Interaction Enthalpy of Side Chain and Backbone Amides in Polyglutamine Solution Monomers and Fibrils

We determined an empirical correlation that relates the amide I vibrational band frequencies of the glutamine (Q) side chain to the strength of hydrogen bonding, van der Waals, and Lewis acid–base interactions of its primary amide carbonyl. We used this correlation to determine the Q side chain carb...

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Published in:The journal of physical chemistry letters 2018-04, Vol.9 (8), p.1944-1950
Main Authors: Punihaole, David, Jakubek, Ryan S, Workman, Riley J, Asher, Sanford A
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cited_by cdi_FETCH-LOGICAL-a345t-6f58ecba0a231ce9ec4950b05b7562c82de0ee0507c9d82b88995f1ced001eec3
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container_end_page 1950
container_issue 8
container_start_page 1944
container_title The journal of physical chemistry letters
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creator Punihaole, David
Jakubek, Ryan S
Workman, Riley J
Asher, Sanford A
description We determined an empirical correlation that relates the amide I vibrational band frequencies of the glutamine (Q) side chain to the strength of hydrogen bonding, van der Waals, and Lewis acid–base interactions of its primary amide carbonyl. We used this correlation to determine the Q side chain carbonyl interaction enthalpy (ΔH int) in monomeric and amyloid-like fibril conformations of D2Q10K2 (Q10). We independently verified these ΔH int values through molecular dynamics simulations that showed excellent agreement with experiments. We found that side chain–side chain and side chain–peptide backbone interactions in fibrils and monomers are more enthalpically favorable than are Q side chain–water interactions. Q10 fibrils also showed a more favorable ΔH int for side chain–side chain interactions compared to backbone–backbone interactions. This work experimentally demonstrates that interamide side chain interactions are important in the formation and stabilization of polyQ fibrils.
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title Interaction Enthalpy of Side Chain and Backbone Amides in Polyglutamine Solution Monomers and Fibrils
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