A tetraheme cytochrome subunit bound to the photosynthetic reaction center (RC) of purple bacterium, Rubrivivax gelatinosus, interacts with two types of soluble electron donors, cytochromes c and high-potential iron-sulfur protein (HiPIP), at a binding domain in the vicinity of low-potential heme 1, the fourth heme from the special pair of bacteriochlorophyll. To clarify the mechanism of the interaction, the domain around heme 1 was examined using site-directed mutants that changed the surface charge in the region within 20 A from the heme edge. In the case of the interaction with soluble cytochrome c, a strong dependence on the sign of the introduced charge was observed in all mutants: positive charge inhibited the reaction rate, whereas additional negative charge accelerated it. This confirmed the electrostatic nature of the binding. Interaction with HiPIP was inhibited by a limited number of mutations at the close vicinity of heme 1, and no acceleration was observed (the effects of some mutations were independent of the sign of the introduced charge). The acidic residues which were critically important for the binding of cytochrome c showed much less contribution to the binding of HiPIP. The binding site for HiPIP appears to be mostly formed by uncharged and hydrophobic residues, occupying a significantly smaller area than the cytochrome-c-binding site. It is proposed that the docking of HiPIP to the RC in Rvi. gelatinosus is primarily controlled by hydrophobic contacts between protein surfaces, thus differing from the electrostatic mode of the RC-cytochrome c interaction.