-
biosynthetic reactions (e. g.,
carbon dioxide fixation in lithoautotrophs).
Lithotrophic bacteria cannot use, of course,
their inorganic energy source as a carbon...
-
lithotrophic organisms are
often also autotrophic,
using inorganic sources of
electrons and CO2 as
their inorganic carbon source. Some
lithotrophic bacteria...
- envelopes, but they can
break down
chemical components around them. Some
lithotrophic prokaryotes are
extremophiles that can
survive in nutrient-deprived environments...
- of
haloalkaliphilic sulfate-reducing bacteria. It is able to grow
lithotrophically by di****ation of
thiosulfate and sulfite. Sorokin, D. Y.; Tourova...
- from hydrogen,
sulfate and
carbon dioxide. Also A.
profundus grow
lithotrophically, but
while this
species needs acetate and CO2 for
biosynthesis they...
- of
haloalkaliphilic sulfate-reducing bacteria. It is able to grow
lithotrophically by di****ation of
thiosulfate and sulfite. Sorokin, D. Y.; Tourova...
- of
haloalkaliphilic sulfate-reducing bacteria. It is able to grow
lithotrophically by di****ation of
thiosulfate and sulfite. Parte, A.C. "Desulfonatronovibrio"...
- Wriddhiman; Dam,
Bomba (November 2009). "Biochemistry and
molecular biology of
lithotrophic sulfur oxidation by
taxonomically and
ecologically diverse bacteria and...
- the
chemical composition and the flow of the
local waters.
Unlike most
lithotrophic metabolisms, the
oxidation of Fe2+ to Fe3+
yields very
little energy...
- is
sunlight but a
minute fraction of
primary production is
driven by
lithotrophic organisms using the
chemical energy of
inorganic molecules. Regardless...
