Seven-fold exciton splitting of the 810-nm band in bacteriochlorophyll A-proteins from green photosynthetic bacteria.

We report comparative absorbance and fourth derivative absorbance spectra of two different bacteriochlorophyll a-proteins at 5 K in each of two different cryogenic solvent mixtures. In previous studies at 5 K each protein was observed in only one of these mixtures (not the same one). For the protein from Prosthecochloris aestuarii strain 2K, whose structure is known, the solvent effect is relatively small; for the protein from Chlorobium limicola f. sp. thiosulfatophilum strain 6230 (Tassajara), the effect is much more pronounced. From these results together with earlier results at 300 K, we conclude there may be slight conformational differences of the Prosthecochloris protein between the crystalline form used for X-ray diffraction studies and that in a cryogenic solvent. By comparing spectral features of the two proteins in the same solvent, we are able for the first time to assign all seven of the expected exciton levels in each protein. These occur at 793, 801, 806, 810, 814, 819, and 825 nm in the Prosthecochloris protein, and at 793, 802, 806, 810, 816, 820, and 823 nm in the Chlorobium protein.