Spectroscopic investigations under whole-cell conditions provide new insight into the metal hydride chemistry of [FeFe]-hydrogenase

Spectroscopic and biochemical insight into an electron-bifurcating [FeFe] hydrogenase

Chongdar, Nipa
Pawlak, Krzysztof
Ruediger, Olaf
Reijerse, Edward J.
Rodriguez-Macia, Patricia
Lubitz, Wolfgang
Birrell, James A.
Ogata, Hideaki

February 2020

The heterotrimeric electron-bifurcating [FeFe] hydrogenase (HydABC) from Thermotoga maritima (Tm) co...

The geometry of the catalytic active site in [FeFe]-hydrogenases is determined by hydrogen bonding and proton transfer

Duan, Jifu
Mebs, Stefan
Senger, Moritz
Laun, Konstantin
Wittkamp, Florian
Heberle, Joachim
Happe, Thomas
Hofmann, Eckhard
Apfel, Ulf-Peter
Winkler, Martin
Haumann, Michael
Stripp, Sven Timo

January 2019

[FeFe]-hydrogenases are efficient metalloenzymes that catalyze the oxidation and evolution of molecu...

Development of an in vitro compartmentalization screen for high-throughput directed evolution of [FeFe] hydrogenases.

James A Stapleton
James R Swartz

BACKGROUND: [FeFe] hydrogenase enzymes catalyze the formation and dissociation of molecular hydrogen...

Spectroscopic investigations under whole-cell conditions provide new insight into the metal hydride chemistry of [FeFe]-hydrogenase

Meszaros, Livia S.
Ceccaldi, Pierre
Lorenzi, Marco
Redman, Holly J.
Pfitzner, Emanuel
Heberle, Joachim
Senger, Moritz
Stripp, Sven T.
Berggren, Gustav

January 2020

Hydrogenases are among the fastest H-2 evolving catalysts known to date and have been extensively st...

Discovery of novel [FeFe]-hydrogenases for biocatalytic H-2-production

Land, Henrik
Ceccaldi, Pierre
Meszaros, Livia S.
Lorenzi, Marco
Redman, Holly J.
Senger, Moritz
Stripp, Sven T.
Berggren, Gustav

January 2019

A new screening method for [FeFe]-hydrogenases is described, circumventing the need for specialized ...

[FeFe]-hydrogenase maturation : H-cluster assembly intermediates tracked by electron paramagnetic resonance, infrared, and X-ray absorption spectroscopy

Németh, Brigitta
Senger, Moritz
Redman, Holly J.
Ceccaldi, Pierre
Broderick, Joan
Magnuson, Ann
Stripp, Sven T.
Haumann, Michael
Berggren, Gustav

January 2020

[FeFe]-hydrogenase enzymes employ a unique organometallic cofactor for efficient and reversible hydr...

New Roads for an Ancient Enzyme : Whole-Cell Studies and New Cofactors for [FeFe] Hydrogenases

Lorenzi, Marco

January 2022

[FeFe] hydrogenases rare Nature’s best H2-processing catalysts, and one of the best candidates to sa...

Generation of a functional, semisynthetic [FeFe]-hydrogenase in a photosynthetic microorganism

Wegelius, Adam
Khanna, Namita
Esmieu, Charlene
Barone, Giovanni Davide
Pinto, Filipe
Tamagnini, Paula
Berggren, Gustav
Lindblad, Peter

January 2018

[FeFe]-Hydrogenases are hydrogen producing metalloenzymes with excellent catalytic capacities, highl...

Artificially maturated [FeFe] hydrogenase from Chlamydomonas reinhardtii: a HYSCORE and ENDOR study of a non-natural H-cluster

Adamska-Venkatesh, Agnieszka
Simmons, Trevor R.
Siebel, Judith F.
Artero, Vincent
Fontecave, Marc
Reijerse, Edward
Lubitz, Wolfgang

February 2015

International audienceHydrogenases are enzymes that catalyze the oxidation of H2 as well as the redu...

The birth of the hydrogenase : Studying the mechanism of [FeFe] hydrogenase maturation

Németh, Brigitta

January 2019

The [FeFe] hydrogenases are ancient metalloenzymes that catalyse the reversible interconversion betw...

Spectroelectrochemical Characterization of the Active Site of the [FeFe] Hydrogenase HydA1 from Chlamydomonas reinhardtii†

Alexey Silakov
Christina Kamp
Eduard Reijerse
Wolfgang Lubitz

January 2009

ABSTRACT: Hydrogenases catalyze the reversible oxidation of molecular hydrogen. The active site of t...

Direct Detection of the Terminal Hydride Intermediate in [FeFe] Hydrogenase by NMR Spectroscopy

Rumpel, S.
Sommer, C.
Reijerse, E.
Farès, C.
Lubitz, W.

March 2018

Hydride state intermediates are known to occur in various hydrogen conversion enzymes, including the...

Compartmentalisation of [FeFe]-hydrogenase maturation in Chlamydomonas reinhardtii

Sawyer, Anne
Bai, Yu
Lu, Yinghua
Hemschemeier, Anja
Happe, Thomas

June 2017

Molecular hydrogen (H-2) can be produced in green microalgae by [FeFe]-hydrogenases as a direct prod...

Isolation and first EPR characterization of the [FeFe]-hydrogenases from green algae

Kamp, Christina
Silakov, Alexey
Winkler, Martin
Reijerse, Edward J.
Lubitz, Wolfgang
Happe, Thomas

May 2008

AbstractHydrogenase expression in Chlamydomonas reinhardtii can be artificially induced by anaerobic...

Discovery of Novel [FeFe]-Hydrogenases for Biocatalytic H2-production

Land, Henrik
Ceccaldi, Pierre
Mészáros, Lívia S.
Lorenzi, Marco
Redman, Holly J.
Senger, Moritz
Stripp, Sven T.
Berggren, Gustav

January 2019

A new screening method for [FeFe]-hydrogenases is described, circumventing the need for specialized ...

Spectroscopic and biochemical insight into an electron-bifurcating [FeFe] hydrogenase

Chongdar, Nipa
Pawlak, Krzysztof
Ruediger, Olaf
Reijerse, Edward J.
Rodriguez-Macia, Patricia
Lubitz, Wolfgang
Birrell, James A.
Ogata, Hideaki

February 2020

The heterotrimeric electron-bifurcating [FeFe] hydrogenase (HydABC) from Thermotoga maritima (Tm) co...

The geometry of the catalytic active site in [FeFe]-hydrogenases is determined by hydrogen bonding and proton transfer

Duan, Jifu
Mebs, Stefan
Senger, Moritz
Laun, Konstantin
Wittkamp, Florian
Heberle, Joachim
Happe, Thomas
Hofmann, Eckhard
Apfel, Ulf-Peter
Winkler, Martin
Haumann, Michael
Stripp, Sven Timo

January 2019

[FeFe]-hydrogenases are efficient metalloenzymes that catalyze the oxidation and evolution of molecu...

Development of an in vitro compartmentalization screen for high-throughput directed evolution of [FeFe] hydrogenases.

James A Stapleton
James R Swartz

BACKGROUND: [FeFe] hydrogenase enzymes catalyze the formation and dissociation of molecular hydrogen...

Spectroscopic investigations under whole-cell conditions provide new insight into the metal hydride chemistry of [FeFe]-hydrogenase

Meszaros, Livia S.
Ceccaldi, Pierre
Lorenzi, Marco
Redman, Holly J.
Pfitzner, Emanuel
Heberle, Joachim
Senger, Moritz
Stripp, Sven T.
Berggren, Gustav

January 2020

Hydrogenases are among the fastest H-2 evolving catalysts known to date and have been extensively st...

Discovery of novel [FeFe]-hydrogenases for biocatalytic H-2-production

Land, Henrik
Ceccaldi, Pierre
Meszaros, Livia S.
Lorenzi, Marco
Redman, Holly J.
Senger, Moritz
Stripp, Sven T.
Berggren, Gustav

January 2019

A new screening method for [FeFe]-hydrogenases is described, circumventing the need for specialized ...

[FeFe]-hydrogenase maturation : H-cluster assembly intermediates tracked by electron paramagnetic resonance, infrared, and X-ray absorption spectroscopy

Németh, Brigitta
Senger, Moritz
Redman, Holly J.
Ceccaldi, Pierre
Broderick, Joan
Magnuson, Ann
Stripp, Sven T.
Haumann, Michael
Berggren, Gustav

January 2020

[FeFe]-hydrogenase enzymes employ a unique organometallic cofactor for efficient and reversible hydr...

New Roads for an Ancient Enzyme : Whole-Cell Studies and New Cofactors for [FeFe] Hydrogenases

Lorenzi, Marco

January 2022

[FeFe] hydrogenases rare Nature’s best H2-processing catalysts, and one of the best candidates to sa...

Generation of a functional, semisynthetic [FeFe]-hydrogenase in a photosynthetic microorganism

Wegelius, Adam
Khanna, Namita
Esmieu, Charlene
Barone, Giovanni Davide
Pinto, Filipe
Tamagnini, Paula
Berggren, Gustav
Lindblad, Peter

January 2018

[FeFe]-Hydrogenases are hydrogen producing metalloenzymes with excellent catalytic capacities, highl...

Artificially maturated [FeFe] hydrogenase from Chlamydomonas reinhardtii: a HYSCORE and ENDOR study of a non-natural H-cluster

Adamska-Venkatesh, Agnieszka
Simmons, Trevor R.
Siebel, Judith F.
Artero, Vincent
Fontecave, Marc
Reijerse, Edward
Lubitz, Wolfgang

February 2015

International audienceHydrogenases are enzymes that catalyze the oxidation of H2 as well as the redu...

The birth of the hydrogenase : Studying the mechanism of [FeFe] hydrogenase maturation

Németh, Brigitta

January 2019

The [FeFe] hydrogenases are ancient metalloenzymes that catalyse the reversible interconversion betw...

Spectroelectrochemical Characterization of the Active Site of the [FeFe] Hydrogenase HydA1 from Chlamydomonas reinhardtii†

Alexey Silakov
Christina Kamp
Eduard Reijerse
Wolfgang Lubitz

January 2009

ABSTRACT: Hydrogenases catalyze the reversible oxidation of molecular hydrogen. The active site of t...

Direct Detection of the Terminal Hydride Intermediate in [FeFe] Hydrogenase by NMR Spectroscopy

Rumpel, S.
Sommer, C.
Reijerse, E.
Farès, C.
Lubitz, W.

March 2018

Hydride state intermediates are known to occur in various hydrogen conversion enzymes, including the...

Compartmentalisation of [FeFe]-hydrogenase maturation in Chlamydomonas reinhardtii

Sawyer, Anne
Bai, Yu
Lu, Yinghua
Hemschemeier, Anja
Happe, Thomas

June 2017

Molecular hydrogen (H-2) can be produced in green microalgae by [FeFe]-hydrogenases as a direct prod...

Isolation and first EPR characterization of the [FeFe]-hydrogenases from green algae

Kamp, Christina
Silakov, Alexey
Winkler, Martin
Reijerse, Edward J.
Lubitz, Wolfgang
Happe, Thomas

May 2008

AbstractHydrogenase expression in Chlamydomonas reinhardtii can be artificially induced by anaerobic...

Discovery of Novel [FeFe]-Hydrogenases for Biocatalytic H2-production

Land, Henrik
Ceccaldi, Pierre
Mészáros, Lívia S.
Lorenzi, Marco
Redman, Holly J.
Senger, Moritz
Stripp, Sven T.
Berggren, Gustav

January 2019

A new screening method for [FeFe]-hydrogenases is described, circumventing the need for specialized ...

Spectroscopic and biochemical insight into an electron-bifurcating [FeFe] hydrogenase

Chongdar, Nipa
Pawlak, Krzysztof
Ruediger, Olaf
Reijerse, Edward J.
Rodriguez-Macia, Patricia
Lubitz, Wolfgang
Birrell, James A.
Ogata, Hideaki

February 2020

The heterotrimeric electron-bifurcating [FeFe] hydrogenase (HydABC) from Thermotoga maritima (Tm) co...

The geometry of the catalytic active site in [FeFe]-hydrogenases is determined by hydrogen bonding and proton transfer

Duan, Jifu
Mebs, Stefan
Senger, Moritz
Laun, Konstantin
Wittkamp, Florian
Heberle, Joachim
Happe, Thomas
Hofmann, Eckhard
Apfel, Ulf-Peter
Winkler, Martin
Haumann, Michael
Stripp, Sven Timo

January 2019

[FeFe]-hydrogenases are efficient metalloenzymes that catalyze the oxidation and evolution of molecu...

Development of an in vitro compartmentalization screen for high-throughput directed evolution of [FeFe] hydrogenases.

James A Stapleton
James R Swartz

BACKGROUND: [FeFe] hydrogenase enzymes catalyze the formation and dissociation of molecular hydrogen...

Spectroscopic investigations under whole-cell conditions provide new insight into the metal hydride chemistry of [FeFe]-hydrogenase

Abstract

Extracted data

Spectroscopic investigations under whole-cell conditions provide new insight into the metal hydride chemistry of [FeFe]-hydrogenase

Abstract

Extracted data

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