Reconstitution of iron-sulfur center FB results in complete restoration of NADP+ photoreduction in Hg-treated Photosystem I complexes from Synechococcus sp. PCC 6301
- 1 November 1995
- journal article
- Published by Springer Nature in Photosynthesis Research
- Vol. 46 (1), 249-255
- https://doi.org/10.1007/bf00020437
Abstract
The FB iron-sulfur cluster is destroyed preferentially by treating Photosystem I complexes with HgCl2(Kojima Y, Niinomi Y, Tsuboi S, Hiyama T and Sakurai H (1987) Bot Mag 100: 243–53). When FB is 95% depleted but FAis quantitatively retained in cyanobacterial PS I complexes, the reduction potential of FA remains highly electronegative (Em=−530 mV, n=1), the EPR spectral and spin relaxation properties of FA and FXremain unchanged, but NADP+ photoreduction rates decline from 552 to 72 μmol mg Chl−1 h−1.When FB is reconstituted with FeCl3, Na2S and β-mercaptoethanol, NADP+photoreduction rates recover to 528 μmol mg Chl−1 h−1. The correlation between the presence of FBand NADP+ photoreduction provides direct experimental evidence that this iron-sulfur cluster is required for electron throughput from cytochromec 6 to flavodoxin or ferredoxin in Photosystem I.Keywords
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