TY - JOUR
T1 - Light-Induced Electron Spin-Polarized (ESP) EPR Signal of the P800+ Menaquinone- Radical Pair State in Oriented Membranes of Heliobacterium modesticaldum
T2 - Role/Location of Menaquinone in the Homodimeric Type i Reaction Center
AU - Kondo, Toru
AU - Matsuoka, Masahiro
AU - Azai, Chihiro
AU - Kobayashi, Masami
AU - Itoh, Shigeru
AU - Oh-Oka, Hirozo
PY - 2018/3/8
Y1 - 2018/3/8
N2 - Function/location of menaquinone (MQ) was studied in the photosynthetic reaction center of Heliobacterium (Hbt.) modesticaldum (hRC), which is one of the most primitive homodimeric type I RCs. The spin-polarized electron paramagnetic resonance signals of light-induced radical pair species, which are made of oxidized electron donor bacteriochlorophyll g (P800+) and reduced menaquinone (MQ-) or iron-sulfur cluster (FX-), were measured in the oriented membranes of Hbt. modesticaldum at cryogenic temperature. The spectral shape of transient electron spin-polarized signal of P800+FX- radical pair state varied little with respect to the direction of the external magnetic field. It suggested a dominant contribution of the spin evolution on the precursor primary radical pair P800+A0- state with the larger isotropic magnetic exchange interaction J than the anisotropic dipole interaction D. The pure P800+MQ- signal was simulated by subtracting the effects of spin evolution during the electron-transfer process. It was concluded that the J value of the P800+MQ- radical pair is negative with an amplitude almost comparable to |D|. It is in contrast to a positive and small J value of the P700+PhyQ- state in photosystem I (PS I). The results indicate similar but somewhat different locations/binding sites of quinones between hRC and PS I.
AB - Function/location of menaquinone (MQ) was studied in the photosynthetic reaction center of Heliobacterium (Hbt.) modesticaldum (hRC), which is one of the most primitive homodimeric type I RCs. The spin-polarized electron paramagnetic resonance signals of light-induced radical pair species, which are made of oxidized electron donor bacteriochlorophyll g (P800+) and reduced menaquinone (MQ-) or iron-sulfur cluster (FX-), were measured in the oriented membranes of Hbt. modesticaldum at cryogenic temperature. The spectral shape of transient electron spin-polarized signal of P800+FX- radical pair state varied little with respect to the direction of the external magnetic field. It suggested a dominant contribution of the spin evolution on the precursor primary radical pair P800+A0- state with the larger isotropic magnetic exchange interaction J than the anisotropic dipole interaction D. The pure P800+MQ- signal was simulated by subtracting the effects of spin evolution during the electron-transfer process. It was concluded that the J value of the P800+MQ- radical pair is negative with an amplitude almost comparable to |D|. It is in contrast to a positive and small J value of the P700+PhyQ- state in photosystem I (PS I). The results indicate similar but somewhat different locations/binding sites of quinones between hRC and PS I.
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U2 - 10.1021/acs.jpcb.7b12171
DO - 10.1021/acs.jpcb.7b12171
M3 - Article
C2 - 29420036
AN - SCOPUS:85043523687
VL - 122
SP - 2536
EP - 2543
JO - Journal of Physical Chemistry B
JF - Journal of Physical Chemistry B
SN - 1520-6106
IS - 9
ER -