Inhibition of photosynthetic oxygen evolution and electron transfer from the quinone acceptor QA- to QB by iron deficiency.

Abstract	The effect of iron deficiency on photosynthetic electron transport in Photosystem II (PS II) was studied in leaves and thylakoid membranes of lettuce (Lactuca sativa, Romaine variety) plants. PS II electron transport was characterized by oxygen evolution and chlorophyll fluorescence parameters. Iron deficiency in the culture medium was shown to affect water oxidation and the advancement of the S-states. A decrease of maximal quantum yield of PS II and an increase of fluorescence intensity at step J and I of OJIP kinetics were also observed. Thermoluminescence measurements revealed that charge recombination between the quinone acceptor of PS II, Q(B), and the S(2) state of the Mn-cluster was strongly perturbed. Also the dark decay of Chl fluorescence after a single turnover white flash was greatly retarded indicating a slower rate of Q(A)(-) reoxidation.
Authors	Najoua Msilini, Maha Zaghdoudi, Sridharan Govindachary, Mokhtar Lachaâl, Zeineb Ouerghi, Robert Carpentier
Journal	Photosynthesis research (Photosynth Res) Vol. 107 Issue 3 Pg. 247-56 (Mar 2011) ISSN: 1573-5079 [Electronic] Netherlands
PMID	21311974 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Photosystem II Protein Complex Quinones Water Chlorophyll Iron Oxygen
Topics	Chlorophyll (metabolism) Electron Transport Fluorescence Iron (metabolism) Lettuce (metabolism) Oxidation-Reduction Oxygen (metabolism) Photosynthesis Photosystem II Protein Complex (metabolism) Quinones (metabolism) Thylakoids (metabolism) Water (metabolism)

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