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Received September 9, 2004; Revision received November 4, 2004
The generation of transmembrane electric potential difference (DeltaPsi) in quinone acceptor complex of proteoliposomes containing core complexes of photosystem II from spinach was studied using for the measurements a direct electrometric technique. Besides the fast increase in the membrane potential associated with the electron transfer between the redox-active tyrosine 161 residue (YZ) in D1 polypeptide and the primary quinone acceptor QA, an additional electrogenic phase with tau ~ 0.85 msec at pH 7.3 and the maximal relative amplitude of ~11% of the YZoxQA- phase was observed after the second light flash. The sensitivity of this phase to diuron (an inhibitor of electron transfer between QA and the secondary quinone acceptor QB), the dependence of its amplitude on the light flash parity, and also a decrease in its rate constant with increase in pH indicated that it was due to dismutation of QA- and QB- with the subsequent protonation of a doubly reduced plastoquinone molecule: QA-QB- + 2H+ → QAQBH2.
KEY WORDS: core complex of photosystem II, oxygen evolving complex, secondary quinone acceptor, proteoliposomes, membrane potential, electrogenic phase, direct electrometric technique
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Copyright (C) 2024 BioProt Network All rights reserved. |
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