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tilacoids

Tilacoids, often spelled thylakoids in English, are membrane-bound sacs inside chloroplasts and cyanobacteria. They house the photosynthetic light reactions and enclose the thylakoid lumen. In photosynthetic plant cells, tilacoids are typically organized into grana stacks interconnected by stroma thylakoids.

Each tilacoid membrane contains pigment–protein complexes, including photosystems II and I, the cytochrome b6f complex, ATP

Water-splitting at photosystem II releases electrons and oxygen; electrons move through plastoquinone and the cytochrome b6f

The internal aqueous compartment, the thylakoid lumen, and the surrounding stroma provide distinct environments that regulate

Tilacoids are derived from the chloroplast envelope during evolution and are homologous to cyanobacterial internal membranes.

synthase,
and
light-harvesting
antennae.
The
membrane
forms
a
proton
gradient
when
illuminated,
pumping
protons
into
the
thylakoid
lumen.
complex
to
plastocyanin
and
then
to
photosystem
I,
where
they
reduce
ferredoxin
and
NADP+
to
NADPH.
The
proton
motive
force
across
the
membrane
drives
ATP
synthesis.
photosynthetic
chemistry.
The
thylakoid
system
is
arranged
to
maximize
light
capture
in
plants,
with
grana
and
stroma
thylakoids
supporting
efficient
energy
conversion.
Some
algae
and
cyanobacteria
exhibit
variations
in
thylakoid
organization.
Their
composition
includes
pigments
such
as
chlorophyll
a
and
b,
and
accessory
carotenoids,
which
participate
in
light
absorption
and
protection
against
photodamage.