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  • Title: Resonance Raman studies of cytochrome c' support the binding of NO and CO to opposite sides of the heme: implications for ligand discrimination in heme-based sensors.
    Author: Andrew CR, Green EL, Lawson DM, Eady RR.
    Journal: Biochemistry; 2001 Apr 03; 40(13):4115-22. PubMed ID: 11300792.
    Abstract:
    Resonance Raman (RR) studies have been conducted on Alcaligenes xylosoxidans cytochrome c', a mono-His ligated hemoprotein which reversibly binds NO and CO but not O(2). Recent crystallographic characterization of this protein has revealed the first example of a hemoprotein which can utilize both sides of its heme (distal and proximal) for binding exogenous ligands to its Fe center. The present RR investigation of the Fe coordination and heme pocket environments of ferrous, carbonyl, and nitrosyl forms of cytochrome c' in solution fully supports the structures determined by X-ray crystallography and offers insights into mechanisms of ligand discrimination in heme-based sensors. Ferrous cytochrome c' reacts with CO to form a six-coordinate heme-CO complex, whereas reaction with NO results in cleavage of the proximal linkage to give a five-coordinate heme-NO adduct, despite the relatively high stretching frequency (231 cm(-1)) of the ferrous Fe-N(His) bond. RR spectra of the six-coordinate CO adduct indicate that CO binds to the Fe in a nonpolar environment in line with its location in the hydrophobic distal heme pocket. On the other hand, RR data for the five-coordinate NO adduct suggest a positively polarized environment for the NO ligand, consistent with its binding close to Arg 124 on the opposite (proximal) side of the heme. Parallels between certain physicochemical properties of cytochrome c' and those of heme-based sensor proteins raise the possibility that the latter may also utilize both sides of their hemes to discriminate between NO and CO binding.
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