Electron transfer and arrangement of the redox cofactors in photosystem I - ScienceDirect Skip
to main contentSkip to article Elsevier logo Journals & Books Search RegisterSign in View …

▪ Abstract Photosystem I is the light-driven plastocyanin-ferredoxin oxidoreductase in the
thylakoid membranes of cyanobacteria and chloroplasts. In recent years, sophisticated …

All photosynthetic reaction centers share a common structural theme. Two related, integral
membrane polypeptides sequester electron transfer cofactors into two quasi-symmetrical …

The energy transfer and charge separation kinetics in core Photosystem I (PSI) particles of
Chlamydomonas reinhardtii has been studied using ultrafast transient absorption in the …

This minireview is written in honor of Vladimir A. Shuvalov, a pioneer in the area of primary
photochemistry of both oxygenic and anoxygenic photosyntheses (See a News Report …

The primary electron donor of photosystem I, P700, is a chlorophyll species that in its excited
state has a potential of approximately− 1.2 V. The precise chemical composition and …

This review focuses on phylloquinone as an indispensable link between light-induced
charge separation and subsequent charge stabilization in Photosystem I (PS I). Here, the …

The ultrafast (< 100fs) conversion of delocalized exciton into charge-separated state
between the primary donor P700 (bleaching at 705nm) and the primary acceptor A0 …

Transfer and trapping of excitation energy in photosystem I (PS I) trimers isolated from
Synechococcus elongatus have been studied by an approach combining fluorescence …

Photosystems I and II drive oxygenic photosynthesis. This requires biochemical systems with
remarkable properties, allowing these membrane‐bound pigment‐protein complexes to …