2324 In situ spectroelectrochemical studies into the formation and stability of robust diazonium-derived interfaces on gold electrodes for the immobilization of an oxygen-tolerant hydrogenase T. G. A. A. Harris, N. Heidary, J. Kozuch, S. Frielingsdorf, O. Lenz, M. A. Mroginski, P. Hildebrandt, I. Zebger, A. Fischer ACS Applied Materials & Interfaces 2018, 10, 23380–23391, 10.1021/acsami.8b02273
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2323 O2-Tolerant H2Activation by an Isolated Large Subunit of a [NiFe] Hydrogenase S. Hartmann, S. Frielingsdorf, A. Ciaccafava, C. Lorent, J. Fritsch, E. Siebert, J. Priebe, M. Haumann, I. Zebger, O. Lenz Biochemistry 2018, 10.1021/acs.biochem.8b00760
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2261 Multilayered lipid membrane stacks for biocatalysis using membrane enzymes G. R. Heath, M. Li, H. Rong, V. Radu, S. Frielingsdorf, O. Lenz, J. N. Butt, L. J. C. Jeuken Advanced Functional Materials 2017, 27, 1606265– 10.1002/adfm.201606265
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2260 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, P. van der Linden, A. Royant, M. A. Mroginski, P. Carpentier, O. Lenz, P. Scheerer Proceedings of the National Academy of Sciences 2018, 115, 10.1073/pnas.1712267115
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2229 Enzymatic and spectroscopic properties of a thermostable [NiFe]‑hydrogenase performing H2-driven NAD+ reduction in the presence of O2 J. Preissler, S. Wahlefeld, C. Lorent, C. Teutloff, M. Horch, L. Lauterbach, S. P. Cramer, I. Zebger, O. Lenz Biochimica et Biophysica Acta (BBA) - Bioenergetics 2018, 1859, 8–18, 10.1016/j.bbabio.2017.09.006
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2195 Characterization of Frex as an NADH sensor for in vivo applications in the presence of NAD+ and at various pH values S. Wilkening, F. J. Schmitt, M. Horch, I. Zebger, O. Lenz, T. Friedrich Photosynthesis Research 2017, 133, 305–315, 10.1007/s11120-017-0348-0
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2127 Orientation-Controlled Electrocatalytic Efficiency of an Adsorbed Oxygen-Tolerant Hydrogenase N. Heidary, T. Utesch, M. Zerball, M. Horch, D. Millo, J. Fritsch, O. Lenz, R. von Klitzing, P. Hildebrandt, A. Fischer, M. A. Mroginski, I. Zebger PLOS ONE 2015, 10, 10.1371/journal.pone.0143101
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2111 Double-flow focused liquid injector for efficient serial femtosecond crystallography D. Oberthuer, J. Knoška, M. O. Wiedorn, K. R. Beyerlein, D. A. Bushnell, E. G. Kovaleva, M. Heymann, L. Gumprecht, R. A. Kirian, A. Barty, V. Mariani, A. Tolstikova, L. Adriano, S. Awel, M. Barthelmess, K. Dörner, P. L. Xavier, O. Yefanov, D. R. James, G. Nelson, D. Wang, G. Calvey, Y. Chen, A. Schmidt, M. Szczepek, S. Frielingsdorf, O. Lenz, E. Snell, P. J. Robinson, B. Šarler, G. Belšak, M. Maček, F. Wilde, A. Aquila, S. Boutet, M. Liang, M. S. Hunter, P. Scheerer, J. D. Lipscomb, U. Weierstall, R. D. Kornberg, J. C. H. Spence, L. Pollack, H. N. Chapman, S. Bajt Scientific Reports 2017, 7, 44628– 10.1038/srep44628
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2019 Enzymes as modular catalysts for redox half-reactions in H2-powered chemical synthesis: from biology to technology H. A. Reeve, P. A. Ash, H. Park, A. Huang, M. Posidias, C. Tomlinson, O. Lenz, K. A. Vincent Biochemical Journal 2017, 474, 215–230, 10.1042/BCJ20160513
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2018 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 2016, 113, 14722–14726, 10.1073/pnas.1614656113
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2017 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, S. Frielingsdorf, M. T. Giudici-Orticoni, O. Lenz, E. Lojou ChemElectroChem 2016, 3, 2179–2188, 10.1002/celc.201600460
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1993 Investigation of the NADH/NAD+ ratio in Ralstonia eutropha using the fluorescence reporter protein Peredox V. Tejwani, F. J. Schmitt, S. Wilkening, I. Zebger, M. Horch, O. Lenz, T. Friedrich Biochimica et Biophysica Acta Biochimica et Biophysica Acta (BBA) - Bioenergetics 2017, 1858, 86–94, 10.1016/j.bbabio.2016.11.001
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1906 Ein Netzwerk aus hydrophoben Tunneln zum Transport gasförmiger Reaktanten in einer O2-toleranten, membrangebundenen [NiFe]- Hydrogenase, aufgedeckt durch Derivatisierung mit Krypton J. Kalms, A. Schmidt, S. Frielingsdorf, P. van der Linden, D. von Stetten, O. Lenz, P. Carpentier, P. Scheerer Angewandte Chemie 2016, 128, 5676–5680, 10.1002/ange.201508976
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1905 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, O. Lenz, P. Carpentier, P. Scheerer Angewandte Chemie International Edition 2016, 55, 5586–5590, 10.1002/anie.201508976
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1794 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, L. J. C. Jeuken Chem. Commun. 2016, 52, 2632–2635, 10.1039/C5CC10382G
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1793 Structure of an Actinobacterial-Type [NiFe]-Hydrogenase Reveals Insight into O2-Tolerant H2 Oxidation C. Schäfer, M. Bommer, S. Hennig, J. H. Jeoung, H. Dobbek, O. Lenz Structure 2016, 24, 285–292, 10.1016/j.str.2015.11.010
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1782 Enzyme-Modified Particles for Selective Biocatalytic Hydrogenation by Hydrogen-Driven NADH Recycling H. A. Reeve, L. Lauterbach, O. Lenz, K. A. Vincent ChemCatChem 2015, 7, 3480–3487, 10.1002/cctc.201500766
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1781 H2-driven biotransformation of n-octane to 1-octanol by a recombinant Pseudomonas putida strain co-synthesizing an O2-tolerant hydrogenase and a P450 monooxygenase T. H. Lonsdale, L. Lauterbach, S. Honda Malca, B. M. Nestl, B. Hauer, O. Lenz Chem. Commun. 2015, 51, 16173–16175, 10.1039/C5CC06078H
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1780 Active Site of the NAD+ -Reducing Hydrogenase from Ralstonia eutropha Studied by EPR Spectroscopy J. Löwenstein, L. Lauterbach, C. Teutloff, O. Lenz, R. Bittl The Journal of Physical Chemistry B 2015, 119, 13834–13841, 10.1021/acs.jpcb.5b04144
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1779 Electrochemical and Infrared Spectroscopic Studies Provide Insight into Reactions of the NiFe Regulatory Hydrogenase from Ralstonia eutropha
with O2 and CO P. A. Ash, J. Liu, N. Coutard, N. Heidary, M. Horch, I. Gudim, T. Simler, I. Zebger, O. Lenz, K. A. Vincent The Journal of Physical Chemistry B 2015, 119, 13807–13815, 10.1021/acs.jpcb.5b04164
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1697 Resonance Raman Spectroscopic Analysis of the [NiFe] Active Site and the Proximal [4Fe-3S] Cluster of an O2 -Tolerant Membrane-Bound Hydrogenase in the Crystalline State E. Siebert, Y. Rippers, S. Frielingsdorf, J. Fritsch, A. Schmidt, J. Kalms, S. Katz, O. Lenz, P. Scheerer, L. Paasche, V. Pelmenschikov, U. Kuhlmann, M. A. Mroginski, I. Zebger, P. Hildebrandt The Journal of Physical Chemistry B 2015, 119, 13785–13796, 10.1021/acs.jpcb.5b04119
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1685 Asymmetric Biocatalytic Amination of Ketones at the Expense of NH3 and Molecular Hydrogen A. K. Holzer, K. Hiebler, F. G. Mutti, R. C. Simon, L. Lauterbach, O. Lenz, W. Kroutil Organic Letters 2015, 17, 2431–2433, 10.1021/acs.orglett.5b01154
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1684 Cofactor composition and function of a H2-sensing regulatory hydrogenase as revealed by Mössbauer and EPR Spectroscopy F. Roncaroli, E. Bill, B. Friedrich, O. Lenz, W. Lubitz, M. E. Pandelia Chem. Sci. 2015, 10.1039/C5SC01560J
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1641 Oxygen-tolerant hydrogenases and their biotechnological potential O. Lenz, L. Lauterbach, S. Frielingsdorf, B. Friedrich Biohydrogen Matthias Rögner De Gruyter 2015,
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1640 Impact of the iron−sulfur cluster proximal to the active site on the catalytic function of an O2-tolerant NAD-reducing [NiFe]-hydrogenase K. Karstens, S. Wahlefeld, M. Horch, M. Grunzel, L. Lauterbach, F. Lendzian, I. Zebger, O. Lenz Biochemistry 2015, 54, 389–403, 10.1021/bi501347u
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1639 Structural differences of oxidized iron−sulfur and nickel−iron cofactors in O2-tolerant and O2-sensitive hydrogenases studied by X-ray absorption spectroscopy K. G. V. Sigfridsson, N. Leidel, O. Sanganas, P. Chernev, O. Lenz, K. S. Yoon, H. Nishihara, A. Parkin, F. A. Armstrong, S. Dementin, M. Rousset, A. L. De Lacey, M. Haumann Biochimica et Biophysica Acta (BBA) - Bioenergetics 2015, 1847, 162–170, 10.1016/j.bbabio.2014.06.011
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1638 Nuclear resonance vibrational spectroscopy reveals the FeS cluster composition and active site vibrational properties of an O2-tolerant NAD-reducing [NiFe] hydrogenase L. Lauterbach, H. Wang, M. Horch, L. B. Gee, Y. Yoda, Y. Tanaka, I. Zebger, O. Lenz, S. P. Cramer Chem. Sci. 2015, 6, 1055–1060, 10.1039/C4SC02982H
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1637 Reversible active site sulfoxygenation can explain the oxygen tolerance of a NAD-reducing [NiFe] hydrogenase and its unusual infrared spectroscopic properties M. Horch, L. Lauterbach, M. A. Mroginski, P. Hildebrandt, O. Lenz, I. Zebger Journal of the American Chemical Society 2015, 137, 2555–2564, 10.1021/ja511154y
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1416 Resonance Raman spectroscopy on [NiFe] hydrogenase provides structural insights into catalytic intermediates and reactions M. Horch, J. Schoknecht, M. A. Mroginski, O. Lenz, P. Hildebrandt, I. Zebger Journal of the American Chemical Society 2014, 136, 9870–9873, 10.1021/ja505119q
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1415 Enhanced oxygen-tolerance of the full heterotrimeric membrane-bound [NiFe]-hydrogenase of Ralstonia eutropha V. Radu, S. Frielingsdorf, S. D. Evans, O. Lenz, L. J. C. Jeuken Journal of the American Chemical Society 2014, 136, 8512–8515, 10.1021/ja503138p
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1414 Rubredoxin-related maturation factor guarantees metal cofactor integrity during aerobic biosynthesis of membrane-bound [NiFe] hydrogenase J. Fritsch, E. Siebert, J. Priebe, I. Zebger, F. Lendzian, C. Teutloff, B. Friedrich, O. Lenz Journal of Biological Chemistry 2014, 289, 7982–7993, 10.1074/jbc.M113.544668
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1396 Reversible [4Fe-3S] cluster morphing in an O2-tolerant [NiFe] hydrogenase S. Frielingsdorf, J. Fritsch, A. Schmidt, M. Hammer, J. Löwenstein, E. Siebert, V. Pelmenschikov, T. Jaenicke, J. Kalms, Y. Rippers, F. Lendzian, I. Zebger, C. Teutloff, M. Kaupp, R. Bittl, P. Hildebrandt, B. Friedrich, O. Lenz, P. Scheerer Nature Chemical Biology 2014, 10, 378–385, 10.1038/nchembio.1500
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1227 Protein-Protein Complex Formation Affects the Ni-Fe and Fe-S Centers in the H2-Sensing Regulatory Hydrogenase from Ralstonia eutropha H16 S. Löscher, A. Gebler, M. Stein, O. Sanganas, T. Buhrke, I. Zebger, H. Dau, B. Friedrich, O. Lenz, M. Haumann ChemSusChem 2010, 11, 1297–1306, 10.1002/cphc.200901007
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1166 Catalytic production of hydrogen peroxide and water by oxygen-tolerant [NiFe]-hydrogenase during H2 cycling in the presence of O2 L. Lauterbach, O. Lenz Journal of the American Chemical Society 2013, 135, 17897–17905, 10.1021/ja408420d
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1165 Attenuated total reflectance infrared spectroelectrochemistry at a carbon particle electrode; unmediated redox control of a [NiFe]-hydrogenase solution A. J. Healy, P. A. Ash, O. Lenz, K. A. Vincent Physical Chemistry Chemical Physics 2013, 15, 7055– 10.1039/c3cp00119a
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1164 Stability enhancement of an O2-tolerant NAD+-reducing [NiFe]-hydrogenase by a combination of immobilisation and chemical modification N. Herr, J. Ratzka, L. Lauterbach, O. Lenz, M. B. Ansorge-Schumacher Journal of Molecular Catalysis B: Enzymatic 2013, 97, 169–174, 10.1016/j.molcatb.2013.06.009
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1163 H2-driven cofactor regeneration with NAD(P)+-reducing hydrogenases L. Lauterbach, O. Lenz, K. A. Vincent FEBS Journal 2013, 280, 3058–3068, 10.1111/febs.12245
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1162 Novel, Oxygen-Insensitive Group 5 [NiFe]-Hydrogenase in Ralstonia eutropha C. Schafer, B. Friedrich, O. Lenz Applied and Environmental Microbiology 2013, 79, 5137–5145, 10.1128/AEM.01576-13
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1161 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, F. Velazquez Escobar, F. Siebert, L. Paasche, U. Kuhlmann, F. Lendzian, M. A. Mroginski, I. Zebger, P. Hildebrandt Angewandte Chemie International Edition 2013, 52, 5162–5165, 10.1002/anie.201209732
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1041 Structure, function and biosynthesis of O2-tolerant hydrogenases J. Fritsch, O. Lenz, B. Friedrich Nature Reviews Microbiology 2013, 11, 106–114, 10.1038/nrmicro2940
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946 Stabilisation of the NAD+-reducing soluble [NiFe]-hydrogenase from Ralstonia eutropha H16 through modification with methoxy-poly(ethylene) glycol J. Ratzka, L. Lauterbach, O. Lenz, M. Ansorge-Schumacher Journal of Molecular Catalysis B: Enzymatic 2012, 74, 219–223, 10.1016/j.molcatb.2011.10.008
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872 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, C. M. T. Spahn Nature 2011, 479, 249–252, 10.1038/nature10505
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869 A Universal Scaffold for Synthesis of the Fe(CN)(2)(CO) Moiety of [NiFe] Hydrogenase I. Buerstel, E. Siebert, G. Winter, P. Hummel, I. Zebger, B. Friedrich, O. Lenz Journal of Biological Chemistry 2012, 287, 38845–38853, 10.1074/jbc.M112.376947
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799 NAD(H)-coupled hydrogen cycling - structure-function relationships of bidirectional [NiFe] hydrogenases M. Horch, L. Lauterbach, O. Lenz, P. Hildebrandt, I. Zebger FEBS letters 2012, 586, 545–556, 10.1016/j.febslet.2011.10.010
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792 Systematic evaluation of the dihydrogen-oxidising and NAD+-reducing [NiFe] hydrogenase from Ralstonia eutropha H16 as a cofactor regeneration catalyst J. Ratzka, L. Lauterbach, O. Lenz, M. Ansorge-Schumacher Biocatalysis & Biotransformation 2011, 29, 246–252, 10.3109/10242422.2011.615393
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782 A modular system for regeneration of NAD cofactors using graphite particles modified with hydrogenase and diaphorase moieties H. A. Reeve, L. Lauterbach, P. A. Ash, O. Lenz, K. A. Vincent Chemical Communications 2012, 48, 1589–1591, 10.1039/C1CC14826E
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780 Probing the origin of the metabolic precursor of the CO ligand in the catalytic center of [NiFe]-hydrogenase I. Bürstel, P. Hummel, E. Siebert, N. Wisitruangsakul, I. Zebger, B. Friedrich, O. Lenz Journal of Biological Chemistry 2011, 286, 44937–44944, 10.1074/jbc.M111.309351
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775 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 2011, 50, 10836–10843, 10.1021/bi201594m
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763 Catalytic Properties of the Isolated Diaphorase Fragment of the NAD+-Reducing [NiFe]-Hydrogenase from Ralstonia eutropha L. Lauterbach, Z. Idris, K. A. Vincent, O. Lenz PLoS ONE 2011, 6, 10.1371/journal.pone.0025939
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762 Oxygen-Tolerant [NiFe]-Hydrogenases: The Individual and Collective Importance of Supernumerary Cysteines at the Proximal Fe-S Cluster M. J. Lukey, M. M. Roessler, A. Parkin, R. M. Evans, R. A. Davies, O. Lenz, B. Friedrich, F. Sargent, F. A. Armstrong Journal of the American Chemical Society 2011, 133, 16881–16892, 10.1021/ja205393w
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761 Contribution of a Sodium Ion Gradient to Energy Conservation during Fermentation in the Cyanobacterium Arthrospira (Spirulina) maxima CS-328 D. Carrieri, G. Ananyev, O. Lenz, D. A. Bryant, G. C. Dismukes Applied and Environmental Microbiology 2011, 77, 7185–7194, 10.1128/AEM.00612-11
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760 [NiFe] and [FeS] Cofactors in the Membrane-Bound Hydrogenase of Ralstonia eutropha Investigated by X-ray Absorption Spectroscopy: Insights into O2-Tolerant H2 Cleavage F. Johannes, S. Löscher, O. Sanganas, E. Siebert, I. Zebger, M. Stein, M. Ludwig, A. L. De Lacey, H. Dau, B. Friedrich, O. Lenz, M. Haumann Biochemistry 2011, 50, 5858–5869, 10.1021/bi200367u
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578 The maturation factors HoxR and HoxT contribute to oxygen tolerance of membrane-bound [NiFe] hydrogenase in Ralstonia eutropha H16 J. Fritsch, O. Lenz, B. Friedrich Journal of Bacteriology 2011, 193, 2487–2497, 10.1128/JB.01427-10
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577 A unique iron-sulfur cluster is crucial for oxygen tolerance of a [NiFe]-hydrogenase T. Goris, A. F. Wait, M. Saggu, J. Fritsch, N. Heidary, M. Stein, I. Zebger, F. Lendzian, F. A. Armstrong, B. Friedrich, O. Lenz Nature Chemical Biology 2011, 7, 310–318, 10.1038/NCHEMBIO.555
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491 Probing the active site of an oxygen-tolerant NAD+ reducing [NiFe] hydrogenase from Ralstonia eutropha H16 by in-situ EPR and FTIR spectroscopy M. Horch, L. Lauterbach, M. Saggu, O. Lenz, P. Hildebrandt, F. Lendzian, R. Bittl, I. Zebger Angewandte Chemie International Edition 2010, 49, 8026–8029, 10.1002/anie.201002197
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458 The Hydrogenase Subcomplex of the NAD+-Reducing [NiFe] Hydrogenase from Ralstonia eutropha - Insights into Catalysis and Redox Interconversions L. Lauterbach, J. Liu, M. Horch, P. Hummel, A. Schwarze, M. Haumann, K. A. Vincent, O. Lenz, I. Zebger European Journal of Inorganic Chemistry 2011, 7, 1067–1079, 10.1002/ejic.201001053
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456 Oxygen-tolerant hydrogenases in hydrogen-based technologies B. Friedrich, J. Fritsch, O. Lenz Current Opinion in Biotechnology 2011, 22, 358–364, 10.1016/j.copbio.2011.01.006
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450 Boosting Autofermentation Rates and Product Yields with Sodium Stress Cycling: Application to Production of Renewable Fuels by Cyanobacteria D. Carrieri, D. Momot, I. A. Brasg, G. Ananyev, O. Lenz, D. A. Bryant, G. C. Dismukes Applied and Environmental Microbiology 2010, 76, 6455–6462, 10.1128/AEM.00975-10
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355 H2 conversion in the presence of O2 as performed by the membrane-bound [NiFe]-hydrogenase of Ralstonia eutropha O. Lenz, M. Ludwig, T. Schubert, I. Buerstel, S. Ganskow, T. Goris, A. Schwarze, B. Friedrich ChemPhysChem 2010, 11, 1107–1119, 10.1002/cphc.200901002
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349 Impact of amino acid substitutions near the catalytic site on the spectral properties of an O2-tolerant membrane-bound [NiFe]-hydrogenase M. Saggu, M. Ludwig, B. Friedrich, P. Hildebrandt, R. Bittl, F. Lendzian, O. Lenz, I. Zebger ChemPhysChem 2010, 11, 1215–1224, 10.1002/cphc.200900988
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348 Photosynthetic hydrogen production by a hybrid complex of photosystem I and [NiFe]-hydrogenase H. Krassen, A. Schwarze, B. Friedrich, K. Ataka, O. Lenz, J. Heberle ACS Nano 2009, 3, 4055–4061, 10.1021/nn900748j
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347 A kinetic and thermodynamic understanding of O2 tolerance in [NiFe]-hydrogenases J. A. Cracknell, A. F. Wait, O. Lenz, B. Friedrich, F. A. Armstrong Proceedings of the National Academy of Sciences of the United States of America 2009, 106, 20681–20686, 10.1073/pnas.0905959106
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345 Comparison of the membrane-bound [NiFe] hydrogenases from R. eutropha H16 and D. vulgaris Miyazaki F in the oxidized ready state by pulsed EPR M. Saggu, C. Teutloff, M. Ludwig, M. Brecht, M. E. Pandelia, O. Lenz, B. Friedrich, W. Lubitz, P. Hildebrandt, F. Lendzian, R. Bittl Physical Chemistry Chemical Physics 2010, 12, 2139–2148, 10.1039/b922236g
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343 Requirements for the construction of a functional hybrid complex between photosystem I and [NiFe]-hydrogenase A. Schwarze, M. Kopczak, M. Rögner, O. Lenz Applied and Environmental Microbiology 2010, 76, 2641–2651, 10.1128/AEM.02700-09
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136 Enzymatic oxidation of H2 in atmospheric O2: The electrochemistry of energy generation from trace H2 by aerobic by aerobic microorganisms J. A. Cracknell, K. A. Vincent, M. Ludwig, O. Lenz, B. Friedrich, F. A. Armstrong Journal of the American Chemical Society 2008, 130, 424–425, 10.1021/ja078299
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135 Hydrogen production under aerobic conditions by membrane-bound hydrogenases from Ralstonia species G. Goldet, A. F. Wait, J. A. Cracknell, K. A. Vincent, M. Ludwig, O. Lenz, B. Friedrich, F. A. Armstrong Journal of the American Chemical Society 2008, 130, 11106–11113, 10.1021/ja8027668
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133 Concerted action of two novel auxiliary proteins in assembly of the active site in a membrane-bound [NiFe]-hydrogenase M. Ludwig, T. Schubert, I. Zebger, N. Wisitruangsakul, M. Saggu, A. Strack, O. Lenz, P. Hildebrandt, B. Friedrich The Journal Of Biological Chemistry 2009, 284, 2159–2168, 10.1074/jbc.M808488200
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131 Oxygen-tolerant H2 oxidation by membrane-bound [NiFe]-hydrogenase of Ralstonia species: Coping with low-level H2 in air M. Ludwig, J. A. Cracknell, K. A. Vincent, F. A. Armstrong, O. Lenz The Journal Of Biological Chemistry 2009, 284, 465–477, 10.1074/jbc.M803676200
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130 Knallgas unter Kontrolle: O2-tolerante Hydrogenasen und ihre Anwendung M. Ludwig, A. Schwarze, O. Lenz BIOspektrum 2008, 5, 477–479,
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129 Biokatalysatoren für die Erzeugung von Wasserstoff und Strom O. Lenz, B. Friedrich Aktuelle Wochenschau (Online) 2008,
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52 Spectroscopic insight into the oxygen-tolerant membrane-associated [NiFe]-hydrogenase of Ralstonia eutropha H16 M. Saggu, I. Zebger, M. Ludwig, O. Lenz, B. Friedrich, P. Hildebrandt, F. Lendzian Journal of Biological Chemistry 2009, 284, 16264–16276, 10.1074/jbc.M805690200
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49 Untersuchung des Katalyseprozesses der membrangebundenen Hydrogenase aus Rastolnia EutrophaH16 mittels oberflächenverstärkter Infrarotabsorptionsspektroskopie N. Wisitruangsakul, O. Lenz, M. Ludwig, B. Friedrich, P. Hildebrandt, F. Lendzian, I. Zebger Angewandte Chemie 2009, 121, 621–623, 10.1002/ange.200802633
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48 Monitoring catalysis of the membrane-bound hydrogenase of Rastolnia Eutropha by surface enhanced infrared absorption spectroscopy N. Wisitruangsakul, O. Lenz, M. Ludwig, B. Friedrich, P. Hildebrandt, F. Lendzian, I. Zebger Angewandte Chemie International Edition 2009, 48, 611–613, 10.1002/anie.200802633
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