Probing allosteric mechanisms using native mass spectrometry

Michal Sharon; Amnon Horovitz

doi:10.1016/j.sbi.2015.05.002

Probing allosteric mechanisms using native mass spectrometry

Michal Sharon, Amnon Horovitz

Weizmann Institute of Science

Research output: Contribution to journal › Review article › peer-review

Abstract

Native mass spectrometry (MS) and ion mobility MS provide a way to discriminate between various allosteric mechanisms that cannot be distinguished using ensemble measurements of ligand binding in bulk protein solutions. Native MS, which yields mass measurements of intact assemblies, can be used to determine the values of ligand binding constants of multimeric allosteric proteins, thereby providing a way to distinguish, for example, between concerted and sequential allosteric models. Native MS can also be employed to study cooperativity owing to ligand-modulated protein oligomerization. The rotationally averaged cross-section areas of complexes obtained by ion mobility MS can be used to distinguish between induced fit and conformational selection. Native MS and its allied techniques are, therefore, becoming increasingly powerful tools for dissecting allosteric mechanisms.

Original language	English
Pages (from-to)	7-16
Number of pages	10
Journal	Current Opinion in Structural Biology
Volume	34
Early online date	22 May 2015
DOIs	https://doi.org/10.1016/j.sbi.2015.05.002
State	Published - Oct 2015

All Science Journal Classification (ASJC) codes

Molecular Biology
Structural Biology

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title = "Probing allosteric mechanisms using native mass spectrometry",

abstract = "Native mass spectrometry (MS) and ion mobility MS provide a way to discriminate between various allosteric mechanisms that cannot be distinguished using ensemble measurements of ligand binding in bulk protein solutions. Native MS, which yields mass measurements of intact assemblies, can be used to determine the values of ligand binding constants of multimeric allosteric proteins, thereby providing a way to distinguish, for example, between concerted and sequential allosteric models. Native MS can also be employed to study cooperativity owing to ligand-modulated protein oligomerization. The rotationally averaged cross-section areas of complexes obtained by ion mobility MS can be used to distinguish between induced fit and conformational selection. Native MS and its allied techniques are, therefore, becoming increasingly powerful tools for dissecting allosteric mechanisms.",

author = "Michal Sharon and Amnon Horovitz",

note = "Israel Science Foundation [158/12]; Minerva Foundation; Federal German Ministry for Education and Research; European Research Council (ERC) (Horizon)/ERC Grant [636752]; Israel Cancer Research Foundation; Abisch-Frenkel Foundation, Switzerland",

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AU - Horovitz, Amnon

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AB - Native mass spectrometry (MS) and ion mobility MS provide a way to discriminate between various allosteric mechanisms that cannot be distinguished using ensemble measurements of ligand binding in bulk protein solutions. Native MS, which yields mass measurements of intact assemblies, can be used to determine the values of ligand binding constants of multimeric allosteric proteins, thereby providing a way to distinguish, for example, between concerted and sequential allosteric models. Native MS can also be employed to study cooperativity owing to ligand-modulated protein oligomerization. The rotationally averaged cross-section areas of complexes obtained by ion mobility MS can be used to distinguish between induced fit and conformational selection. Native MS and its allied techniques are, therefore, becoming increasingly powerful tools for dissecting allosteric mechanisms.

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Probing allosteric mechanisms using native mass spectrometry

Abstract

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