The biosynthetic routes for carbon monoxide and cyanide in the Ni–Fe active site of hydrogenases are different

The complex between hydrogenase-maturation proteins HypC and HypD is an intermediate in the supply of cyanide to the active site iron of [NiFe]-hydrogenases.

Blokesch, M.
Albracht, S.P.J.
Matzanke, B.F.
Drapal, N.M.
Jacobi, A.
Bock, A.

January 2004

Carbamoylphosphate has been shown to be the educt for the synthesis of the CN ligands of the NiFe me...

The Crystal Structure of [Fe]-Hydrogenase Reveals the Geometry of the Active Site

Shima, S.
Pilak, O.
Vogt, S.
Schick, , M.
Stagni, M.
Meyer-Klauke, W.
Warkentin, E.
Thauer, R.
Ermler, U.

July 2008

Biological formation and consumption of molecular hydrogen (H2) are catalyzed by hydrogenases, of wh...

Reactions of H2, CO, and O2 with active [NiFe]-hydrogenase from Allochromatium vinosum. A stopped-flow infrared study.

George, S.J.
Kurkin, S.
Thorneley, R.N.
Albracht, S.P.J.

January 2004

The Ni-Fe site in the active membrane-bound [NiFe]-hydrogenase from Allochromatium Vinosum can exist...

The biosynthetic routes for carbon monoxide and cyanide in the Ni-Fe active site of hydrogenases are different

Roseboom, Winfried
Blokesch, Melanie
Böck, August
Albracht, Simon P. J.

May 2009

The incorporation of carbon into the carbon monoxide and cyanide ligands of [NiFe]-hydrogenases has ...

The biosynthetic routes for carbon monoxide and cyanide in the Ni–Fe active site of hydrogenases are different

Roseboom, Winfried
Blokesch, Melanie
Böck, August
Albracht, Simon P.J.

January 2005

AbstractThe incorporation of carbon into the carbon monoxide and cyanide ligands of [NiFe]-hydrogena...

Carbamoylphosphate serves as the source of CN−, but not of the intrinsic CO in the active site of the regulatory [NiFe]-hydrogenase from Ralstonia eutropha

Lenz, Oliver
Zebger, Ingo
Hamann, Josta
Hildebrandt, Peter
Friedrich, Bärbel

July 2007

AbstractWithin the catalytic centre of [NiFe]-hydrogenases one carbonyl and two cyanide ligands are ...

The soluble [NiFe]-hydrogenase from Ralstonia eutropha contains four cyanides in its activer site, one of which is responsible for the insensitivity towards oxygen.

van der Linden, H.P.
Burgdorf, T.
Bernhard, M.
Bleijlevens, B.
Friedrich, B.
Albracht, S.P.J.

January 2004

Infrared spectra of 15N-enriched preparations of the soluble cytoplasmic NAD+-reducing [NiFe]-hydrog...

The CO and CN− ligands to the active site Fe in [NiFe]-hydrogenase of Escherichia coli have different metabolic origins

Forzi, Lucia
Hellwig, Petra
Thauer, Rudolf K.
Sawers, R. Gary

July 2007

AbstractThe Fe atom in the bimetallic active site of [NiFe]-hydrogenases has one CO and two cyanide ...

The influence of oxygen on [NiFe]-hydrogenase cofactor biosynthesis and how ligation of carbon monoxide precedes cyanation

Ute Lindenstrauss
Claudia Granich
R. Gary Sawers
Basem Soboh

October 2016

The class of [NiFe]–hydrogenases is characterized by a bimetallic cofactor comprising low–spin nicke...

The influence of oxygen on [NiFe]-hydrogenase cofactor biosynthesis and how ligation of carbon monoxide precedes cyanation.

Sven T Stripp
Ute Lindenstrauss
Claudia Granich
R Gary Sawers
Basem Soboh

The class of [NiFe]-hydrogenases is characterized by a bimetallic cofactor comprising low-spin nicke...

The Influence of Oxygen on [NiFe]–Hydrogenase Cofactor Biosynthesis and How Ligation of Carbon Monoxide Precedes Cyanation

Sven T. Stripp (628560)
Ute Lindenstrauss (1959106)
Claudia Granich (628561)
R. Gary Sawers (172701)
Basem Soboh (628562)

September 2014

<div><p>The class of [NiFe]–hydrogenases is characterized by a bimetallic cofactor comprising low–sp...

Identification of an Isothiocyanate on the HypEF Complex Suggests a Route for Efficient Cyanyl-Group Channeling during [NiFe]-Hydrogenase Cofactor Generation.

Sven T Stripp
Ute Lindenstrauss
R Gary Sawers
Basem Soboh

[NiFe]-hydrogenases catalyze uptake and evolution of H2 in a wide range of microorganisms. The enzym...

[NiFe]-hydrogenase maturation: Isolation of a HypC–HypD complex carrying diatomic CO and CN− ligands

Soboh, Basem
Stripp, Sven T.
Muhr, Enrico
Granich, Claudia
Braussemann, Mario
Herzberg, Martin
Heberle, Joachim
Gary Sawers, R.

November 2012

AbstractThe HypC and HypD maturases are required for the biosynthesis of the Fe(CN)2CO cofactor in t...

[NiFe]-Hydrogenase Maturation

Lacasse, Michael J
Zamble, Deborah B

February 2016

[NiFe]-hydrogenases catalyze the reversible conversion of hydrogen gas into protons and electrons an...

The complex between hydrogenase-maturation proteins HypC and HypD is an intermediate in the supply of cyanide to the active site iron of [NiFe]-hydrogenases

Blokesch, Melanie
Albracht, Simon P. J.
Matzanke, Berthold F.
Drapal, Nikola M.
Jacobi, Alexander
Böck, August

May 2009

Carbamoylphosphate has been shown to be the educt for the synthesis of the CN ligands of the NiFe me...

The complex between hydrogenase-maturation proteins HypC and HypD is an intermediate in the supply of cyanide to the active site iron of [NiFe]-hydrogenases.

Blokesch, M.
Albracht, S.P.J.
Matzanke, B.F.
Drapal, N.M.
Jacobi, A.
Bock, A.

January 2004

Carbamoylphosphate has been shown to be the educt for the synthesis of the CN ligands of the NiFe me...

The Crystal Structure of [Fe]-Hydrogenase Reveals the Geometry of the Active Site

Shima, S.
Pilak, O.
Vogt, S.
Schick, , M.
Stagni, M.
Meyer-Klauke, W.
Warkentin, E.
Thauer, R.
Ermler, U.

July 2008

Biological formation and consumption of molecular hydrogen (H2) are catalyzed by hydrogenases, of wh...

Reactions of H2, CO, and O2 with active [NiFe]-hydrogenase from Allochromatium vinosum. A stopped-flow infrared study.

George, S.J.
Kurkin, S.
Thorneley, R.N.
Albracht, S.P.J.

January 2004

The Ni-Fe site in the active membrane-bound [NiFe]-hydrogenase from Allochromatium Vinosum can exist...

The biosynthetic routes for carbon monoxide and cyanide in the Ni-Fe active site of hydrogenases are different

Roseboom, Winfried
Blokesch, Melanie
Böck, August
Albracht, Simon P. J.

May 2009

The incorporation of carbon into the carbon monoxide and cyanide ligands of [NiFe]-hydrogenases has ...

The biosynthetic routes for carbon monoxide and cyanide in the Ni–Fe active site of hydrogenases are different

Roseboom, Winfried
Blokesch, Melanie
Böck, August
Albracht, Simon P.J.

January 2005

AbstractThe incorporation of carbon into the carbon monoxide and cyanide ligands of [NiFe]-hydrogena...

Carbamoylphosphate serves as the source of CN−, but not of the intrinsic CO in the active site of the regulatory [NiFe]-hydrogenase from Ralstonia eutropha

Lenz, Oliver
Zebger, Ingo
Hamann, Josta
Hildebrandt, Peter
Friedrich, Bärbel

July 2007

AbstractWithin the catalytic centre of [NiFe]-hydrogenases one carbonyl and two cyanide ligands are ...

The soluble [NiFe]-hydrogenase from Ralstonia eutropha contains four cyanides in its activer site, one of which is responsible for the insensitivity towards oxygen.

van der Linden, H.P.
Burgdorf, T.
Bernhard, M.
Bleijlevens, B.
Friedrich, B.
Albracht, S.P.J.

January 2004

Infrared spectra of 15N-enriched preparations of the soluble cytoplasmic NAD+-reducing [NiFe]-hydrog...

The CO and CN− ligands to the active site Fe in [NiFe]-hydrogenase of Escherichia coli have different metabolic origins

Forzi, Lucia
Hellwig, Petra
Thauer, Rudolf K.
Sawers, R. Gary

July 2007

AbstractThe Fe atom in the bimetallic active site of [NiFe]-hydrogenases has one CO and two cyanide ...

The influence of oxygen on [NiFe]-hydrogenase cofactor biosynthesis and how ligation of carbon monoxide precedes cyanation

Ute Lindenstrauss
Claudia Granich
R. Gary Sawers
Basem Soboh

October 2016

The class of [NiFe]–hydrogenases is characterized by a bimetallic cofactor comprising low–spin nicke...

The influence of oxygen on [NiFe]-hydrogenase cofactor biosynthesis and how ligation of carbon monoxide precedes cyanation.

Sven T Stripp
Ute Lindenstrauss
Claudia Granich
R Gary Sawers
Basem Soboh

The class of [NiFe]-hydrogenases is characterized by a bimetallic cofactor comprising low-spin nicke...

The Influence of Oxygen on [NiFe]–Hydrogenase Cofactor Biosynthesis and How Ligation of Carbon Monoxide Precedes Cyanation

Sven T. Stripp (628560)
Ute Lindenstrauss (1959106)
Claudia Granich (628561)
R. Gary Sawers (172701)
Basem Soboh (628562)

September 2014

<div><p>The class of [NiFe]–hydrogenases is characterized by a bimetallic cofactor comprising low–sp...

Identification of an Isothiocyanate on the HypEF Complex Suggests a Route for Efficient Cyanyl-Group Channeling during [NiFe]-Hydrogenase Cofactor Generation.

Sven T Stripp
Ute Lindenstrauss
R Gary Sawers
Basem Soboh

[NiFe]-hydrogenases catalyze uptake and evolution of H2 in a wide range of microorganisms. The enzym...

[NiFe]-hydrogenase maturation: Isolation of a HypC–HypD complex carrying diatomic CO and CN− ligands

Soboh, Basem
Stripp, Sven T.
Muhr, Enrico
Granich, Claudia
Braussemann, Mario
Herzberg, Martin
Heberle, Joachim
Gary Sawers, R.

November 2012

AbstractThe HypC and HypD maturases are required for the biosynthesis of the Fe(CN)2CO cofactor in t...

[NiFe]-Hydrogenase Maturation

Lacasse, Michael J
Zamble, Deborah B

February 2016

[NiFe]-hydrogenases catalyze the reversible conversion of hydrogen gas into protons and electrons an...

The complex between hydrogenase-maturation proteins HypC and HypD is an intermediate in the supply of cyanide to the active site iron of [NiFe]-hydrogenases

Blokesch, Melanie
Albracht, Simon P. J.
Matzanke, Berthold F.
Drapal, Nikola M.
Jacobi, Alexander
Böck, August

May 2009

Carbamoylphosphate has been shown to be the educt for the synthesis of the CN ligands of the NiFe me...

The complex between hydrogenase-maturation proteins HypC and HypD is an intermediate in the supply of cyanide to the active site iron of [NiFe]-hydrogenases.

Blokesch, M.
Albracht, S.P.J.
Matzanke, B.F.
Drapal, N.M.
Jacobi, A.
Bock, A.

January 2004

Carbamoylphosphate has been shown to be the educt for the synthesis of the CN ligands of the NiFe me...

The Crystal Structure of [Fe]-Hydrogenase Reveals the Geometry of the Active Site

Shima, S.
Pilak, O.
Vogt, S.
Schick, , M.
Stagni, M.
Meyer-Klauke, W.
Warkentin, E.
Thauer, R.
Ermler, U.

July 2008

Biological formation and consumption of molecular hydrogen (H2) are catalyzed by hydrogenases, of wh...

Reactions of H2, CO, and O2 with active [NiFe]-hydrogenase from Allochromatium vinosum. A stopped-flow infrared study.

George, S.J.
Kurkin, S.
Thorneley, R.N.
Albracht, S.P.J.

January 2004

The Ni-Fe site in the active membrane-bound [NiFe]-hydrogenase from Allochromatium Vinosum can exist...

The biosynthetic routes for carbon monoxide and cyanide in the Ni–Fe active site of hydrogenases are different

Abstract

Extracted data

The biosynthetic routes for carbon monoxide and cyanide in the Ni–Fe active site of hydrogenases are different

Abstract

Extracted data

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