Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from Thermosynechococcus elongatus showed that electron transfer pathways consist of two nearly symmetric branches of cofactors converging at the first iron–sulfur cluster FX, which is followed by two terminal iron–sulfur clusters FA and FB. Experiments have shown that FX has lower oxidation potential than FA and FB, which facilitates the electron transfer reaction. Here, we use density functional theory and Multi-Conformer Continuum Electrostatics to explain the differences in the midpoint Em potentials of the FX, FA and FB clusters. Our calculations show that FX has the lowest oxidation potential compared to FA and FB due to strong pairwise electro...
The proposed structure of Photosystem I depicts two cysteines on the PsaA polypeptide and two cystei...
AbstractType I reaction centers (RCs) are multisubunit chlorophyll–protein complexes that function i...
W. R. Wiley Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory, P.O....
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
The proposed structure of Photosystem I depicts two cysteines on the PsaA polypeptide and two cystei...
AbstractThe x-ray structure analysis of photosystem I (PS I) crystals at 4-Å resolution (Schubert et...
The proposed structure of Photosystem I depicts two cysteines on the PsaA polypeptide and two cystei...
AbstractType I reaction centers (RCs) are multisubunit chlorophyll–protein complexes that function i...
W. R. Wiley Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory, P.O....
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
Photosystem I is a light-driven electron transfer device. Available X-ray crystal structure from The...
The proposed structure of Photosystem I depicts two cysteines on the PsaA polypeptide and two cystei...
AbstractThe x-ray structure analysis of photosystem I (PS I) crystals at 4-Å resolution (Schubert et...
The proposed structure of Photosystem I depicts two cysteines on the PsaA polypeptide and two cystei...
AbstractType I reaction centers (RCs) are multisubunit chlorophyll–protein complexes that function i...
W. R. Wiley Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory, P.O....