absorption of the Bilin Cofactor in Red/Green Cyanobacteriochromes

et al. 2021

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Cyanobacteriochromes (CBCRs) are photoreceptors of the phytochrome superfamily showing remarkable variability in the wavelengths of the first electronic transitionsometimes denoted as Q bandcompared to canonical phytochromes. Both classes carry the same cofactor, a bilin, but the molecular basis for the wide variation of their absorption properties is still a matter of debate. The interaction between the cofactor and the surrounding protein moiety has been proposed as a possible tuning factor. Here, we address the impact of hydrogen-bonding interaction between the covalently bound tetrapyrrole cofactor (phycocyanobilin, PCB) and a conserved tyrosine residue (Y302) in the second GAF (cGMP-specific phosphodiesterase, adenylyl cyclases, and FhlA) domain of the red-/green-switching CBCR AnPixJ (AnPixJg2). In the wild type, AnPixJg2 shows absorption maxima of 648 and 543 nm for the dark-adapted (Pr) and photoproduct (Pg) states, respectively. The Y302F mutation leads to the occurrence of an additional absorption band at 687 nm, which is assigned to a new spectroscopically identified sub-state called PIII. Similar spectral changes result upon mutating the Y302F-homologue in another representative red-/green-switching CBCR, Slr1393g3. Molecular dynamics simulations on the dark-adapted state suggest that the removal of the hydrogen bond leads to an additional PCB sub-state differing in its A - and D -ring geometries. The origin of the Q band satellite in the dark-adapted state is discussed.

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Photocycle of a cyanobacteriochrome: a charge defect on ring C impairs conjugation in chromophore

et al. 2023

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Lisa Köhler

Photo-CIDNP in the Reaction Center of the Diatom Cyclotella meneghiniana Observed by ¹³C MAS NMR

Long‐Term Preservation of Short‐Lived Photoproducts of Phytochromes at Room Temperature

Light- and pH-dependent structural changes in cyanobacteriochrome AnPixJg2

Hydrogen Bond between a Tyrosine Residue and the C-Ring Propionate Has a Direct Influence on Conformation and Absorption of the Bilin Cofactor in Red/Green Cyanobacteriochromes

Photocycle of a cyanobacteriochrome: a charge defect on ring C impairs conjugation in chromophore

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Lisa Köhler

Photo-CIDNP in the Reaction Center of the Diatom Cyclotella meneghiniana Observed by 13C MAS NMR

Long‐Term Preservation of Short‐Lived Photoproducts of Phytochromes at Room Temperature

Light- and pH-dependent structural changes in cyanobacteriochrome AnPixJg2

Hydrogen Bond between a Tyrosine Residue and the C-Ring Propionate Has a Direct Influence on Conformation and Absorption of the Bilin Cofactor in Red/Green Cyanobacteriochromes

Photocycle of a cyanobacteriochrome: a charge defect on ring C impairs conjugation in chromophore

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Photo-CIDNP in the Reaction Center of the Diatom Cyclotella meneghiniana Observed by ¹³C MAS NMR