1. The structure of a red-shifted photosystem I reveals a red site in the core antenna.
- Author
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Toporik, Hila, Khmelnitskiy, Anton, Dobson, Zachary, Riddle, Reece, Williams, Dewight, Lin, Su, Jankowiak, Ryszard, and Mazor, Yuval
- Subjects
PHOTOSYSTEMS ,ANTENNAS (Electronics) ,QUANTUM efficiency ,ABSORPTION spectra ,ENERGY transfer ,CHLOROPHYLL spectra - Abstract
Photosystem I coordinates more than 90 chlorophylls in its core antenna while achieving near perfect quantum efficiency. Low energy chlorophylls (also known as red chlorophylls) residing in the antenna are important for energy transfer dynamics and yield, however, their precise location remained elusive. Here, we construct a chimeric Photosystem I complex in Synechocystis PCC 6803 that shows enhanced absorption in the red spectral region. We combine Cryo-EM and spectroscopy to determine the structure
− function relationship in this red-shifted Photosystem I complex. Determining the structure of this complex reveals the precise architecture of the low energy site as well as large scale structural heterogeneity which is probably universal to all trimeric Photosystem I complexes. Identifying the structural elements that constitute red sites can expand the absorption spectrum of oxygenic photosynthetic and potentially modulate light harvesting efficiency. Cyanobacterial photosystem I has a highly conserved core antenna consisting of eleven subunits and more than 90 chlorophylls. Here via CryoEM and spectroscopy, the authors determine the location of a red-shifted low-energy chlorophyll that allows harvesting of longer wavelengths of light. [ABSTRACT FROM AUTHOR]- Published
- 2020
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