Defining the Stoichiometry and Cargo Load of Viral and Bacterial Nanoparticles by Orbitrap Mass Spectrometry

Accurate mass analysis can provide useful information on the stoichiometry and composition of protein-based particles, such as virus-like assemblies. For applications in nanotechnology and medicine, such nanoparticles are loaded with foreign cargos, making accurate mass information essential to defi...

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Veröffentlicht in:	Journal of the American Chemical Society 2014-05, Vol.136 (20), p.7295-7299
Hauptverfasser:	Snijder, Joost, van de Waterbeemd, Michiel, Damoc, Eugen, Denisov, Eduard, Grinfeld, Dmitry, Bennett, Antonette, Agbandje-McKenna, Mavis, Makarov, Alexander, Heck, Albert J. R
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Sprache:	eng
Schlagworte:	Adeno-associated virus Assemblies Bacteria Bacteria - chemistry Bacterial Proteins - chemistry capsid Capsid - chemistry Cargo coat proteins Dependoparvovirus Dependovirus - chemistry Encapsulation Mass Spectrometry medicine Nanoparticles Nanoparticles - chemistry Nanotechnology Proteins spectrometers Stoichiometry virus-like particles
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container_title	Journal of the American Chemical Society
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creator	Snijder, Joost van de Waterbeemd, Michiel Damoc, Eugen Denisov, Eduard Grinfeld, Dmitry Bennett, Antonette Agbandje-McKenna, Mavis Makarov, Alexander Heck, Albert J. R
description	Accurate mass analysis can provide useful information on the stoichiometry and composition of protein-based particles, such as virus-like assemblies. For applications in nanotechnology and medicine, such nanoparticles are loaded with foreign cargos, making accurate mass information essential to define the cargo load. Here, we describe modifications to an Orbitrap mass spectrometer that enable high mass analysis of several virus-like nanoparticles up to 4.5 MDa in mass. This allows the accurate determination of the composition of virus-like particles. The modified instrument is utilized to determine the cargo load of bacterial encapsulin nanoparticles that were engineered to encapsulate foreign cargo proteins. We find that encapsulin packages from 8 up to 12 cargo proteins, thereby quantifying cargo load but also showing the ensemble spread. In addition, we determined the previously unknown stoichiometry of the three different splice variants of the capsid protein in adeno-associated virus (AAV) capsids, showing that symmetry is broken and assembly is heterogeneous and stochastic. These results demonstrate the potential of high-resolution mass analysis of protein-based nanoparticles, with widespread applications in chemical biology and nanotechnology.
doi_str_mv	10.1021/ja502616y
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subjects	Adeno-associated virus Assemblies Bacteria Bacteria - chemistry Bacterial Proteins - chemistry capsid Capsid - chemistry Cargo coat proteins Dependoparvovirus Dependovirus - chemistry Encapsulation Mass Spectrometry medicine Nanoparticles Nanoparticles - chemistry Nanotechnology Proteins spectrometers Stoichiometry virus-like particles
title	Defining the Stoichiometry and Cargo Load of Viral and Bacterial Nanoparticles by Orbitrap Mass Spectrometry
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