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Conformational Properties of the Unfolded State of Im7 in Nondenaturing Conditions

The unfolded ensemble in aqueous solution represents the starting point of protein folding. Characterisation of this species is often difficult since the native state is usually predominantly populated at equilibrium. Previous work has shown that the four-helix protein, Im7 (immunity protein 7), fol...

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Autores principales: Pashley, Clare L., Morgan, Gareth J., Kalverda, Arnout P., Thompson, Gary S., Kleanthous, Colin, Radford, Sheena E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2012
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3314952/
https://www.ncbi.nlm.nih.gov/pubmed/22226836
http://dx.doi.org/10.1016/j.jmb.2011.12.041
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author Pashley, Clare L.
Morgan, Gareth J.
Kalverda, Arnout P.
Thompson, Gary S.
Kleanthous, Colin
Radford, Sheena E.
author_facet Pashley, Clare L.
Morgan, Gareth J.
Kalverda, Arnout P.
Thompson, Gary S.
Kleanthous, Colin
Radford, Sheena E.
author_sort Pashley, Clare L.
collection PubMed
description The unfolded ensemble in aqueous solution represents the starting point of protein folding. Characterisation of this species is often difficult since the native state is usually predominantly populated at equilibrium. Previous work has shown that the four-helix protein, Im7 (immunity protein 7), folds via an on-pathway intermediate. While the transition states and folding intermediate have been characterised in atomistic detail, knowledge of the unfolded ensemble under the same ambient conditions remained sparse. Here, we introduce destabilising amino acid substitutions into the sequence of Im7, such that the unfolded state becomes predominantly populated at equilibrium in the absence of denaturant. Using far- and near-UV CD, fluorescence, urea titration and heteronuclear NMR experiments, we show that three amino acid substitutions (L18A–L19A–L37A) are sufficient to prevent Im7 folding, such that the unfolded state is predominantly populated at equilibrium. Using measurement of chemical shifts, (15)N transverse relaxation rates and sedimentation coefficients, we show that the unfolded species of L18A–L19A–L37A deviates significantly from random-coil behaviour. Specifically, we demonstrate that this unfolded species is compact (R(h) = 25 Å) relative to the urea-denatured state (R(h) ≥ 30 Å) and contains local clusters of hydrophobic residues in regions that correspond to the four helices in the native state. Despite these interactions, there is no evidence for long-range stabilising tertiary interactions or persistent helical structure. The results reveal an unfolded ensemble that is conformationally restricted in regions of the polypeptide chain that ultimately form helices I, II and IV in the native state.
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spelling pubmed-33149522012-04-11 Conformational Properties of the Unfolded State of Im7 in Nondenaturing Conditions Pashley, Clare L. Morgan, Gareth J. Kalverda, Arnout P. Thompson, Gary S. Kleanthous, Colin Radford, Sheena E. J Mol Biol Article The unfolded ensemble in aqueous solution represents the starting point of protein folding. Characterisation of this species is often difficult since the native state is usually predominantly populated at equilibrium. Previous work has shown that the four-helix protein, Im7 (immunity protein 7), folds via an on-pathway intermediate. While the transition states and folding intermediate have been characterised in atomistic detail, knowledge of the unfolded ensemble under the same ambient conditions remained sparse. Here, we introduce destabilising amino acid substitutions into the sequence of Im7, such that the unfolded state becomes predominantly populated at equilibrium in the absence of denaturant. Using far- and near-UV CD, fluorescence, urea titration and heteronuclear NMR experiments, we show that three amino acid substitutions (L18A–L19A–L37A) are sufficient to prevent Im7 folding, such that the unfolded state is predominantly populated at equilibrium. Using measurement of chemical shifts, (15)N transverse relaxation rates and sedimentation coefficients, we show that the unfolded species of L18A–L19A–L37A deviates significantly from random-coil behaviour. Specifically, we demonstrate that this unfolded species is compact (R(h) = 25 Å) relative to the urea-denatured state (R(h) ≥ 30 Å) and contains local clusters of hydrophobic residues in regions that correspond to the four helices in the native state. Despite these interactions, there is no evidence for long-range stabilising tertiary interactions or persistent helical structure. The results reveal an unfolded ensemble that is conformationally restricted in regions of the polypeptide chain that ultimately form helices I, II and IV in the native state. Elsevier 2012-02-17 /pmc/articles/PMC3314952/ /pubmed/22226836 http://dx.doi.org/10.1016/j.jmb.2011.12.041 Text en © 2012 Elsevier Ltd. https://creativecommons.org/licenses/by/3.0/ Open Access under CC BY 3.0 (https://creativecommons.org/licenses/by/3.0/) license
spellingShingle Article
Pashley, Clare L.
Morgan, Gareth J.
Kalverda, Arnout P.
Thompson, Gary S.
Kleanthous, Colin
Radford, Sheena E.
Conformational Properties of the Unfolded State of Im7 in Nondenaturing Conditions
title Conformational Properties of the Unfolded State of Im7 in Nondenaturing Conditions
title_full Conformational Properties of the Unfolded State of Im7 in Nondenaturing Conditions
title_fullStr Conformational Properties of the Unfolded State of Im7 in Nondenaturing Conditions
title_full_unstemmed Conformational Properties of the Unfolded State of Im7 in Nondenaturing Conditions
title_short Conformational Properties of the Unfolded State of Im7 in Nondenaturing Conditions
title_sort conformational properties of the unfolded state of im7 in nondenaturing conditions
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3314952/
https://www.ncbi.nlm.nih.gov/pubmed/22226836
http://dx.doi.org/10.1016/j.jmb.2011.12.041
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