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fotosistemas

Fotosistemas are protein-pigment complexes that capture light energy and convert it into chemical energy during photosynthesis. They are embedded in the thylakoid membranes of chloroplasts in plants and algae and in the photosynthetic membranes of cyanobacteria and some bacteria. They comprise light-harvesting antennae that collect photons and core reaction centers where charge separation occurs.

There are two main photosystems, Photosystem II (PSII) and Photosystem I (PSI). PSII contains core reaction-center

In the established flow of electrons, light energy excites the pigments and drives electrons from PSII through

Fotosistemas are essential to oxygenic photosynthesis in plants, algae, and cyanobacteria, with similar, though varied, light-harvesting

proteins
D1
and
D2
and
an
antenna
system
that
includes
CP43
and
CP47,
and
it
uses
the
oxygen-evolving
complex
to
split
water,
releasing
oxygen.
Its
reaction
center
is
associated
with
a
chlorophyll
a
molecule
that
absorbs
light
at
about
680
nm
(P680).
PSI
contains
the
PsaA
and
PsaB
core;
its
reaction
center
is
a
chlorophyll
a
pair
that
absorbs
at
about
700
nm
(P700).
plastoquinone,
the
cytochrome
b6f
complex,
and
plastocyanin
to
PSI,
then
to
ferredoxin
and
NADP+
reductase
to
form
NADPH.
The
process
also
pumps
protons
to
generate
a
proton-m
Gradient,
which
powers
ATP
synthase
to
produce
ATP.
In
addition
to
linear
flow,
PSI
can
operate
in
cyclic
mode
to
produce
ATP
without
NADPH.
and
reaction-center
arrangements
across
different
organisms.