Ligand-switching intermediates for the CO-sensing transcriptional activator CooA measured by pulse radiolysis.

CooA is a heme-containing and CO-sensing transcriptional activator whose activity is regulated by CO. The protoheme that acts as a CO sensor in CooA shows unique properties for its coordination structure. The Cys75 axial ligand of the ferric heme is replaced by His77 upon the reduction of the heme iron and vice versa. In this work, the ligand-switching process induced by the reduction of the heme was investigated by the technique of pulse radiolysis. Hydrated electron reduced the heme iron in ferric CooA within 1 micros to form the first intermediate with the Soret peak at 440 nm, suggesting that a six-coordinate ferrous heme with a thiolate axial ligand was formed initially. The first intermediate was converted into the second intermediate with the time constant of 40 micros (k = 2.5 x 10(4) x s(-1)). In the second intermediate, the thiolate from Cys75 was thought to be protonated and/or the Fe-S bond was thought to be elongated. The second intermediate was converted into the final reduced form with the time constant of 2.9 ms (k = 3.5 x 10(2) x s(-1)) for wild-type CooA. The ligand exchange between Cys75 and His77 took place during the conversion of the second intermediate into the final reduced form.