Hiroyuki Mino scite author profile

Magnetic properties of the S1-state manganese cluster in the oxygen-evolving photosystem II were studied by parallel polarization electron paramagnetic resonance spectroscopy. Dark minus light spectra gave rise to a broad S1-state signal with a g value of about 4.9 [Dexheimer, S. L., Klein, M. P. (1992) J. Am. Chem. Soc. 114, 2821-2826]. Temperature variation of the signal intensity between 1.9 and 10 K observed in PS II with a sucrose buffer indicates that the signal originates from an excited state with a spin S of 1 with separation from the ground state (S = 0) of about 2.5 K. The S1-state signal was also observed in the sucrose buffer supplemented by 50% glycerol. However, no S1-state signal was detected by addition of 3% methanol or 30% ethylene glycol in the sucrose buffer, although illumination at 200 K in the presence of these alcohols induced the normal multiline S2 signal. Furthermore, modification of the Mn cluster by Cl- or Ca2+ depletion from PS II membranes failed to produce a detectable S1-state signal. A possible magnetic structure of the Mn cluster responsible for the generation of the S1-state signal is discussed on the basis of these observations.

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Dual-Mode EPR Study of New Signals from the S₃-State of Oxygen-Evolving Complex in Photosystem II

Matsukawa

Mino

Yoneda

et al. 1999

Biochemistry

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The light-induced new EPR signals at g = 12 and 8 were observed in photosystem II (PS II) membranes by parallel polarization EPR. The signals were generated after two flashes of illumination at room temperature, and the signal intensity had four flashes period oscillation, indicating that the signal origin could be ascribed to the S3-state. Successful simulations were obtained assuming S = 1 spin for the values of the zero-field parameters, D = +/-0.435 +/- 0. 005 cm-1 and E/D = -0.317 +/- 0.002. Orientation dependence of the g =12 and 8 signal intensities shows that the axial direction of the zero-field interaction of the manganese cluster is nearly parallel to the membrane normal.

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ESR Signal of the Iron−Sulfur Center F_Xand Its Function in the Homodimeric Reaction Center ofHeliobacterium modesticaldum^,

et al. 2006

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Electron transfer in the membranes and the type I reaction center (RC) core protein complex isolated from Heliobacterium modesticaldum was studied by optical and ESR spectroscopy. The RC is a homodimer of PshA proteins. In the isolated membranes, illumination at 14 K led to accumulation of a stable ESR signal of the reduced iron-sulfur center F(B)(-) in the presence of dithiothreitol, and an additional 20 min illumination at 230 K induced the spin-interacting F(A)(-)/F(B)(-) signal at 14 K. During illumination at 5 K in the presence of dithionite, we detected a new transient signal with the following values: g(z)= 2.040, g(y)= 1.911, and g(x)= 1.896. The signal decayed rapidly with a 10 ms time constant after the flash excitation at 5 K and was attributed to the F(X)(-)-type center, although the signal shape was more symmetrical than that of F(X)(-) in photosystem I. In the purified RC core protein, laser excitation induced the absorption change of a special pair, P800. The flash-induced P800(+) signal recovered with a fast 2-5 ms time constant below 150 K, suggesting charge recombination with F(X)(-). Partial destruction of the RC core protein complex by a brief exposure to air increased the level of the P800(+)A(0)(-) state that gave a lifetime (t(1/2)) of 100 ns at 77 K. The reactions of F(X) and quinone were discussed on the basis of the three-dimensional structural model of RC that predicts the conserved F(X)-binding site and the quinone-binding site, which is more hydrophilic than that in the photosystem I RC.

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Hiroyuki Mino

Parallel Polarization Electron Paramagnetic Resonance Studies of the S₁-State Manganese Cluster in the Photosynthetic Oxygen-Evolving System

Dual-Mode EPR Study of New Signals from the S₃-State of Oxygen-Evolving Complex in Photosystem II

ESR Signal of the Iron−Sulfur Center F_Xand Its Function in the Homodimeric Reaction Center ofHeliobacterium modesticaldum^,

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Hiroyuki Mino

Parallel Polarization Electron Paramagnetic Resonance Studies of the S1-State Manganese Cluster in the Photosynthetic Oxygen-Evolving System

Dual-Mode EPR Study of New Signals from the S3-State of Oxygen-Evolving Complex in Photosystem II

ESR Signal of the Iron−Sulfur Center FXand Its Function in the Homodimeric Reaction Center ofHeliobacterium modesticaldum,

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Product

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Parallel Polarization Electron Paramagnetic Resonance Studies of the S₁-State Manganese Cluster in the Photosynthetic Oxygen-Evolving System

Dual-Mode EPR Study of New Signals from the S₃-State of Oxygen-Evolving Complex in Photosystem II

ESR Signal of the Iron−Sulfur Center F_Xand Its Function in the Homodimeric Reaction Center ofHeliobacterium modesticaldum^,