Rm. Sevdimaliev et al., MAGNETIC FIELD-SENSITIVE STAGES OF ELECTR ON-TRANSFER IN ISOLATED REACTION CENTERS OF THE HIGHER-PLANT PHOTOSYSTEM-II, Biofizika, 38(6), 1993, pp. 952-957
The mechanisms of the magnetic field effect on the fluorescence yield
of the chlorophyll, DELTAF(B)/F, and the optical absorbance-difference
T-S spectra of the primary electron donor are studied in D1/D2/cytoch
rome b-559 photosystem II complexes (isolated PS II RC) in the tempera
ture range 9-295 K. It is demonstrated that in the temperature range 4
0-295 K DELTAF(B)/F is due to superposition of two magnetic field-sens
itive fluorescence components which are related to charge recombinatio
n of RP (P680+I-). Occurence of these magnetic field-sensitive fluores
cence components is explained by the formation of relaxed and nonrelax
ed states of RP (P680+I-) and/or heterogeneity of RCs preparation. It
is proposed that effect of the magnetic field on fluorescence yield in
the temperature range 9-35 K is due to mixing of the eigenfunctions (
mixing of the decay rate constants and population probabilities) of th
e triplet sublevels of P680 and charge recombination of RP (P680+I-) t
o the ground state of P680. The investigation of absorbance-difference
T-S spectra of P680 indicates that it is a dimer of chlorophyll molec
ules with sufficient interactions between the two monomers in the sing
let state and minor interactions in the triplet state. It is suggested
that absorbance-difference T-S spectra of P680 reflect the heterogene
ity of the RCs. Energy transfer from P680 triplet state to beta-carote
ne in the studied D1/D2/cytochrome b-559 complexes is not observed.