-
acceptor used. Type I
photosystems use ferredoxin-like iron-sulfur
cluster proteins as
terminal electron acceptors,
while type II
photosystems ultimately shuttle...
-
Photosystem I (PSI, or plastocyanin–ferredoxin oxidoreductase) is one of two
photosystems in the
photosynthetic light reactions of algae, plants, and...
-
homologous proteins D1 and D2.
Unlike the
reaction centers of all
other photosystems in
which the
positive charge sitting on the
chlorophyll dimer that undergoes...
- membrane:
Photosystems I and II
Cytochrome b6f
complex ATP
synthase Photosystem II is
located mostly in the
grana thylakoids,
whereas photosystem I and ATP...
-
bacteria use PSI- and PSII-like
photosystems,
which are
pigment protein complexes for
capturing light. Both of
these photosystems use bacteriochlorophyll. There...
- cell walls, is less absorbed. Two
types of
chlorophyll exist in the
photosystems of
green plants:
chlorophyll a and b.
Chlorophyll was
first isolated...
- led
later to the
discovery of
photosystems I and II. Light-independent
reaction Photosynthetic reaction centre Photosystem II
Compensation point V**** I...
- gas
exchange measurements reveal detailed information about, e.g., the
photosystems,
quantum efficiency and the CO2 ****imilation rates. With some instruments...
- robust.
Isolated photosystems offer the most
direct connection between water photolysis and
anode reduction. Typically,
photosystems are
isolated and...
-
overall reaction catalyzed by
Photosystem I is: Pc(Cu+) + Fd[ox] + hν → Pc(Cu2+) + Fd[red] The
cooperation between Photosystems I and II
creates an electron...