EC Number |
Title |
Organism |
---|
1.12.99.6 | Aerobic photocatalytic H2 production by a [NiFe] hydrogenase engineered to place a silver nanocluster in the electron relay |
Escherichia coli |
1.12.99.6 | Aerobic photocatalytic H2 production by a [NiFe] hydrogenase engineered to place a silver nanocluster in the electron relay |
Escherichia coli K12 |
1.12.99.6 | DFT dissection of the reduction step in H2 catalytic production by [FeFe]-hydrogenase-inspired models can the bridging hydride become more reactive than the terminal isomer? |
Clostridium pasteurianum |
1.12.99.6 | Engineering an efficient H2 utilizing Escherichia coli platform by modulation of endogenous hydrogenases |
Escherichia coli |
1.12.99.6 | Engineering an efficient H2 utilizing Escherichia coli platform by modulation of endogenous hydrogenases |
Escherichia coli ATCC 8739 |
1.12.99.6 | H2 kinetic isotope fractionation superimposed by equilibrium isotope fractionation during hydrogenase activity of D. vulgaris strain Miyazaki |
Desulfovibrio vulgaris |
1.12.99.6 | H2 kinetic isotope fractionation superimposed by equilibrium isotope fractionation during hydrogenase activity of D. vulgaris strain Miyazaki |
Desulfovibrio vulgaris DSM 19637 |
1.12.99.6 | H2 kinetic isotope fractionation superimposed by equilibrium isotope fractionation during hydrogenase activity of D. vulgaris strain Miyazaki |
Desulfovibrio vulgaris Miyazaki F |
1.12.99.6 | High yield purification of a tagged cytoplasmic [NiFe]-hydrogenase and a catalytically-active nickel-free intermediate form |
Pyrococcus furiosus |
1.12.99.6 | High yield purification of a tagged cytoplasmic [NiFe]-hydrogenase and a catalytically-active nickel-free intermediate form |
Pyrococcus furiosus MW0430 |