Identification of Two Important Heme Site Residues (Cysteine 75 and Histidine 77) in CooA, the CO-Sensing Transcription Factor of Rhodospirillum rubrum

Abstract

The CO-sensing mechanism of the transcription factor CooA from Rhodospirillum rubrum was studied through a systematic mutational analysis of potential heme ligands. Previous electron paramagnetic resonance (EPR) spectroscopic studies on wild-type CooA suggested that oxidized (Fe^III) CooA contains a low-spin heme with a thiolate ligand, presumably a cysteine, bound to its heme iron. In the present report, electronic absorption and EPR analysis of various substitutions at Cys residues establish that Cys⁷⁵ is a heme ligand in Fe^III CooA. However, characterization of heme stability and electronic properties of purified C75S CooA suggest that Cys⁷⁵ is not a ligand in Fe^II CooA. Mutational analysis of all CooA His residues showed that His⁷⁷ is critical for CO-stimulated transcription. On the basis of findings that H77Y CooA is perturbed in its Fe^II electronic properties and is unable to bind DNA in a site-specific manner in response to CO, His⁷⁷ appears to be an axial ligand to Fe^II CooA. These results imply a ligand switch from Cys⁷⁵ to His⁷⁷ upon reduction of CooA. In addition, an interaction has been identified between Cys⁷⁵ and His⁷⁷ in Fe^III CooA that may be involved in the CO-sensing mechanism. Finally, His⁷⁷ is necessary for the proper conformational change of CooA upon CO binding.