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  • Title: Identification of the predominant non-native histidine ligand in unfolded cytochrome c.
    Author: Colón W, Wakem LP, Sherman F, Roder H.
    Journal: Biochemistry; 1997 Oct 14; 36(41):12535-41. PubMed ID: 9376358.
    Abstract:
    The heme and its two axial ligands, His18 and Met80, play a central role in the folding/unfolding mechanism of cytochrome c. Because of the covalent heme attachment, His18 remains bound under typical denaturing conditions, while the more labile Met80 ligand is replaced by an alternate histidine ligand. To distinguish between the two possible non-native histidine ligands in horse cytochrome c, variants with a His26 to Gln or His33 to Asn substitution were prepared using a yeast expression system. Protonation of the non-native histidine ligand in the GuHCl-denatured state results in a pronounced blue shift of the Soret heme absorbance band (low-spin to high-spin transition). While substitution of His26 has no effect on the apparent pKa of this transition (5.7 +/- 0.05), the H33N variant exhibits a substantially higher pKa (6.1 +/- 0.05), indicating that His33 is the dominant sixth heme ligand in denatured cytochrome c and that His26 (or another nitrogenous group) acts as a ligand in the absence of a histidine at position 33. The kinetics of the pH-induced ligand dissociation shows two phases which were assigned to each of the two histidine ligands on the basis of their distinct temperature dependence. Despite their nearly identical equilibrium unfolding transitions, the two histidine mutants show differences in their folding kinetics. While the kinetic behavior of H26Q cyt c is very similar to that of the wild-type, the H33N mutation leads to loss of a kinetic phase with a rate in the 2-10 s-1 range that has previously been attributed to the rate-limiting dissociation of a trapped non-native histidine, which is thus identified as His33.
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