A comparison between plant photosystem I and photosystem II architecture and functioning
S Caffarri, T Tibiletti, RC Jennings… - Current Protein and …, 2014 - ingentaconnect.com
Oxygenic photosynthesis is indispensable both for the development and maintenance of life
on earth by converting light energy into chemical energy and by producing molecular …
on earth by converting light energy into chemical energy and by producing molecular …
Photosynthetic light-harvesting (antenna) complexes—structures and functions
H Lokstein, G Renger, JP Götze - Molecules, 2021 - mdpi.com
Chlorophylls and bacteriochlorophylls, together with carotenoids, serve, noncovalently
bound to specific apoproteins, as principal light-harvesting and energy-transforming …
bound to specific apoproteins, as principal light-harvesting and energy-transforming …
[图书][B] Non-photochemical quenching and energy dissipation in plants, algae and cyanobacteria
Figures showing species and properties relevant to non-photochemical quenching
studies.(a) Filamentous planktonic cyanobacteria Dolichospermum crassum and D. flos …
studies.(a) Filamentous planktonic cyanobacteria Dolichospermum crassum and D. flos …
Inter-subunit energy transfer processes in a minimal plant photosystem II supercomplex
Photosystem II (PSII) is an integral part of the photosynthesis machinery, in which several
light-harvesting complexes rely on inter-complex excitonic energy transfer (EET) processes …
light-harvesting complexes rely on inter-complex excitonic energy transfer (EET) processes …
Photosynthetic quantum yield dynamics: from photosystems to leaves
SW Hogewoning, E Wientjes, P Douwstra… - The plant …, 2012 - academic.oup.com
The mechanisms underlying the wavelength dependence of the quantum yield for CO2
fixation (α) and its acclimation to the growth-light spectrum are quantitatively addressed …
fixation (α) and its acclimation to the growth-light spectrum are quantitatively addressed …
Functional architecture of higher plant photosystem II supercomplexes
Photosystem II (PSII) is a large multiprotein complex, which catalyses water splitting and
plastoquinone reduction necessary to transform sunlight into chemical energy. Detailed …
plastoquinone reduction necessary to transform sunlight into chemical energy. Detailed …
[HTML][HTML] High-light vs. low-light: effect of light acclimation on photosystem II composition and organization in Arabidopsis thaliana
The structural response of photosystem II (PSII) and its light-harvesting proteins (LHCII) in
Arabidopis thaliana after long-term acclimation to either high or low light intensity was …
Arabidopis thaliana after long-term acclimation to either high or low light intensity was …
Functional analyses of the plant photosystem I–light-harvesting complex II supercomplex reveal that light-harvesting complex II loosely bound to photosystem II is a …
P Galka, S Santabarbara, TTH Khuong… - The Plant …, 2012 - academic.oup.com
State transitions are an important photosynthetic short-term response that allows energy
distribution balancing between photosystems I (PSI) and II (PSII). In plants when PSII is …
distribution balancing between photosystems I (PSI) and II (PSII). In plants when PSII is …
[HTML][HTML] LHCII is an antenna of both photosystems after long-term acclimation
LHCII, the most abundant membrane protein on earth, is the major light-harvesting complex
of plants. It is generally accepted that LHCII is associated with Photosystem II and only as a …
of plants. It is generally accepted that LHCII is associated with Photosystem II and only as a …
A viewpoint: Why chlorophyll a?
LO Björn, GC Papageorgiou, RE Blankenship… - Photosynthesis …, 2009 - Springer
Chlorophyll a (Chl a) serves a dual role in oxygenic photosynthesis: in light harvesting as
well as in converting energy of absorbed photons to chemical energy. No other Chl is as …
well as in converting energy of absorbed photons to chemical energy. No other Chl is as …