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21 results on '"Sybirna, Kateryna"'

4. Shewanella oneidensis: a new and efficient System for Expression and Maturation of heterologous [Fe-Fe] Hydrogenase from Chlamydomonas reinhardtii

Author

Sybirna Kateryna, Antoine Tatiana, Lindberg Pia, Fourmond Vincent, Rousset Marc, Méjean Vincent, and Bottin Hervé

Subjects
Biotechnology, TP248.13-248.65
Abstract

Abstract Background The eukaryotic green alga, Chlamydomonas reinhardtii, produces H2 under anaerobic conditions, in a reaction catalysed by a [Fe-Fe] hydrogenase HydA1. For further biochemical and biophysical studies a suitable expression system of this enzyme should be found to overcome its weak expression in the host organism. Two heterologous expression systems used up to now have several advantages. However they are not free from some drawbacks. In this work we use bacterium Shewanella oneidensis as a new and efficient system for expression and maturation of HydA1 from Chlamydomonas reinhardtii. Results Based on codon usage bias and hydrogenase maturation ability, the bacterium S. oneidensis, which possesses putative [Fe-Fe] and [Ni-Fe] hydrogenase operons, was selected as the best potential host for C. reinhardtii [Fe-Fe] hydrogenase expression. Hydrogen formation by S. oneidensis strain AS52 (ΔhydAΔhyaB) transformed with a plasmid bearing CrHydA1 and grown in the presence of six different substrates for anaerobic respiration was determined. A significant increase in hydrogen evolution was observed for cells grown in the presence of trimethylamine oxide, dimethylsulfoxide and disodium thiosulfate, showing that the system of S. oneidensis is efficient for heterologous expression of algal [Fe-Fe] hydrogenase. Conclusion In the present work a new efficient system for heterologous expression and maturation of C. reinhardtii hydrogenase has been developed. HydA1 of C. reinhardtii was purified and shown to contain 6 Fe atoms/molecule of protein, as expected. Using DMSO, TMAO or thiosulfate as substrates for anaerobic respiration during the cell growth, 0.4 – 0.5 mg l-1(OD600 = 1) of catalytically active HydA1 was obtained with hydrogen evolution rate of ~700 μmol H2 mg-1 min-1.

Published
2008
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6. Functional Study of the Hap4-Like Genes Suggests That the Key Regulators of Carbon Metabolism HAP4 and Oxidative Stress Response YAP1 in Yeast Diverged from a Common Ancestor

Author

Petryk, Nataliya, primary, Zhou, You-Fang, additional, Sybirna, Kateryna, additional, Mucchielli, Marie-Hélène, additional, Guiard, Bernard, additional, Bao, Wei-Guo, additional, Stasyk, Oleh V., additional, Stasyk, Olena G., additional, Krasovska, Olena S., additional, Budin, Karine, additional, Reymond, Nancie, additional, Imbeaud, Sandrine, additional, Coudouel, Sophie, additional, Delacroix, Hervé, additional, Sibirny, Andriy, additional, and Bolotin-Fukuhara, Monique, additional

Published
2014
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7. The oxidative inactivation of FeFe hydrogenase reveals the flexibility of the H-cluster

Author

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

Published
2014
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9. Shewanella oneidensis : a new and efficient system for expression and maturation of heterologous [Fe-Fe] hydrogenase from Chlamydomonas reinhardtii.

Author

Sybirna, Kateryna, Antoine, Tatiana, Lindberg, Pia, Fourmond, Vincent, Rousset, Marc, Méjean, Vincent, Bottin, Hervé, Sybirna, Kateryna, Antoine, Tatiana, Lindberg, Pia, Fourmond, Vincent, Rousset, Marc, Méjean, Vincent, and Bottin, Hervé

Abstract

BACKGROUND: The eukaryotic green alga, Chlamydomonas reinhardtii, produces H2 under anaerobic conditions, in a reaction catalysed by a [Fe-Fe] hydrogenase HydA1. For further biochemical and biophysical studies a suitable expression system of this enzyme should be found to overcome its weak expression in the host organism. Two heterologous expression systems used up to now have several advantages. However they are not free from some drawbacks. In this work we use bacterium Shewanella oneidensis as a new and efficient system for expression and maturation of HydA1 from Chlamydomonas reinhardtii. RESULTS: Based on codon usage bias and hydrogenase maturation ability, the bacterium S. oneidensis, which possesses putative [Fe-Fe] and [Ni-Fe] hydrogenase operons, was selected as the best potential host for C. reinhardtii [Fe-Fe] hydrogenase expression. Hydrogen formation by S. oneidensis strain AS52 (Delta hydA Delta hyaB) transformed with a plasmid bearing CrHydA1 and grown in the presence of six different substrates for anaerobic respiration was determined. A significant increase in hydrogen evolution was observed for cells grown in the presence of trimethylamine oxide, dimethylsulfoxide and disodium thiosulfate, showing that the system of S. oneidensis is efficient for heterologous expression of algal [Fe-Fe] hydrogenase. CONCLUSION: In the present work a new efficient system for heterologous expression and maturation of C. reinhardtii hydrogenase has been developed. HydA1 of C. reinhardtii was purified and shown to contain 6 Fe atoms/molecule of protein, as expected. Using DMSO, TMAO or thiosulfate as substrates for anaerobic respiration during the cell growth, 0.4 - 0.5 mg l(-1)(OD600 = 1) of catalytically active HydA1 was obtained with hydrogen evolution rate of approximately 700 micromol H2 mg(-1) min(-1).

Published
2008
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16. CO Disrupts the Reduced H-Cluster of FeFe Hydrogenase. A Combined DFT and Protein Film Voltammetry Study

Author

Baffert, Carole, primary, Bertini, Luca, additional, Lautier, Thomas, additional, Greco, Claudio, additional, Sybirna, Kateryna, additional, Ezanno, Pierre, additional, Etienne, Emilien, additional, Soucaille, Philippe, additional, Bertrand, Patrick, additional, Bottin, Hervé, additional, Meynial-Salles, Isabelle, additional, De Gioia, Luca, additional, and Léger, Christophe, additional

Published
2011
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19. Arginine171 of Chlamydomonas reinhardtii [Fe–Fe] hydrogenase HydA1 plays a crucial role in electron transfer to its catalytic center

Author

Sybirna, Kateryna, Ezanno, Pierre, Baffert, Carole, Léger, Christophe, and Bottin, Hervé

Subjects
*ARGININE, *CHLAMYDOMONAS reinhardtii, *HYDROGENASE, *OXIDATION-reduction reaction, *CATALYSIS, *HYDROGEN production, *FERREDOXINS
Abstract

Abstract: [Fe–Fe] hydrogenases, with hydrogen evolution activities outperforming [Ni–Fe] hydrogenases by 3–4 orders of magnitude, are still the most promising enzyme class for hydrogen production purposes. For Chlamydomonas reinhardtii [Fe–Fe] hydrogenase HydA1 the question of catalytic activity and electron transport is of main importance. Here we report the characterization of two mutant forms of C. reinhardtii HydA1. An aspartic acid in place of arginine171 leads to a six-fold increase of the catalytic activity in comparison to the wild type protein during methyl viologen-dependent hydrogen production. Tryptophan in position 171 does not result in any change in methyl viologen-induced activity. At the same time these mutations lead to a strong decrease in ferredoxin-dependent hydrogen production while the catalytic center of mutant forms stays intact. The localization of this amino acid (arginine171) in the environment of CrHydA1 H-cluster indicates that the limitation of the catalytic activity of this hydrogenase is due to the electron transfer step to the catalytic center where the reduction of protons takes place. [Copyright &y& Elsevier]

Published
2013
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20. The mechanism of inhibition by H2 of H2-evolution by hydrogenases.

Author

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

Subjects
RESPONSE inhibition, HYDROGENASE, ENZYMES, CHEMISTRY, CHEMICAL amplification
Abstract

By analysing the results of experiments carried out with two FeFe hydrogenases and several “channel mutants” of a NiFe hydrogenase, we demonstrate that whether or not hydrogen evolution is significantly inhibited by H2 is not a consequence of active site chemistry, but rather relates to H2 transport within the enzyme. [ABSTRACT FROM AUTHOR]

Published
2013
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21. Purification and Characterization of the [NiFe]-Hydrogenase of Shewanella oneidensis MR-1.

Author

Liang Shi, Belchik, Sara M., Plymale, Andrew E., Heald, Steve, Dohnalkova, Alice C., Sybirna, Kateryna, Bottin, Hervé, Squier, Thomas C., Zachara, John M., and redrickson, James K.

Subjects
*SHEWANELLA, *HYDROGENASE, *OXIDATION, *TECHNETIUM, *GENETIC code, *GENE expression
Abstract

Shewanella oneidensis MR-1 possesses a periplasmic [NiFe]-hydrogenase (MR-1 [NiFe]-H2ase) that has been implicated in H2 production and oxidation as well as technetium [Tc(VII)] reduction. To characterize the roles of MR-1 [NiFe]-H2ase in these proposed reactions, the genes encoding both subunits of MR-1 [NiFe]-H2ase were cloned and then expressed in an MR-1 mutant without hyaB and hydA genes. Expression of recombinant MR-1 [NiFe]-H2ase in trans restored the mutant's ability to produce H2 at 37% of that for the wild type. Following purification, MR-1 [NiFe]-H2ase coupled H2 oxidation to reduction of Tc(VII)O4- and methyl viologen. Change of the buffers used affected MR-1 [NiFe]-H2ase-mediated reduction of Tc(VII)O4- but not methyl viologen. Under the conditions tested, all Tc(VII)O4- used was reduced in Tris buffer, while in HEPES buffer, only 20% of Tc(VII)O4- was reduced. The reduced products were soluble in Tris buffer but insoluble in HEPES buffer. Transmission electron microscopy analysis revealed that Tc precipitates reduced in HEPES buffer were aggregates of crystallites with diameters of 5 nm. Measurements with X-ray absorption near-edge spectroscopy revealed that the reduction products were a mixture of Tc(IV) and Tc(V) in Tris buffer but only Tc(IV) in HEPES buffer. Measurements with extended X-ray adsorption fine structure showed that while the Tc bonding environment in Tris buffer could not be determined, the Tc(IV) product in HEPES buffer was very similar to Tc(IV)O2·nH2O, which was also the product of Tc(VII)O4- reduction by MR-1 cells. These results shows for the first time that MR-1 [NiFe]-H2ase catalyzes Tc(VII)O4- reduction directly by coupling to H2 oxidation. [ABSTRACT FROM AUTHOR]

Published
2011
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