ANALYSIS OF THE INTERVALENCE BAND IN THE OXIDIZED PHOTOSYNTHETIC BACTERIAL REACTION-CENTER

Electronic and vibronic coupling parameters of the oxidized photosynth etic bacterial reaction center (P+) of Rhodobacter sphaeroides are est imated by analyzing its approximate to 2600 cm(-1) intervalence band w hich was recently measured by Breton et al. A two-mode model is used w hich pictures pf as an unsymmetrical mixed-valence dimer. One mode (q( 1)) has even and the other mode (q(2)) has odd interchange symmetry wi th respective frequencies nu(1) approximate to 154 cm(-1) and nu(2) ap proximate to 1630 cm(-1). The vibronic coupling is strong in the forme r and weak in the latter and in sum is larger than the electronic coup ling. The asymmetry parameter which appears in the model is estimated from the ESR data of Rautter et al. The energy difference between the minima of the two coupled potential surfaces is approximate to 850 cm( -1), whereas the Franck-Condon transition energy is approximate to 210 0 cm(-1). An analysis of the potential surfaces and probability distri bution in configuration space show that p(+) is a strongly delocalized mixed-valence system.