Spectroscopic studies of myoglobin at low pH: heme structure and ligation.

We explore heme structure and ligation subsequent to a low-pH conformational transition in sperm whale myoglobin. Below pH 4.0, the iron-histidine bond breaks in metMb and deoxyMb. In MbCO, the majority of the iron-histidine bonds remain intact down to pH 2.6; however, the observation of a weak Fe-CO mode at 526 cm-1 indicates that a small fraction of the sample has the histidine replaced by a weak ligand, possibly water. The existence of a sterically hindered CO subpopulation in MbCO and the continued association of the four-coordinate heme with the protein in deoxyMb suggest that the heme pocket remains at least partially intact in the acid-induced conformation. The global pH-dependent conformational change described here is clearly distinguished from the local "closed" to "open" transition described previously in MbCO [Morikis et al. (1989) Biochemistry 28, 4791-4800]. Further observations of the four-coordinate heme state yield insights on the mechanism of heme photoreduction and the assignment of the 760-nm band in deoxyMb.