- iron-iron
hydrogenase, and iron
hydrogenase.
Hydrogenases catalyze,
sometimes reversibly, H2 uptake. The [FeFe] and [NiFe]
hydrogenases are true redox...
-
redox active state of [NiFe]
hydrogenases. The
three most
important catalytic redox active states of [NiFe]
hydrogenases are Ni-SIa, Ni-C and Ni-R (which...
-
different hydrogenases that have [Ni-Fe]
active sites and all
perform this reaction: H2 ⇌ {\displaystyle \rightleftharpoons } 2H+ + 2e− The
hydrogenases of C...
- site
metal content: [FeFe]-
hydrogenases (iron-iron), [NiFe]-
hydrogenases (nickel-iron)
hydrogenases, and [Fe]-
hydrogenases (iron-only). Many organisms...
- with the
formula NH(CH2S)22−. It is used as a
cofactor in the [FeFe]
hydrogenases,
bacterial enzymes responsible for the
reversible reduction of 2 H+ to...
- gas by
specialized hydrogenases in the chloroplast.
Efforts have been
undertaken to
genetically modify cyanobacterial hydrogenases to more efficiently...
-
ferredoxin hydrogenase (EC 1.12.7.2), also
referred to as [Fe-Fe]
hydrogenase, H2
oxidizing hydrogenase, H2
producing hydrogenase,
bidirectional hydrogenase, hydrogenase...
-
characterized by the
Thauer group at the Max
Planck Institute in Marburg.
Hydrogenases are
enzymes that
either reduce protons or
oxidize molecular dihydrogen...
- A
hydrogenase mimic or bio-mimetic is an
enzyme mimic of
hydrogenases. One of the more
interesting applications of
hydrogenases is to
produce hydrogen...
- production.
Hydrogenases are
metalloenzymes that
catalyze the
reversible hydrogen conversion reaction: H2 ⇄ 2 H++ 2 e−. A
Group C [FeFe]-
hydrogenase from Thermotoga...
