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hydrogenoxidizing

Hydrogenoxidizing refers to the oxidation of molecular hydrogen (H2) as an energy source or electron donor in chemical and biological processes. In microbiology, hydrogen-oxidizing organisms derive energy by oxidizing H2 and transferring electrons to an electron transport chain, where a terminal electron acceptor completes the reaction. This can occur under aerobic conditions with oxygen as the terminal acceptor, or under anaerobic conditions with alternatives such as nitrate, nitrite, sulfate, ferric iron, or carbon dioxide.

In biological systems, hydrogen oxidation is typically catalyzed by hydrogenase enzymes, which cleave the H–H bond

Hydrogen-oxidizing organisms are found in a wide range of environments, including soils, freshwater and marine systems,

Applications of hydrogen oxidation research include insights into bioenergy, microbial electrochemical systems, and biotechnological approaches to

and
transfer
electrons
to
carriers
such
as
ferredoxin
or
NAD(P)+.
The
main
classes
of
hydrogenases
are
[NiFe]-hydrogenases
and
[FeFe]-hydrogenases,
and
their
cellular
localization
can
be
cytoplasmic
or
periplasmic.
The
energy
generated
by
H2
oxidation
can
support
chemolithotrophic
growth
and,
in
many
autotrophs,
CO2
fixation
to
biomass
via
pathways
such
as
the
Calvin
cycle
or
other
carbon
fixation
routes.
hydrothermal
vents,
and
subsurface
habitats.
They
play
a
role
in
global
hydrogen
cycles
by
serving
as
sinks
for
atmospheric
and
environmental
hydrogen
and
by
linking
hydrogen
oxidation
to
the
reduction
of
various
electron
acceptors,
thereby
influencing
nutrient
cycling
and
energy
flow
in
ecosystems.
Some
hydrogen-oxidizing
archaea
and
bacteria
also
participate
in
hydrogenotrophic
methanogenesis
or
heterotrophic
lifestyles,
illustrating
the
metabolic
versatility
of
hydrogen
as
an
electron
donor.
hydrogen
production
and
uptake.