Stefan Frielingsdorf
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The crystal structure of an oxygen-tolerant hydrogenase uncovers a novel iron-sulphur centre
J Fritsch, P Scheerer, S Frielingsdorf, S Kroschinsky, B Friedrich, O Lenz, ...
Nature 479 (7372), 249-252, 2011
Toc, Tic, Tat et al.: structure and function of protein transport machineries in chloroplasts
M Gutensohn, E Fan, S Frielingsdorf, P Hanner, B Hou, B Hust, ...
Journal of plant physiology 163 (3), 333-347, 2006
Reversible [4Fe-3S] cluster morphing in an O 2-tolerant [NiFe] hydrogenase
S Frielingsdorf, J Fritsch, A Schmidt, M Hammer, J Löwenstein, E Siebert, ...
Nature chemical biology 10 (5), 378-385, 2014
Double-flow focused liquid injector for efficient serial femtosecond crystallography
D Oberthuer, J Knoška, MO Wiedorn, KR Beyerlein, DA Bushnell, ...
Scientific reports 7 (1), 1-12, 2017
Unassisted membrane insertion as the initial step in ΔpH/Tat-dependent protein transport
B Hou, S Frielingsdorf, RB Klösgen
Journal of molecular biology 355 (5), 957-967, 2006
Resonance Raman spectroscopy as a tool to monitor the active site of hydrogenases
E Siebert, M Horch, Y Rippers, J Fritsch, S Frielingsdorf, O Lenz, ...
Angewandte Chemie International Edition 52 (19), 5162-5165, 2013
A Trimeric Supercomplex of the Oxygen-Tolerant Membrane-Bound [NiFe]-Hydrogenase from Ralstonia eutropha H16
S Frielingsdorf, T Schubert, A Pohlmann, O Lenz, B Friedrich
Biochemistry 50 (50), 10836-10843, 2011
Enhanced Oxygen-Tolerance of the Full Heterotrimeric Membrane-Bound [NiFe]-Hydrogenase of Ralstonia eutropha
V Radu, S Frielingsdorf, SD Evans, O Lenz, LJC Jeuken
Journal of the American Chemical Society 136 (24), 8512-8515, 2014
Role of the HoxZ Subunit in the Electron Transfer Pathway of the Membrane-Bound [NiFe]-Hydrogenase from Ralstonia eutropha Immobilized on Electrodes
M Sezer, S Frielingsdorf, D Millo, N Heidary, T Utesch, MA Mroginski, ...
The Journal of Physical Chemistry B 115 (34), 10368-10374, 2011
Krypton Derivatization of an O2‐Tolerant Membrane‐Bound [NiFe] Hydrogenase Reveals a Hydrophobic Tunnel Network for Gas Transport
J Kalms, A Schmidt, S Frielingsdorf, P van der Linden, D von Stetten, ...
Angewandte Chemie International Edition 55 (18), 5586-5590, 2016
A stromal pool of TatA promotes Tat-dependent protein transport across the thylakoid membrane
S Frielingsdorf, M Jakob, RB Klösgen
Journal of Biological Chemistry 283 (49), 33838-33845, 2008
Resonance Raman Spectroscopic Analysis of the [NiFe] Active Site and the Proximal [4Fe-3S] Cluster of an O2-Tolerant Membrane-Bound Hydrogenase in the …
E Siebert, Y Rippers, S Frielingsdorf, J Fritsch, A Schmidt, J Kalms, S Katz, ...
The Journal of Physical Chemistry B 119 (43), 13785-13796, 2015
Prerequisites for terminal processing of thylakoidal Tat substrates
S Frielingsdorf, RB Kloösgen
Journal of Biological Chemistry 282 (33), 24455-24462, 2007
Multilayered lipid membrane stacks for biocatalysis using membrane enzymes
GR Heath, M Li, H Rong, V Radu, S Frielingsdorf, O Lenz, JN Butt, ...
Advanced Functional Materials 27 (17), 1606265, 2017
Tracking the route of molecular oxygen in O2-tolerant membrane-bound [NiFe] hydrogenase
J Kalms, A Schmidt, S Frielingsdorf, T Utesch, G Gotthard, D von Stetten, ...
Proceedings of the National Academy of Sciences 115 (10), E2229-E2237, 2018
Oxygen-tolerant hydrogenases and their biotechnological potential
O Lenz, L Lauterbach, S Frielingsdorf, B Friedrich
Biohydrogen, 61-88, 2015
CO synthesized from the central one-carbon pool as source for the iron carbonyl in O2-tolerant [NiFe]-hydrogenase
I Bürstel, E Siebert, S Frielingsdorf, I Zebger, B Friedrich, O Lenz
Proceedings of the National Academy of Sciences 113 (51), 14722-14726, 2016
Reactivation from the Ni–B state in [NiFe] hydrogenase of Ralstonia eutropha is controlled by reduction of the superoxidised proximal cluster
V Radu, S Frielingsdorf, O Lenz, LJC Jeuken
Chemical Communications 52 (12), 2632-2635, 2016
Impact of carbon nanotube surface chemistry on hydrogen oxidation by membrane‐bound oxygen‐tolerant hydrogenases
K Monsalve, I Mazurenko, C Gutierrez‐Sanchez, M Ilbert, P Infossi, ...
ChemElectroChem 3 (12), 2179-2188, 2016
Essential amino acid residues of BioY reveal that dimers are the functional S unit of the Rhodobacter capsulatus biotin transporter
F Kirsch, S Frielingsdorf, A Pohlmann, J Ziomkowska, A Herrmann, ...
Journal of bacteriology 194 (17), 4505-4512, 2012
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