Add to ORKG[[abstract]]The impressive synthetic chem. that has developed following the elucidation of the organodiiron units within the [FeFe]-H2ase enzyme active site has largely depended on the availability of an easily accessed precursor, (μ2-S2)[Fe(CO)3]2. In reduced bis sulfide form, (μ2-S)2[Fe(CO)3]2 2-, alkylation and condensation at sulfur gives a well known range of products, advancing in the last decade to the more faithful analogs of the [FeFe]-H2ase eas, (μ2-SCH2[[conferencetype]]國際[[conferencedate]]20120819~20120823[[booktype]]紙本[[iscallforpapers]]Y[[conferencelocation]]Philadelphia, PA, United State
The biosynthesis of the active site of the [FeFe]-hydrogenases (HydA1), the H-cluster, is of interes...
Hydrogenases are an important group of enzymes found in a range of microorganisms. There are three p...
International audience[FeFe]-hydrogenases are powerful hydrogen evolution biocatalysts because of th...
International audienceDuring the last decade, the structure of the subsite of [FeFe]H2ases (or Fe-on...
The enzyme [FeFe]-hydrogenase (HydA1) contains a unique 6-iron cofactor, the H-cluster, that has unu...
Hydrogenases are a potential source of environmentally benign bioenergy, using complex cofactors to ...
[FeFe] hydrogenases catalyze H(2) production using the H-cluster, an iron-sulfur cofactor that conta...
[FeFe] hydrogenases catalyze H2 production using the H-cluster, an iron-sulfur cofactor that contain...
The work contained in this thesis focuses on the synthesis, electrochemistry and reactivity of {2Fe2...
Hydrogenase enzymes catalyze the rapid and reversible interconversion of H2 with protons and electro...
The H-cluster of [Fe-Fe] hydrogenase consists of a [4Fe]H subcluster linked by the sulfur of a cyste...
. These proteins are distinguished by an active site cofactor known as the H-cluster. This unique [6...
[FeFe] hydrogenases carry out the redox interconversion of protons and molecular hydrogen (2H+ + 2e-...
[[abstract]]The unique diiron catalytic unit that exists in the active site of the [FeFe]-H2ase has ...
The [FeFe] hydrogenases are ancient metalloenzymes that catalyse the reversible interconversion betw...
The biosynthesis of the active site of the [FeFe]-hydrogenases (HydA1), the H-cluster, is of interes...
Hydrogenases are an important group of enzymes found in a range of microorganisms. There are three p...
International audience[FeFe]-hydrogenases are powerful hydrogen evolution biocatalysts because of th...
International audienceDuring the last decade, the structure of the subsite of [FeFe]H2ases (or Fe-on...
The enzyme [FeFe]-hydrogenase (HydA1) contains a unique 6-iron cofactor, the H-cluster, that has unu...
Hydrogenases are a potential source of environmentally benign bioenergy, using complex cofactors to ...
[FeFe] hydrogenases catalyze H(2) production using the H-cluster, an iron-sulfur cofactor that conta...
[FeFe] hydrogenases catalyze H2 production using the H-cluster, an iron-sulfur cofactor that contain...
The work contained in this thesis focuses on the synthesis, electrochemistry and reactivity of {2Fe2...
Hydrogenase enzymes catalyze the rapid and reversible interconversion of H2 with protons and electro...
The H-cluster of [Fe-Fe] hydrogenase consists of a [4Fe]H subcluster linked by the sulfur of a cyste...
. These proteins are distinguished by an active site cofactor known as the H-cluster. This unique [6...
[FeFe] hydrogenases carry out the redox interconversion of protons and molecular hydrogen (2H+ + 2e-...
[[abstract]]The unique diiron catalytic unit that exists in the active site of the [FeFe]-H2ase has ...
The [FeFe] hydrogenases are ancient metalloenzymes that catalyse the reversible interconversion betw...
The biosynthesis of the active site of the [FeFe]-hydrogenases (HydA1), the H-cluster, is of interes...
Hydrogenases are an important group of enzymes found in a range of microorganisms. There are three p...
International audience[FeFe]-hydrogenases are powerful hydrogen evolution biocatalysts because of th...