Abstract
In the heme-based sensor Dos from Escherichia coli, the ferrous heme is coordinated by His-77 and Met-95. The latter residue is replaced upon oxygen binding or oxidation of the heme. Here we investigate the early signaling processes upon dissociation of the distal ligand using ultrafast spectroscopy and site-directed mutagenesis. Geminate CO rebinding to the heme domain DosH appears insensitive to replacement of Met-95, in agreement with the notion that this residue is oriented out of the heme pocket in the presence of external ligands. A uniquely slow 35-ps phase in rebinding of the flexible methionine side chain after dissociation from ferrous DosH is completely abolished in rebinding of the more rigid histidine side chain in the M95H mutant protein, where only the 7-ps phase, common to all 6-coordinate heme proteins, is observed. Temperature-dependence studies indicate that all rebinding of internal and external ligands is essentially barrierless, but that CfigsO escape from the heme pocket is an activated process. Solvent viscosity studies combined with molecular dynamics simulations show that there are two configurations in the ferrous 6-coordinate protein, involving two isomers of the Met-95 side chain, of which the structural changes extend to the solvent-exposed backbone, which is part of the flexible FG loop. One of these configurations has considerable motional freedom in the Met-95-dissociated state. We suggest that this configuration corresponds to an early signaling intermediate state, is responsible for the slow rebinding, and allows small ligands in the protein to efficiently compete for binding with the heme.
Highlights
Which the exchange of an internal ligand and an external signaling molecule at the heme binding site leads to changes in the activity of an associated enzymatic domain
Because dissociation of methionine must be the initial step changing the activity in the holoprotein from that associated with the unliganded reduced form to that associated with external ligand, this finding opens the exciting perspective that several steps in the early signaling pathway can be followed
The present work aims at exploring the possibility of monitoring initial signaling events in DosH, and the role of the relatively flexible side chain of the crucial methionine 95 residue, by combining site-directed mutagenesis, femtosecond spectroscopy, and molecular dynamics simulations
Summary
Which the exchange of an internal ligand and an external signaling molecule at the heme binding site leads to changes in the activity of an associated enzymatic domain. This is the case for the small diatomic gaseous ligands [12, 13] and for amino acid residues (14 –16) This property allows triggering of heme-ligand dissociation using ultrashort light pulses and following the initial dynamics of the system spectroscopically [17]. Because dissociation of methionine must be the initial step changing the activity in the holoprotein from that associated with the unliganded reduced form to that associated with external ligand (or to that of the oxidized waterbound form in the case of redox sensing), this finding opens the exciting perspective that several steps in the early signaling pathway can be followed. The present work aims at exploring the possibility of monitoring initial signaling events in DosH, and the role of the relatively flexible side chain of the crucial methionine 95 residue, by combining site-directed mutagenesis, femtosecond spectroscopy, and molecular dynamics simulations
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