Structural information on partially folded forms is important for a deeper understanding of the folding mechanism(s) and the factors affecting protein stabilization. The non-native compact state of equine cytochrome c stabilized by salts in an acidic environment (pH 2.0-2.2), called the A-state, is considered a suitable model for the molten globule of cytochrome c, as it possesses a native-like alpha-helix conformation but a fluctuating tertiary structure. In this article, we extend our knowledge on anion-induced protein stabilization by determining the effect of anions carrying a double negative charge; unlike monovalent anions (which are thought to exert an 'ionic atmosphere' effect on the macromolecule), divalent anions are thought to bind to the protein at specific surface sites. Our data indicate that divalent anions, in comparison to monovalent ions, have a greater tendency to stabilize the native-like M-Fe(III)-H coordinated state of the protein. The possibility that divalent anions may bind to the protein at the same sites previously identified for polyvalent anions was evaluated. To investigate this issue, the behavior of the K88E, K88E/T89K and K13N mutants was investigated. The data obtained indicate that the mutated residues, which contribute to form the binding sites of polyanions, are important for stabilization of the native conformation; the mutants investigated, in fact, all show an increased amount of the misligated H-Fe(III)-H state and, with respect to wild-type cytochrome c, appear to be less sensitive to the presence of the anion. These residues also modulate the conformation of unfolded cytochrome c, influencing its spin state and the coordination to the prosthetic group.

Sinibaldi, F., Piro, M.c., Coletta, M., Santucci, R. (2006). Salt-induced formation of the A-state of ferricytochrome c--effect of the anion charge on protein structure. THE FEBS JOURNAL, 273(23), 5347-5357 [10.1111/j.1742-4658.2006.05527.x].

Salt-induced formation of the A-state of ferricytochrome c--effect of the anion charge on protein structure

SINIBALDI, FEDERICA;PIRO, MARIA CRISTINA;COLETTA, MASSIMILIANO;SANTUCCI, ROBERTO
2006-12-01

Abstract

Structural information on partially folded forms is important for a deeper understanding of the folding mechanism(s) and the factors affecting protein stabilization. The non-native compact state of equine cytochrome c stabilized by salts in an acidic environment (pH 2.0-2.2), called the A-state, is considered a suitable model for the molten globule of cytochrome c, as it possesses a native-like alpha-helix conformation but a fluctuating tertiary structure. In this article, we extend our knowledge on anion-induced protein stabilization by determining the effect of anions carrying a double negative charge; unlike monovalent anions (which are thought to exert an 'ionic atmosphere' effect on the macromolecule), divalent anions are thought to bind to the protein at specific surface sites. Our data indicate that divalent anions, in comparison to monovalent ions, have a greater tendency to stabilize the native-like M-Fe(III)-H coordinated state of the protein. The possibility that divalent anions may bind to the protein at the same sites previously identified for polyvalent anions was evaluated. To investigate this issue, the behavior of the K88E, K88E/T89K and K13N mutants was investigated. The data obtained indicate that the mutated residues, which contribute to form the binding sites of polyanions, are important for stabilization of the native conformation; the mutants investigated, in fact, all show an increased amount of the misligated H-Fe(III)-H state and, with respect to wild-type cytochrome c, appear to be less sensitive to the presence of the anion. These residues also modulate the conformation of unfolded cytochrome c, influencing its spin state and the coordination to the prosthetic group.
dic-2006
Pubblicato
Rilevanza internazionale
Articolo
Sì, ma tipo non specificato
Settore BIO/10 - BIOCHIMICA
English
Con Impact Factor ISI
Sulfates; Animals; Anions; Dose-Response Relationship, Drug; Temperature; Chlorides; Perchloric Acid; Circular Dichroism; Horses; Binding Sites; Kinetics; Cytochromes c; Protein Folding; Time Factors; Protein Conformation
Sinibaldi, F., Piro, M.c., Coletta, M., Santucci, R. (2006). Salt-induced formation of the A-state of ferricytochrome c--effect of the anion charge on protein structure. THE FEBS JOURNAL, 273(23), 5347-5357 [10.1111/j.1742-4658.2006.05527.x].
Sinibaldi, F; Piro, Mc; Coletta, M; Santucci, R
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/29374
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