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heterocistos

Heterocistos are specialized nitrogen-fixing cells found in some filamentous cyanobacteria. They differentiate from vegetative cells when fixed nitrogen is scarce and typically form at regular intervals along the filament, creating a coordinated system that allows atmospheric nitrogen (N2) to be converted into usable nitrogen compounds for the colony.

Structure and function

Heterocistos have a thick, multi-layered cell envelope rich in glycolipids and other materials that limit the

Development and regulation

Differentiation into heterocistos is triggered by nitrogen limitation. A network of regulatory factors governs the process,

Ecology and significance

Heterocistos play a key role in the global nitrogen cycle, particularly in aquatic systems and soil crusts

diffusion
of
oxygen.
This
creates
a
microoxic
environment
inside
the
cell,
which
is
essential
because
the
enzyme
nitrogenase
is
highly
sensitive
to
oxygen.
In
heterocistos,
photosystem
II
activity
is
reduced
while
photosystem
I
remains
functional,
providing
energy
for
the
energy-intensive
nitrogen
fixation
process.
The
fixed
nitrogen
is
usually
released
as
ammonia
or
amino
acids
to
neighboring
vegetative
cells,
which
in
turn
supply
carbon
compounds
to
the
heterocyst
via
photosynthate
exchange.
The
two
cell
types
thus
form
a
metabolic
partnership:
vegetative
cells
fix
carbon,
while
heterocysts
fix
nitrogen.
including
the
master
regulator
HetR
and
global
regulators
such
as
NtcA.
Inhibitory
signals,
notably
PatS
and
HetN,
help
establish
and
maintain
the
regular
spacing
of
heterocysts
along
the
filament.
Once
formed,
heterocistos
are
typically
non-dividing
and
persist
for
as
long
as
the
filament
experiences
nitrogen
limitation.
where
filamentous
cyanobacteria
contribute
bioavailable
nitrogen.
They
are
of
interest
for
biofertilizer
development
and
studies
on
cellular
differentiation
and
intercellular
metabolite
exchange.