The unfolding and refolding of a monomeric mutant of copper-zinc superoxide dismutase was investigated by NMR spectroscopy in the copper-reduced form and by using guanidinium chloride as denaturing agent. It is found that the protein gives rise to a series of intermediates at low guanidinium concentration and to a globular unfolded state at a guanidinium concentration higher than 3.5 M, which closely resembles a random coil structure, but with a high degree of compactness. At 1.9 M guanidinium, the intermediate and unfolded forms are present in equimolar ratio. The intermediate states show changes in the 1H and 15N chemical shifts with respect to the native protein. The perturbations on the signals occur at different GdmCl concentrations for different regions of the protein. The residues affected first are located in the loops and in the β3 strand, followed by changes in the sheet formed by β4, β5, β7, β8 strands. The transition into the unfolded structure implies the detachment of the metal ions from the native coordination sites, even if non-specific interactions with the metal ions remain. R1, R2, {1H}-15N NOE, and CLEANEX experiments provide information on the mobility at the various stages showing how protein rigidity is lost during unfolding. The whole process is reversible. The oxidized species behaves in a similar way. The apo protein shows formation of 50% of the unfolded species at a guanidinium concentration of 0.4 M, thus demonstrating the importance of metal ions with respect to the unfolding process and protein structure stability. Hints to understand the whole folding process are obtained and discussed. © 2003 Elsevier Science Ltd. All rights reserved.

Superoxide dismutase folding/unfolding pathway: role of the metal ions in modulating structural and dynamical features / M. Assfalg; L. Banci; I. Bertini; P. Turano; P.R.Vasos. - In: JOURNAL OF MOLECULAR BIOLOGY. - ISSN 0022-2836. - STAMPA. - 330:(2003), pp. 145-158. [10.1016/S0022-2836(03)00533-3]

Superoxide dismutase folding/unfolding pathway: role of the metal ions in modulating structural and dynamical features.

BANCI, LUCIA;BERTINI, IVANO;TURANO, PAOLA;
2003

Abstract

The unfolding and refolding of a monomeric mutant of copper-zinc superoxide dismutase was investigated by NMR spectroscopy in the copper-reduced form and by using guanidinium chloride as denaturing agent. It is found that the protein gives rise to a series of intermediates at low guanidinium concentration and to a globular unfolded state at a guanidinium concentration higher than 3.5 M, which closely resembles a random coil structure, but with a high degree of compactness. At 1.9 M guanidinium, the intermediate and unfolded forms are present in equimolar ratio. The intermediate states show changes in the 1H and 15N chemical shifts with respect to the native protein. The perturbations on the signals occur at different GdmCl concentrations for different regions of the protein. The residues affected first are located in the loops and in the β3 strand, followed by changes in the sheet formed by β4, β5, β7, β8 strands. The transition into the unfolded structure implies the detachment of the metal ions from the native coordination sites, even if non-specific interactions with the metal ions remain. R1, R2, {1H}-15N NOE, and CLEANEX experiments provide information on the mobility at the various stages showing how protein rigidity is lost during unfolding. The whole process is reversible. The oxidized species behaves in a similar way. The apo protein shows formation of 50% of the unfolded species at a guanidinium concentration of 0.4 M, thus demonstrating the importance of metal ions with respect to the unfolding process and protein structure stability. Hints to understand the whole folding process are obtained and discussed. © 2003 Elsevier Science Ltd. All rights reserved.
2003
330
145
158
M. Assfalg; L. Banci; I. Bertini; P. Turano; P.R.Vasos
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/309748
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 54
  • ???jsp.display-item.citation.isi??? 55
social impact