Your search keyword '"Léger, Christophe"' showing total 492 results

1. An allosteric redox switch involved in oxygen protection in a CO2 reductase

Author

Oliveira, Ana Rita, Mota, Cristiano, Vilela-Alves, Guilherme, Manuel, Rita Rebelo, Pedrosa, Neide, Fourmond, Vincent, Klymanska, Kateryna, Léger, Christophe, Guigliarelli, Bruno, Romão, Maria João, and Cardoso Pereira, Inês A.

Published

2024

2. Toward an informative comparison of heterogeneous, synthetic, and biological electrocatalysis in energy conversion

Author

Jeuken, Lars J.C., Hetterscheid, Dennis G.H., Koper, Marc T.M., Casadevall, Carla, Léger, Christophe, Llobet, Antoni, Milton, Ross D., Nakamura, Ryuhei, and Tschulik, Kristina

Published

2024

3. Second and Outer Coordination Sphere Effects in Nitrogenase, Hydrogenase, Formate Dehydrogenase, and CO Dehydrogenase.

Author

Stripp, Sven, Duffus, Benjamin, Fourmond, Vincent, Léger, Christophe, Leimkühler, Silke, Hirota, Shun, Jasniewski, Andrew, Ogata, Hideaki, Hu, Yilin, and Ribbe, Markus

Subjects

Aldehyde Oxidoreductases, Carbon Dioxide, Formate Dehydrogenases, Hydrogenase, Multienzyme Complexes, Nitrogenase, Oxidation-Reduction

Abstract

Gases like H2, N2, CO2, and CO are increasingly recognized as critical feedstock in green energy conversion and as sources of nitrogen and carbon for the agricultural and chemical sectors. However, the industrial transformation of N2, CO2, and CO and the production of H2 require significant energy input, which renders processes like steam reforming and the Haber-Bosch reaction economically and environmentally unviable. Nature, on the other hand, performs similar tasks efficiently at ambient temperature and pressure, exploiting gas-processing metalloenzymes (GPMs) that bind low-valent metal cofactors based on iron, nickel, molybdenum, tungsten, and sulfur. Such systems are studied to understand the biocatalytic principles of gas conversion including N2 fixation by nitrogenase and H2 production by hydrogenase as well as CO2 and CO conversion by formate dehydrogenase, carbon monoxide dehydrogenase, and nitrogenase. In this review, we emphasize the importance of the cofactor/protein interface, discussing how second and outer coordination sphere effects determine, modulate, and optimize the catalytic activity of GPMs. These may comprise ionic interactions in the second coordination sphere that shape the electron density distribution across the cofactor, hydrogen bonding changes, and allosteric effects. In the outer coordination sphere, proton transfer and electron transfer are discussed, alongside the role of hydrophobic substrate channels and protein structural changes. Combining the information gained from structural biology, enzyme kinetics, and various spectroscopic techniques, we aim toward a comprehensive understanding of catalysis beyond the first coordination sphere.

Published

2022

4. The difference bidirectionality makes to the kinetic modeling of molecular catalysis

Author

Fasano, Andrea, Fourmond, Vincent, and Léger, Christophe

Published

2024

5. Kinetic modeling of 2e−/1H+ and 2e−/2H+ bidirectional catalytic cycles

Author

Fasano, Andrea, Fourmond, Vincent, and Léger, Christophe

Published

2024

6. Transport limited adsorption experiments give a new lower estimate of the turnover frequency of Escherichia coli hydrogenase 1

Author

Aldinio-Colbachini, Anna, Fasano, Andrea, Guendon, Chloé, Jacq-Bailly, Aurore, Wozniak, Jérémy, Baffert, Carole, Kpebe, Arlette, Léger, Christophe, Brugna, Myriam, and Fourmond, Vincent

Published

2023

7. The two CO-dehydrogenases of Thermococcus sp. AM4

Author

Benvenuti, Martino, Meneghello, Marta, Guendon, Chloé, Jacq-Bailly, Aurore, Jeoung, Jae-Hun, Dobbek, Holger, Léger, Christophe, Fourmond, Vincent, and Dementin, Sébastien

Published

2020

8. Reversible catalysis

Author

Fourmond, Vincent, Plumeré, Nicolas, and Léger, Christophe

Published

2021

9. Reversible H2 oxidation and evolution by hydrogenase embedded in a redox polymer film

Author

Hardt, Steffen, Stapf, Stefanie, Filmon, Dawit T., Birrell, James A., Rüdiger, Olaf, Fourmond, Vincent, Léger, Christophe, and Plumeré, Nicolas

Published

2021

10. Kinetic Modeling of the Reversible or Irreversible Electrochemical Responses of FeFe-Hydrogenases

Author

Fasano, Andrea, Baffert, Carole, Schumann, Conrad, Berggren, Gustav, Birrell, James A., Fourmond, Vincent, Léger, Christophe, Fasano, Andrea, Baffert, Carole, Schumann, Conrad, Berggren, Gustav, Birrell, James A., Fourmond, Vincent, and Léger, Christophe

Abstract

The enzyme FeFe-hydrogenase catalyzes H2 evolution and oxidation at an active site that consists of a [4Fe-4S] cluster bridged to a [Fe2(CO)3(CN)2(azadithiolate)] subsite. Previous investigations of its mechanism were mostly conducted on a few “prototypical” FeFe-hydrogenases, such as that from Chlamydomonas reinhardtii(Cr HydA1), but atypical hydrogenases have recently been characterized in an effort to explore the diversity of this class of enzymes. We aim at understanding why prototypical hydrogenases are active in either direction of the reaction in response to a small deviation from equilibrium, whereas the homologous enzyme from Thermoanaerobacter mathranii (Tam HydS) shows activity only under conditions of very high driving force, a behavior that was referred to as “irreversible catalysis”. We follow up on previous spectroscopic studies and recent developments in the kinetic modeling of bidirectional reactions to investigate and compare the catalytic cycles of Cr HydA1 and Tam HydS under conditions of direct electron transfer with an electrode. We compare the hypothetical catalytic cycles described in the literature, and we show that the observed changes in catalytic activity as a function of potential, pH, and H2 concentration can be explained with the assumption that the same catalytic mechanism applies. This helps us identify which variations in properties of the catalytic intermediates give rise to the distinct “reversible” or “irreversible” catalytic behaviors.

Published

2024

11. New perspectives in hydrogenase direct electrochemistry

Author

Sensi, Matteo, Del Barrio Redondo, Melisa, Baffert, Carole, Fourmond, Vincent, Léger, Christophe, Sensi, Matteo, Del Barrio Redondo, Melisa, Baffert, Carole, Fourmond, Vincent, and Léger, Christophe

Abstract

Electrochemical studies of hydrogenases, the biological catalysts of H2 oxidation and production, have proven wrong the old saying that enzymes do not easily transfer electrons to electrodes in the absence of mediators. Many distinct hydrogenases have actually been directly connected to electrodes or particles, for studying their catalytic mechanism or for designing solar-fuels catalysts. In this review, we list the electrodes that have proved successful for direct electron transfer to hydrogenases, and we discuss recent results which illustrate new directions in this research field: the study of the biosynthesis of FeFe hydrogenase, the electrochemical characterization of non-standard NiFe or FeFe hydrogenases, the general discussion of what makes a catalyst better in one particular direction of the reaction, and the elucidation of the molecular mechanisms of hydrogenase catalysis by combining electrochemistry and theoretical chemistry, spectroscopy or photochemistry. The electrochemical methods described herein will probably prove useful for studying or using other redox enzymes., CNRS, Aix Marseille Université, Agence Nationale de la Recherche, Depto. de Química Analítica, CAI Ciencias de la Tierra y Arqueometría, TRUE, pub

Published

2024

12. Structural insight into metallocofactor maturation in carbon monoxide dehydrogenase

Author

Wittenborn, Elizabeth C., Cohen, Steven E., Merrouch, Mériem, Léger, Christophe, Fourmond, Vincent, Dementin, Sébastien, and Drennan, Catherine L.

Published

2019

13. Kinetic Modeling of the Reversible or Irreversible Electrochemical Responses of FeFe-Hydrogenases

Author

Fasano, Andrea, primary, Baffert, Carole, additional, Schumann, Conrad, additional, Berggren, Gustav, additional, Birrell, James A., additional, Fourmond, Vincent, additional, and Léger, Christophe, additional

Published

2024

14. Outer-sphere effects on the O2 sensitivity, catalytic bias and catalytic reversibility of hydrogenases

Author

Fasano, Andrea, primary, Fourmond, Vincent, additional, and Léger, Christophe, additional

Published

2024

15. A safety cap protects hydrogenase from oxygen attack

Author

Winkler, Martin, Duan, Jifu, Rutz, Andreas, Felbek, Christina, Scholtysek, Lisa, Lampret, Oliver, Jaenecke, Jan, Apfel, Ulf-Peter, Gilardi, Gianfranco, Valetti, Francesca, Fourmond, Vincent, Hofmann, Eckhard, Léger, Christophe, and Happe, Thomas

Published

2021

16. French Engineering Universities: How They Deal with Entrepreneurship and Innovation

Author

Jolly, Anne-Marie, Leger, Christophe, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Auer, Michael E., editor, and Kim, Kwang-Sun, editor

Published

2018

17. Roles of the F-domain in [FeFe] hydrogenase

Author

Gauquelin, Charles, Baffert, Carole, Richaud, Pierre, Kamionka, Emma, Etienne, Emilien, Guieysse, David, Girbal, Laurence, Fourmond, Vincent, André, Isabelle, Guigliarelli, Bruno, Léger, Christophe, Soucaille, Philippe, and Meynial-Salles, Isabelle

Published

2018

18. Architecture of Succinate Dehydrogenase and Reactive Oxygen Species Generation

Author

Yankovskaya, Victoria, Horsefield, Rob, Törnroth, Susanna, Luna-Chavez, César, Miyoshi, Hideto, Léger, Christophe, Byrne, Bernadette, Cecchini, Gary, and Iwata, So

Published

2003

19. New perspectives in hydrogenase direct electrochemistry

Author

Sensi, Matteo, del Barrio, Melisa, Baffert, Carole, Fourmond, Vincent, and Léger, Christophe

Published

2017

20. Reliable estimation of the kinetic parameters of redox enzymes by taking into account mass transport towards rotating electrodes in protein film voltammetry experiments

Author

Merrouch, Meriem, Hadj-Saïd, Jessica, Léger, Christophe, Dementin, Sébastien, and Fourmond, Vincent

Published

2017

21. An introduction to electrochemical methods for the functional analysis of metalloproteins

Author

Fourmond, Vincent, primary and Léger, Christophe, additional

Published

2020

22. List of Contributors

Author

Archer, Margarida, primary, Bill, Eckhard, additional, Brito, José A., additional, Browne, Wesley R., additional, Crichton, Robert R., additional, Feiters, Martin C., additional, Fourmond, Vincent, additional, Gruden, Maja, additional, Hagen, W.R., additional, Kühne, Irina A., additional, Léger, Christophe, additional, Louro, Ricardo O., additional, Meyer-Klaucke, Wolfram, additional, Morgan, Grace G., additional, Robson, Robert L., additional, Trindade, Inês B., additional, and Zlatar, Matija, additional

Published

2020

23. Catalytic Bias and Redox-Driven Inactivation of the Group B FeFe Hydrogenase CpIII.

Author

Fasano, Andrea, Jacq-Bailly, Aurore, Wozniak, Jeremy, Fourmond, Vincent, and Léger, Christophe

Published

2024

24. Outer-sphere effects on the O2 sensitivity, catalytic bias and catalytic reversibility of hydrogenases.

Author

Fasano, Andrea, Fourmond, Vincent, and Léger, Christophe

Published

2024

25. Modelling the voltammetry of adsorbed enzymes and molecular catalysts

Author

Fourmond, Vincent and Léger, Christophe

Published

2017

26. Maturation of the [Ni–4Fe–4S] active site of carbon monoxide dehydrogenases

Author

Merrouch, Mériem, Benvenuti, Martino, Lorenzi, Marco, Léger, Christophe, Fourmond, Vincent, and Dementin, Sébastien

Published

2018

27. Kinetic modeling of 2e-/1H+ and 2e-/2H+ bidirectional catalytic cycles

Author

Fasano, Andrea, primary, Fourmond, Vincent, additional, and Léger, Christophe, additional

Published

2023

28. A Chimeric NiFe Hydrogenase Heterodimer to Assess the Role of the Electron Transfer Chain in Tuning the Enzyme’s Catalytic Bias and Oxygen Tolerance

Author

Fasano, Andrea, primary, Guendon, Chloé, additional, Jacq-Bailly, Aurore, additional, Kpebe, Arlette, additional, Wozniak, Jérémy, additional, Baffert, Carole, additional, Barrio, Melisa del, additional, Fourmond, Vincent, additional, Brugna, Myriam, additional, and Léger, Christophe, additional

Published

2023

29. Corrigendum to “Transport limited adsorption experiments give a new lower estimate of the turnover frequency of Escherichia coli hydrogenase 1” BBA Advances 3 (2023) 100090

Author

Aldinio-Colbachini, Anna, Fasano, Andrea, Guendon, Chloé, Jacq-Bailly, Aurore, Wozniak, Jérémy, Baffert, Carole, Kpebe, Arlette, Léger, Christophe, Brugna, Myriam, and Fourmond, Vincent

Published

2024

30. Mechanism of inhibition of NiFe hydrogenase by nitric oxide

Author

Ceccaldi, Pierre, Etienne, Emilien, Dementin, Sébastien, Guigliarelli, Bruno, Léger, Christophe, and Burlat, Bénédicte

Published

2016

31. Catalytic bias and redox-driven inactivation of ancestral FeFe hydrogenases from group B2

Author

Fasano, Andrea, primary, Bailly, Aurore, additional, Wozniak, Jeremy, additional, Fourmond, Vincent, additional, and Léger, Christophe, additional

Published

2023

32. Light-Driven Hydrogen Evolution Reaction Catalyzed by a Molybdenum–Copper Artificial Hydrogenase

Author

Labidi, Raphaël J., primary, Faivre, Bruno, additional, Carpentier, Philippe, additional, Veronesi, Giulia, additional, Solé-Daura, Albert, additional, Bjornsson, Ragnar, additional, Léger, Christophe, additional, Gotico, Philipp, additional, Li, Yun, additional, Atta, Mohamed, additional, and Fontecave, Marc, additional

Published

2023

33. The Carbon Monoxide Dehydrogenase from Desulfovibrio vulgaris

Author

Hadj-Saïd, Jessica, Pandelia, Maria-Eirini, Léger, Christophe, Fourmond, Vincent, and Dementin, Sébastien

Published

2015

34. Reductive activation of E. coli respiratory nitrate reductase

Author

Ceccaldi, Pierre, Rendon, Julia, Léger, Christophe, Toci, René, Guigliarelli, Bruno, Magalon, Axel, Grimaldi, Stéphane, and Fourmond, Vincent

Published

2015

35. A Threonine Stabilizes the NiC and NiR Catalytic Intermediates of [NiFe]-hydrogenase

Author

Abou-Hamdan, Abbas, Ceccaldi, Pierre, Lebrette, Hugo, Gutiérrez-Sanz, Oscar, Richaud, Pierre, Cournac, Laurent, Guigliarelli, Bruno, De Lacey, Antonio L., Léger, Christophe, Volbeda, Anne, Burlat, Bénédicte, and Dementin, Sébastien

Published

2015

36. Increasing the O2 Resistance of the [FeFe]-Hydrogenase CbA5H through Enhanced Protein Flexibility

Author

Rutz, Andreas, Das, Chandan K., Fasano, Andrea, Jaenecke, Jan, Yadav, Shanika, Apfel, Ulf-Peter, Engelbrecht, Vera, Fourmond, Vincent, Léger, Christophe, Happe, Thomas, Schäfer, Lars V., and Publica

Subjects

spectroscopy, metalloenzyme, Protein, [FeFe]-hydrogenase mimic, molecular dynamics

Abstract

The high turnover rates of [FeFe]-hydrogenases under mild conditions and at low overpotentials provide a natural blueprint for the design of hydrogen catalysts. However, the unique active site (H-cluster) degrades upon contact with oxygen. The [FeFe]-hydrogenase fromClostridium beijerinckii (CbA5H) is characterized by the flexibility of its protein structure, which allows a conserved cysteine to coordinate to the active site under oxidative conditions. Thereby, intrinsic cofactor degradation induced by dioxygen is minimized. However, the protection from O2 is only partial, and the activity of the enzyme decreases upon each exposure to O2. By using site-directed mutagenesis in combination with electrochemistry, ATR-FTIR spectroscopy, and molecular dynamics simulations, we show that the kinetics of the conversion between the oxygen-protected inactive state (cysteine-bound) and the oxygen-sensitive active state can be accelerated by replacing a surface residue that is very distant from the active site. This sole exchange of methionine for a glutamate residue leads to an increased resistance of the hydrogenase to dioxygen. With our study, we aim to understand how local modifications of the protein structure can have a crucial impact on protein dynamics and how they can control the reactivity of inorganic active sites through outer sphere effects.

Published

2023

37. Correction to “Steady-State Catalytic Wave-Shapes for 2-Electron Reversible Electrocatalysts and Enzymes”

Author

Fourmond, Vincent, primary, Baffert, Carole, additional, Sybirna, Kateryna, additional, Lautier, Thomas, additional, Abou Hamdan, Abbas, additional, Dementin, Sébastien, additional, Soucaille, Philippe, additional, Meynial-Salles, Isabelle, additional, Bottin, Hervé, additional, and Léger, Christophe, additional

Published

2023

38. Assessing the Extent of Potential Inversion by Cyclic Voltammetry: Theory, Pitfalls, and Application to a Nickel Complex with Redox-Active Iminosemiquinone Ligands

Author

Hessin, Cheriehan, primary, Schleinitz, Jules, additional, Le Breton, Nolwenn, additional, Choua, Sylvie, additional, Grimaud, Laurence, additional, Fourmond, Vincent, additional, Desage-El Murr, Marine, additional, and Léger, Christophe, additional

Published

2023

39. Electrochemical Kinetics Support a Second Coordination Sphere Mechanism in Metal‐Based Formate Dehydrogenase

Author

Meneghello, Marta, primary, Uzel, Alexandre, additional, Broc, Marianne, additional, Manuel, Rita R., additional, Magalon, Axel, additional, Léger, Christophe, additional, Pereira, Inês A. C., additional, Walburger, Anne, additional, and Fourmond, Vincent, additional

Published

2023

40. Kinetics of substrate inhibition of periplasmic nitrate reductase

Author

Jacques, Julien G.J., Burlat, Bénédicte, Arnoux, Pascal, Sabaty, Monique, Guigliarelli, Bruno, Léger, Christophe, Pignol, David, and Fourmond, Vincent

Published

2014

41. Comparison of Image Restoration Methods for Bioluminescence Imaging

Author

Akkoul, Smaïl, Ledee, Roger, Leconge, Remy, Leger, Christophe, Harba, Rachid, Pesnel, Sabrina, Lerondel, Stéphanie, Lepape, Alain, Vilcahuaman, Luis, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Elmoataz, Abderrahim, editor, Lezoray, Olivier, editor, Nouboud, Fathallah, editor, and Mammass, Driss, editor

Published

2008

42. Reductive activation in periplasmic nitrate reductase involves chemical modifications of the Mo-cofactor beyond the first coordination sphere of the metal ion

Author

Jacques, Julien G.J., Fourmond, Vincent, Arnoux, Pascal, Sabaty, Monique, Etienne, Emilien, Grosse, Sandrine, Biaso, Frédéric, Bertrand, Patrick, Pignol, David, Léger, Christophe, Guigliarelli, Bruno, and Burlat, Bénédicte

Published

2014

43. Increasing the O2 Resistance of the [FeFe]-Hydrogenase CbA5H through Enhanced Protein Flexibility

Author

Rutz, Andreas, primary, Das, Chandan K., additional, Fasano, Andrea, additional, Jaenecke, Jan, additional, Yadav, Shanika, additional, Apfel, Ulf-Peter, additional, Engelbrecht, Vera, additional, Fourmond, Vincent, additional, Léger, Christophe, additional, Schäfer, Lars V., additional, and Happe, Thomas, additional

Published

2022

44. Structural basis for the O2 protection mechanism of the [FeFe]-hydrogenase CbA5H from Clostridium beijerinckii

Author

Rutz, Andreas, Duan, Jifu, Felbek, Christina, Fourmond, Vincent, Hofmann, Eckhard, Léger, Christophe, and Happe, Thomas

Published

2022

45. Relation between anaerobic inactivation and oxygen tolerance in a large series of NiFe hydrogenase mutants

Author

Hamdan, Abbas Abou, Liebgott, Pierre-Pol, Fourmond, Vincent, Gutiérrez-Sanz, Oscar, De Lacey, Antonio L., Infossi, Pascale, Rousset, Marc, Dementin, Sébastien, and Léger, Christophe

Published

2012

46. Author Correction: The oxidative inactivation of FeFe hydrogenase reveals the flexibility of the H-cluster

Author

Fourmond, Vincent, Greco, Claudio, Sybirna, Kateryna, Baffert, Carole, Wang, Po-Hung, Ezanno, Pierre, Montefiori, Marco, Bruschi, Maurizio, Meynial-Salles, Isabelle, Soucaille, Philippe, Blumberger, Jochen, Bottin, Hervé, De Gioia, Luca, and Léger, Christophe

Published

2019

47. Experimental Approaches to Kinetics of Gas Diffusion in Hydrogenase

Author

Leroux, Fanny, Dementin, Sébastien, Burlat, Bénédicte, Cournac, Laurent, Volbeda, Anne, Champ, Stéphanie, Martin, Lydie, Guigliarelli, Bruno, Bertrand, Patrick, Fontecilla-Camps, Juan, Rousset, Marc, and Léger, Christophe

Published

2008

48. Biochemical and biophysical characterization of succinate: Quinone reductase from Thermus thermophilus

Author

Kolaj-Robin, Olga, O'Kane, Sarah R., Nitschke, Wolfgang, Léger, Christophe, Baymann, Frauke, and Soulimane, Tewfik

Published

2011

49. Correction to: Maturation of the [Ni–4Fe–4S] active site of carbon monoxide dehydrogenases

Author

Merrouch, Mériem, Benvenuti, Martino, Lorenzi, Marco, Léger, Christophe, Fourmond, Vincent, and Dementin, Sébastien

Published

2018

50. SOAS: A free program to analyze electrochemical data and other one-dimensional signals

Author

Fourmond, Vincent, Hoke, Kevin, Heering, Hendrik A., Baffert, Carole, Leroux, Fanny, Bertrand, Patrick, and Léger, Christophe

Published

2009