Time-resolved spectroscopy of the excited electronic state of reaction centers of Rhodopseudomonas viridis

Raman scattering transitions between the excited states 8( 'E) and 2A(rE) of Cr3+ in A1203 are studied. The new technique for population decay measurements of the excited states uses a pulsed tunable dye laser as an optical pump and a cw laser as a Raman probe, plus a gated detection system. The pop

The excited states of four hemes, c-552, c-554, c-556, and c-559, in a c-type cytochrome subunit of the photosynthetic reaction center (PSRC) of Rhodopseudomonas (Rps.) viridis were studied using the symmetry-adapted cluster (SAC)-configuration interaction (CI) method. c-552 has two imidazole ligand

Reaction centers of Rhodapseudomonas uiridis were studied as a function of pressure using picosecond difference absorption spectroscopy. High pressure increased the rate of electron transfer from P+H< Qa to P+HrQi , measured by the decay of the transient optical absorption Of Hi in the 650-700 nm wa

## Abstract All electron calculations were performed on the photosynthetic reaction center of __Blastochloris viridis__, using the fragment molecular orbital (FMO) method. The protein complex of 20,581 atoms and 77,754 electrons was divided into 1398 fragments, and the two‐body expansion of FMO/6‐3