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EPR spectra of Photosystem I and other iron protein components in intact cells of cyanobacteria
Authors:R. Cammack  L.J. Luijk  J.J. Maguire  I.V. Fry  L. Packer
Affiliation:1. Membrane Bioenergetics Group, Lawrence Berkeley Laboratory, Berkeley, CA 94720 U.S.A.;2. Department of Physiology-Anatomy, University of California, Berkeley, CA 94720 U.S.A.
Abstract:Electron paramagnetic resonance (EPR) spectra were recorded of whole filaments of the cyanobacteria Nostoc muscorum and Anabaena cylindrica. Signals due to manganese were removed by freezing and thawing the cells in EDTA. EPR spectra were assigned on the basis of their g values, linewidths, temperature dependence and response to dithionite and light treatments. The principal components identified were: (i) rhombic Fe3+ (signal at g = 4.3), probably a soluble storage form of iron; (ii) iron-sulfur centers A and B of Photosystem I; (iii) the photochemical electron acceptor ‘X’ of Photosystem I; this component was also observed for the first time in isolated heterocysts; (iv) soluble ferredoxin which was present at a concentration of 1 molecule per 140 ± 20 chlorophyll molecules; (v) a membrane-bound iron-sulfur protein (g = 1.92). A signal g = 6 in the oxidized state was probably due to an unidentified heme compound. During deprivation of iron the rhombic Fe3+, centers A, B and X of Photosystem I, and soluble ferredoxin were all observed to decrease.
Keywords:Cyanobacteria  ESR  Photosystem I  Iron-protein  (Nostoc muscorum  Anabaena cylindrica)  Hepes  4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid
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