Orientation of Calcium in the Mn4Ca Cluster of the Oxygen-Evolving Complex Determined Using Polarized Strontium EXAFS of Photosystem II Membranes. Cinco, R. M., Robblee, J. H., Messinger, J., Fernandez, C., Holman, K. L. M., Sauer, K., & Yachandra, V. K. Biochemistry, 43(42):13271–13282, October, 2004. Publisher: American Chemical Society
Orientation of Calcium in the Mn4Ca Cluster of the Oxygen-Evolving Complex Determined Using Polarized Strontium EXAFS of Photosystem II Membranes [link]Paper  doi  abstract   bibtex   
The oxygen-evolving complex of photosystem II (PS II) in green plants and algae contains a cluster of four Mn atoms in the active site, which catalyzes the photoinduced oxidation of water to dioxygen. Along with Mn, calcium and chloride ions are necessary cofactors for proper functioning of the complex. The current study using polarized Sr EXAFS on oriented Sr-reactivated samples shows that Fourier peak II, which fits best to Mn at 3.5 Å rather than lighter atoms (C, N, O, or Cl), is dichroic, with a larger magnitude at 10° (angle between the PS II membrane normal and the X-ray electric field vector) and a smaller magnitude at 80°. Analysis of the dichroism of the Sr EXAFS yields a lower and upper limit of 0° and 23° for the average angle between the Sr−Mn vectors and the membrane normal and an isotropic coordination number (number of Mn neighbors to Sr) of 1 or 2 for these layered PS II samples. The results confirm the contention that Ca (Sr) is proximal to the Mn cluster and lead to refined working models of the heteronuclear Mn4Ca cluster of the oxygen-evolving complex in PS II.
@article{cinco_orientation_2004,
	title = {Orientation of {Calcium} in the {Mn4Ca} {Cluster} of the {Oxygen}-{Evolving} {Complex} {Determined} {Using} {Polarized} {Strontium} {EXAFS} of {Photosystem} {II} {Membranes}},
	volume = {43},
	issn = {0006-2960},
	url = {https://doi.org/10.1021/bi036308v},
	doi = {10.1021/bi036308v},
	abstract = {The oxygen-evolving complex of photosystem II (PS II) in green plants and algae contains a cluster of four Mn atoms in the active site, which catalyzes the photoinduced oxidation of water to dioxygen. Along with Mn, calcium and chloride ions are necessary cofactors for proper functioning of the complex. The current study using polarized Sr EXAFS on oriented Sr-reactivated samples shows that Fourier peak II, which fits best to Mn at 3.5 Å rather than lighter atoms (C, N, O, or Cl), is dichroic, with a larger magnitude at 10° (angle between the PS II membrane normal and the X-ray electric field vector) and a smaller magnitude at 80°. Analysis of the dichroism of the Sr EXAFS yields a lower and upper limit of 0° and 23° for the average angle between the Sr−Mn vectors and the membrane normal and an isotropic coordination number (number of Mn neighbors to Sr) of 1 or 2 for these layered PS II samples. The results confirm the contention that Ca (Sr) is proximal to the Mn cluster and lead to refined working models of the heteronuclear Mn4Ca cluster of the oxygen-evolving complex in PS II.},
	number = {42},
	urldate = {2024-11-29},
	journal = {Biochemistry},
	author = {Cinco, Roehl M. and Robblee, John H. and Messinger, Johannes and Fernandez, Carmen and Holman, Karen L. McFarlane and Sauer, Kenneth and Yachandra, Vittal K.},
	month = oct,
	year = {2004},
	note = {Publisher: American Chemical Society},
	pages = {13271--13282},
}
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