Driving Electron Transfer in Photosystem I Using Far-Red Light: Overall Perspectives
Jimit Patel, Amen ElMasadef, Abraham Peele Karlapudi, Katayoun Etemadi, K. V. Lakshmi, Art van der Est, Divya Kaur

TL;DR
This paper reviews how different cyanobacteria use various light wavelengths to drive electron transfer in Photosystem I, focusing on structural and functional adaptations.
Contribution
The paper provides a comparative analysis of structural and functional differences in Photosystem I across cyanobacteria species.
Findings
Structural differences in cofactors affect absorption wavelengths and electron transfer energy levels.
Protein environments and hydrogen bonding networks adapt to tune photosynthetic efficiency.
Cyanobacteria like A. marina and H. hongdechloris use Chl d and Chl f for red light adaptation.
Abstract
Photosystem I (PSI) is a photosynthetic protein–pigment complex that, upon photoexcitation, transfers electrons to ferredoxin, facilitating the production of NADPH. Isolated PSI reaction centers (RCs) have also been used in hybrid systems to reduce protons and produce ‘biohydrogen’. This review article examines how various cyanobacteria with similar photosynthetic machinery utilize different wavelengths of light to execute photosynthetic electron transport through PSI. Key factors, such as, the structure of the electron transfer cofactors, the protein environment surrounding the primary donor pigments and hydrogen-bonding interactions with the surrounding protein matrix are analyzed to understand their roles in maintaining efficient electron transfer when it is driven using photons of different energies. We compare PSI complexes with known atomic structures from four species of…
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Taxonomy
TopicsPhotosynthetic Processes and Mechanisms · Photoreceptor and optogenetics research · Metalloenzymes and iron-sulfur proteins
