Sebastian Veit scite author profile

Sebastian Veit

5Publications

39Citation Statements Received

157Citation Statements Given

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Ruhr University Bochum

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Functional Characterization of the Small Regulatory Subunit PetP from the Cytochrome b₆f Complex in Thermosynechococcus elongatus

Rexroth

Veit

et al. 2014

Plant Cell

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The cyanobacterial cytochrome b 6 f complex is central for the coordination of photosynthetic and respiratory electron transport and also for the balance between linear and cyclic electron transport. The development of a purification strategy for a highly active dimeric b 6 f complex from the thermophilic cyanobacterium Thermosynechococcus elongatus BP-1 enabled characterization of the structural and functional role of the small subunit PetP in this complex. Moreover, the efficient transformability of this strain allowed the generation of a DpetP mutant. Analysis on the whole-cell level by growth curves, photosystem II light saturation curves, and P700 + reduction kinetics indicate a strong decrease in the linear electron transport in the mutant strain versus the wild type, while the cyclic electron transport via photosystem I and cytochrome b 6 f is largely unaffected. This reduction in linear electron transport is accompanied by a strongly decreased stability and activity of the isolated DpetP complex in comparison with the dimeric wild-type complex, which binds two PetP subunits. The distinct behavior of linear and cyclic electron transport may suggest the presence of two distinguishable pools of cytochrome b 6 f complexes with different functions that might be correlated with supercomplex formation.

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Structure of a thermophilic cyanobacterialb₆f-type Rieske protein

Veit

Takeda

Tsunoyama

et al. 2012

Acta Crystallogr D Biol Cryst

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The `Rieske protein' PetC is one of the key subunits of the cytochrome b(6)f complex. Its Rieske-type [2Fe-2S] cluster participates in the photosynthetic electron-transport chain. Overexpression and careful structure analysis at 2.0 Å resolution of the extrinsic soluble domain of PetC from the thermophilic cyanobacterium Thermosynechococcus elongatus BP-1 enabled in-depth spectroscopic and structural characterization and suggested novel structural features. In particular, both the protein structure and the positions of the internal water molecules unexpectedly showed a higher similarity to eukaryotic PetCs than to other prokaryotic PetCs. The structure also revealed a deep pocket on the PetC surface which is oriented towards the membrane surface in the whole complex. Its surface properties suggest a binding site for a hydrophobic compound and the complete conservation of the pocket-forming residues in all known PetC sequences indicates the functional importance of this pocket in the cytochrome b(6)f complex.

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Structural and functional characterisation of the cyanobacterial PetC3 Rieske protein family

Veit

Takeda

Tsunoyama

et al. 2016

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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The cyanobacterium Synechocystis PCC 6803 possesses three Rieske isoforms: PetC1, PetC2 and PetC3. While PetC1 and PetC2 have been identified as alternative subunits of the cytochrome bf complex (bf), PetC3 was localized exclusively within the plasma membrane. The spatial separation of PetC3 from the photosynthetic and respiratory protein complexes raises doubt in its involvement in bioenergetic electron transfer. Here we report a detailed structural and functional characterization of the cyanobacterial PetC3 protein family indicating that PetC3 is not a component of the bf and the photosynthetic electron transport as implied by gene annotation. Instead PetC3 has a distinct function in cell envelope homeostasis. Especially proteomic analysis shows that deletion of petC3 in Synechocystis PCC 6803 primarily affects cell envelope proteins including many nutrient transport systems. Therefore, the observed downregulation in the photosynthetic electron transport - mainly caused by photosystem 2 inactivation - might constitute a stress adaptation. Comprehensive in silico sequence analyses revealed that PetC3 proteins are periplasmic lipoproteins tethered to the plasma membrane with a subclass consisting of soluble periplasmic proteins, i.e. their N-terminal domain is inconsistent with their integration into the bf. For the first time, the structure of PetC3 was determined by X-ray crystallography at an atomic resolution revealing significant high similarities to non-bf Rieske subunits in contrast to PetC1. These results suggest that PetC3 affects processes in the periplasmic compartment that only indirectly influence photosynthetic electron transport. For this reason, we suggest to rename "Photosynthetic electron transport Chain 3" (PetC3) proteins as "periplasmic Rieske proteins" (Prp).

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The cyanobacterial cytochrome b6f subunit PetP adopts an SH3 fold in solution

Veit¹,

Nagadoi²,

Rögner³

et al. 2016

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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PetP is a peripheral subunit of the cytochrome b(6)f complex (b(6)f) present in both, cyanobacteria and red algae. It is bound to the cytoplasmic surface of this membrane protein complex where it greatly affects the efficiency of the linear photosynthetic electron flow although it is not directly involved in the electron transfer reactions. Despite the crystal structures of the b(6)f core complex, structural information for the transient regulatory b(6)f subunits is still missing. Here we present the first structure of PetP at atomic resolution as determined by solution NMR. The protein adopts an SH3 fold, which is a common protein motif in eukaryotes but comparatively rare in prokaryotes. The structure of PetP enabled the identification of the potential interaction site for b(6)f binding by conservation mapping. The interaction surface is mainly formed by two large loop regions and one short 310 helix which also exhibit an increased flexibility as indicated by heteronuclear steady-state {(1)H}-(15)N NOE and random coil index parameters. The properties of this potential b(6)f binding site greatly differ from the canonical peptide binding site which is highly conserved in eukaryotic SH3 domains. Interestingly, three other proteins of the photosynthetic electron transport chain share this SH3 fold with PetP: NdhS of the photosynthetic NADH dehydrogenase-like complex (NDH-1), PsaE of the photosystem 1 and subunit α of the ferredoxin-thioredoxin reductase have, similar to PetP, a great impact on the photosynthetic electron transport. Finally, a model is presented to illustrate how SH3 domains modulate the photosynthetic electron transport processes in cyanobacteria.

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Crystal structure of the soluble part of cytochrome b6f complex iron-sulfur subunit from Thermosynechococcus elongatus BP-1

Veit¹,

Takeda²,

Tsunoyama³

et al. 2012

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Sebastian Veit

Functional Characterization of the Small Regulatory Subunit PetP from the Cytochrome b₆f Complex in Thermosynechococcus elongatus

Structure of a thermophilic cyanobacterialb₆f-type Rieske protein

Structural and functional characterisation of the cyanobacterial PetC3 Rieske protein family

The cyanobacterial cytochrome b6f subunit PetP adopts an SH3 fold in solution

Crystal structure of the soluble part of cytochrome b6f complex iron-sulfur subunit from Thermosynechococcus elongatus BP-1

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Sebastian Veit

Functional Characterization of the Small Regulatory Subunit PetP from the Cytochrome b6f Complex in Thermosynechococcus elongatus

Structure of a thermophilic cyanobacterialb6f-type Rieske protein

Structural and functional characterisation of the cyanobacterial PetC3 Rieske protein family

The cyanobacterial cytochrome b6f subunit PetP adopts an SH3 fold in solution

Crystal structure of the soluble part of cytochrome b6f complex iron-sulfur subunit from Thermosynechococcus elongatus BP-1

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Functional Characterization of the Small Regulatory Subunit PetP from the Cytochrome b₆f Complex in Thermosynechococcus elongatus

Structure of a thermophilic cyanobacterialb₆f-type Rieske protein