We present a detailed structural characterization of the intermediate state populated during the folding and unfolding of the bacterial immunity protein Im7. We achieve this result by incorporating a variety of experimental data available for this species in molecular dynamics simulations. First, we define the structure of the exchange-competent intermediate state of Im7 by using equilibrium hydrogen-exchange protection factors. Second, we use this ensemble to predict Φ-values and compare the results with the experimentally determined Φ-values of the kinetic refolding intermediate. Third, we predict chemical-shift measurements and compare them with the measured chemical shifts of a mutational variant of Im7 for which the kinetic folding intermediate is the most stable state populated at equilibrium. Remarkably, we found that the properties of the latter two species are predicted with high accuracy from the exchange-competent intermediate that we determined, suggesting that these three states are characterized by a similar architecture in which helices I, II, and IV are aligned in a native-like, but reorganized, manner. Furthermore, the structural ensemble that we obtained enabled us to rationalize the results of tryptophan fluorescence experiments in the WT protein and a series of mutational variants. The results show that the integration of diverse sets of experimental data at relatively low structural resolution is a powerful approach that can provide insights into the structural organization of this conformationally heterogeneous three-helix intermediate with unprecedented detail and highlight the importance of both native and non-native interactions in stabilizing its structure. © 2005 by The National Academy of Sciences of the USA.

Gsponer J., Hopearuoho H., Whittaker S.B.-M., Spence G.R., Moore G.R., Paci E., et al. (2006). Determination of an ensemble of structures representing the intermediate state of the bacterial immunity protein Im7. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 103(1), 99-104 [10.1073/pnas.0508667102].

Determination of an ensemble of structures representing the intermediate state of the bacterial immunity protein Im7

Paci E.;
2006

Abstract

We present a detailed structural characterization of the intermediate state populated during the folding and unfolding of the bacterial immunity protein Im7. We achieve this result by incorporating a variety of experimental data available for this species in molecular dynamics simulations. First, we define the structure of the exchange-competent intermediate state of Im7 by using equilibrium hydrogen-exchange protection factors. Second, we use this ensemble to predict Φ-values and compare the results with the experimentally determined Φ-values of the kinetic refolding intermediate. Third, we predict chemical-shift measurements and compare them with the measured chemical shifts of a mutational variant of Im7 for which the kinetic folding intermediate is the most stable state populated at equilibrium. Remarkably, we found that the properties of the latter two species are predicted with high accuracy from the exchange-competent intermediate that we determined, suggesting that these three states are characterized by a similar architecture in which helices I, II, and IV are aligned in a native-like, but reorganized, manner. Furthermore, the structural ensemble that we obtained enabled us to rationalize the results of tryptophan fluorescence experiments in the WT protein and a series of mutational variants. The results show that the integration of diverse sets of experimental data at relatively low structural resolution is a powerful approach that can provide insights into the structural organization of this conformationally heterogeneous three-helix intermediate with unprecedented detail and highlight the importance of both native and non-native interactions in stabilizing its structure. © 2005 by The National Academy of Sciences of the USA.
2006
Gsponer J., Hopearuoho H., Whittaker S.B.-M., Spence G.R., Moore G.R., Paci E., et al. (2006). Determination of an ensemble of structures representing the intermediate state of the bacterial immunity protein Im7. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 103(1), 99-104 [10.1073/pnas.0508667102].
Gsponer J.; Hopearuoho H.; Whittaker S.B.-M.; Spence G.R.; Moore G.R.; Paci E.; Radford S.E.; Vendruscolo M.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/886199
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