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7S3D

Structure of photosystem I with bound ferredoxin from Synechococcus sp. PCC 7335 acclimated to far-red light

Summary for 7S3D
Entry DOI10.2210/pdb7s3d/pdb
EMDB information24821
DescriptorPhotosystem I P700 chlorophyll a apoprotein A1, PSI subunit V, PsaM, ... (25 entities in total)
Functional Keywordsphotosystem i, far-red light photoacclimation, chlorophyll f, ferredoxin, psaf, psaj, photosynthesis
Biological sourceSynechococcus sp. PCC 7335
More
Total number of polymer chains36
Total formula weight1147334.57
Authors
Gisriel, C.J.,Flesher, D.A.,Shen, G.,Wang, J.,Ho, M.,Brudvig, G.W.,Bryant, D.A. (deposition date: 2021-09-05, release date: 2021-11-24, Last modification date: 2024-06-05)
Primary citationGisriel, C.J.,Flesher, D.A.,Shen, G.,Wang, J.,Ho, M.Y.,Brudvig, G.W.,Bryant, D.A.
Structure of a photosystem I-ferredoxin complex from a marine cyanobacterium provides insights into far-red light photoacclimation.
J.Biol.Chem., 298:101408-101408, 2021
Cited by
PubMed Abstract: Far-red light photoacclimation exhibited by some cyanobacteria allows these organisms to use the far-red region of the solar spectrum (700-800 nm) for photosynthesis. Part of this process includes the replacement of six photosystem I (PSI) subunits with isoforms that confer the binding of chlorophyll (Chl) f molecules that absorb far-red light (FRL). However, the exact sites at which Chl f molecules are bound are still challenging to determine. To aid in the identification of Chl f-binding sites, we solved the cryo-EM structure of PSI from far-red light-acclimated cells of the cyanobacterium Synechococcus sp. PCC 7335. We identified six sites that bind Chl f with high specificity and three additional sites that are likely to bind Chl f at lower specificity. All of these binding sites are in the core-antenna regions of PSI, and Chl f was not observed among the electron transfer cofactors. This structural analysis also reveals both conserved and nonconserved Chl f-binding sites, the latter of which exemplify the diversity in FRL-PSI among species. We found that the FRL-PSI structure also contains a bound soluble ferredoxin, PetF1, at low occupancy, which suggests that ferredoxin binds less transiently than expected according to the canonical view of ferredoxin-binding to facilitate electron transfer. We suggest that this may result from structural changes in FRL-PSI that occur specifically during FRL photoacclimation.
PubMed: 34793839
DOI: 10.1016/j.jbc.2021.101408
PDB entries with the same primary citation
Experimental method
ELECTRON MICROSCOPY (2.91 Å)
Structure validation

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