Add to ORKGAbstract: Hydrogenases are microbial enzymes which catalyze uptake and production of H2. Hydrogenases are classified into 10 classes based on the electron carrier specificity, or into 3 families, [NiFe]-family (including [NiFeSe]-subfamily), [FeFe]-family and [Fe]-family, based on the metal composition of the active site. H2 is heterolytically cleaved on the enzyme (E) to produce EHaHb, where Ha and Hb have different rate constants for exchange with the medium hydron. X-ray crystallography unveiled the three-dimensional structures of hydrogenases. The simplest [NiFe]-hydrogenase is a heterodimer, in which the large subunit bears the Ni-Fe center buried deep in the protein, and the small subunit bears iron-sulfur clusters, which mediate elec...
The potential use of microorganisms for biological production of hydrogen as a future energy resourc...
Abstract: In order to use cyanobacteria for the biological production of hydrogen, it is important t...
The origin of the tolerance of a subclass of [NiFe]-hydrogenases to the presence of oxygen was uncle...
Abstract: Hydrogenases are microbial enzymes which catalyze uptake and production of H2. Hydrogenase...
Hydrogenases are microbial enzymes catalyzing reversible oxidation of molecular hydrogen. These enzy...
Abstract The activation of molecular hydrogen is of interest both from a chemical and biological vie...
Hydrogenases (H2ases) catalyze the reversible oxidation of molecular hydrogen and play a central rol...
Hydrogenase enzymes efficiently process H-2 and protons at organometallic FeFe, NiFe, or Fe active s...
The three known types of hydrogenases catalyze reversible activation of H2 and heterolyticcleavage t...
AbstractThe [FeFe]- and [NiFe]-hydrogenases catalyze the formal interconversion between hydrogen and...
Hydrogenases are metalloenzymes that are key to energy metabolism in a variety of microbial communit...
Chemically synthesized compounds that are capable of facilitating the reversible splitting of dihydr...
Hydrogenases catalyse redox reactions with molecular hydrogen, either as substrate or product. The e...
This work was supported by Instituto Nacional de Investiga ao Cientifica (INIC), Junta Nacional de I...
Hydrogenases catalyse the interconversion of molecular hydrogen with protons and electrons. Thus, th...
The potential use of microorganisms for biological production of hydrogen as a future energy resourc...
Abstract: In order to use cyanobacteria for the biological production of hydrogen, it is important t...
The origin of the tolerance of a subclass of [NiFe]-hydrogenases to the presence of oxygen was uncle...
Abstract: Hydrogenases are microbial enzymes which catalyze uptake and production of H2. Hydrogenase...
Hydrogenases are microbial enzymes catalyzing reversible oxidation of molecular hydrogen. These enzy...
Abstract The activation of molecular hydrogen is of interest both from a chemical and biological vie...
Hydrogenases (H2ases) catalyze the reversible oxidation of molecular hydrogen and play a central rol...
Hydrogenase enzymes efficiently process H-2 and protons at organometallic FeFe, NiFe, or Fe active s...
The three known types of hydrogenases catalyze reversible activation of H2 and heterolyticcleavage t...
AbstractThe [FeFe]- and [NiFe]-hydrogenases catalyze the formal interconversion between hydrogen and...
Hydrogenases are metalloenzymes that are key to energy metabolism in a variety of microbial communit...
Chemically synthesized compounds that are capable of facilitating the reversible splitting of dihydr...
Hydrogenases catalyse redox reactions with molecular hydrogen, either as substrate or product. The e...
This work was supported by Instituto Nacional de Investiga ao Cientifica (INIC), Junta Nacional de I...
Hydrogenases catalyse the interconversion of molecular hydrogen with protons and electrons. Thus, th...
The potential use of microorganisms for biological production of hydrogen as a future energy resourc...
Abstract: In order to use cyanobacteria for the biological production of hydrogen, it is important t...
The origin of the tolerance of a subclass of [NiFe]-hydrogenases to the presence of oxygen was uncle...