Purification and Properties of an Unusual Membrane-Derived Cytochrome b-561 from the Purple Phototrophic Bacterium Rhodobacter capsulatus, Which Is Structurally Related to the Bacteriochlorophyll-Binding Protein, LHIIβ

Abstract

An abundant cytochrome b-561 was solubilized from Rhodobacter capsulatus membranes by successive treatments with perchiorate and butanol/water. Neither procedure was effective alone although they could be combined into a single step. Once solubilized, cytochrome b-561 was purified by standard chromatographic procedures used for water-soluble proteins without addition of butanol or detergents. Cytochrome b-561 appears to be highly acidic, it has a size greater than about 1000 kDa as isolated, and the subunit size measured by sodium dodecyl sulfate-polyacrylamide gel electrophoresis is less than 8 kDa. The redox potential measured by cyclic voltammetry is −65 mV at pH 7. The N-terminal amino acid sequence is identical to that of the Rb. capsulatus LHIIβ light-harvesting bacteriochlorophyll binding protein subunit which has only 48 amino acid residues, and the mass, determined by mass spectroscopy, is identical to that of LHIIβ. There is but one heme per two to three peptide chains of 5 kDa, which suggests that the two extraplanar ligands to the heme are on separate subunits. There is strong exciton splitting in the circular dichroism spectrum in the Soret region indicative of heme-heme interaction. The helix content based on far-uv CD is 41%. Together, these properties of cytochrome b-561 are very similar to those of isolated LHIIαβ bacteriochlorophyll-protein complexes.