Effects of Folding on Metalloprotein Active Sites

Experimental data for the unfolding of cytochrome c and azurin by guanidinium chloride (GuHCl) are used to construct free-energy diagrams for the folding of the oxidized and reduced proteins. With cytochrome c, the driving force for folding the reduced protein is larger than that for the oxidized fo...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 1997-04, Vol.94 (9), p.4246-4249
Hauptverfasser: Winkler, Jay R., Wittung-Stafshede, Pernilla, Leckner, Johan, Malmstrom, Bo G., Gray, Harry B.
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Sprache:eng
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Zusammenfassung:Experimental data for the unfolding of cytochrome c and azurin by guanidinium chloride (GuHCl) are used to construct free-energy diagrams for the folding of the oxidized and reduced proteins. With cytochrome c, the driving force for folding the reduced protein is larger than that for the oxidized form. Both the oxidized and the reduced folded forms of yeast cytochrome c are less stable than the corresponding states of the horse protein. Due to the covalent attachment of the heme and its fixed tetragonal coordination geometry, cytochrome c folding can be described by a two-state model. A thermodynamic cycle leads to an expression for the difference in self-exchange reorganization energies for the folded and unfolded proteins. The reorganization energy for electron exchange in the folded protein is approximately 0.5 eV smaller than that for a heme in aqueous solution. The finding that reduced azurin unfolds at lower GuHCl concentrations than the oxidized protein suggests that the coordination structure of copper is different in oxidized and reduced unfolded states: it is likely that the geometry of CuIin the unfolded protein is linear or trigonal, whereas CuIIprefers to be tetragonal. The evidence indicates that protein folding lowers the azurin reorganization energy by roughly 1.7 eV relative to an aqueous Cu(1,10-phenanthroline)2 2+/+reference system.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.94.9.4246