The emerging role of hydrogen bond interactions in polyglutamine structure, stability and association

Natasha H. Rhys; Lorna Dougan

doi:10.1039/C2SM27565A

The emerging role of hydrogen bond interactions in polyglutamine structure, stability and association

Natasha H. Rhys, Lorna Dougan

University of Leeds

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

Polyglutamine regions in proteins have been associated with protein aggregation and the development of serious neurodegenerative diseases. Using a bottom-up approach, the molecular properties of glutamine and single polyglutamine chains can be understood, providing a promising route to uncover the mechanisms of polyglutamine-related protein aggregation. In this article we highlight recent advances in the study of both glutamine and polyglutamine using novel biophysical tools. A recurring theme in these studies is the importance of hydrogen bonding in driving glutamine association.

Original language	English
Pages (from-to)	2359-2364
Journal	Soft Matter
Volume	9
Early online date	21 Dec 2012
DOIs	https://doi.org/10.1039/C2SM27565A
Publication status	Published - 2013

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title = "The emerging role of hydrogen bond interactions in polyglutamine structure, stability and association",

abstract = "Polyglutamine regions in proteins have been associated with protein aggregation and the development of serious neurodegenerative diseases. Using a bottom-up approach, the molecular properties of glutamine and single polyglutamine chains can be understood, providing a promising route to uncover the mechanisms of polyglutamine-related protein aggregation. In this article we highlight recent advances in the study of both glutamine and polyglutamine using novel biophysical tools. A recurring theme in these studies is the importance of hydrogen bonding in driving glutamine association.",

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AU - Dougan, Lorna

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AB - Polyglutamine regions in proteins have been associated with protein aggregation and the development of serious neurodegenerative diseases. Using a bottom-up approach, the molecular properties of glutamine and single polyglutamine chains can be understood, providing a promising route to uncover the mechanisms of polyglutamine-related protein aggregation. In this article we highlight recent advances in the study of both glutamine and polyglutamine using novel biophysical tools. A recurring theme in these studies is the importance of hydrogen bonding in driving glutamine association.

U2 - 10.1039/C2SM27565A

DO - 10.1039/C2SM27565A

M3 - Article

SN - 1744-683X

VL - 9

SP - 2359

EP - 2364

JO - Soft Matter

JF - Soft Matter

ER -

The emerging role of hydrogen bond interactions in polyglutamine structure, stability and association

Abstract

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