Austin Z. Salome scite author profile

Native mass spectrometry (MS) is increasingly used to provide complementary data to electron microscopy (EM) for protein structure characterization. Beyond the ability to provide mass measurements of gas-phase biomolecular ions, MS instruments offer the ability to purify, select, and precisely control the spatial location of these ions. Here we present a modified Orbitrap MS system capable of depositing a native MS ion beam onto EM grids. We further describe the use of a chemical landing matrix that preserves the structural integrity of the deposited particles. With this system we obtain a three-dimensional reconstruction of the 800 kDa protein complex GroEL from gas-phase deposited GroEL ions. These data provide direct evidence that non-covalent protein complexes can indeed retain their condensed-phase structures following ionization and vaporization. Finally, we describe how further developments of this technology could pave the way to an integrated MS-EM technology with promise to provide improved cryo-EM sample preparation over conventional plunge-freezing techniques.

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Defining mitochondrial protein functions through deep multiomic profiling

Rensvold

Shishkova

Sverchkov

et al. 2022

Nature

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Selective binding of anions by rigidified nanojars: sulfate vs. carbonate

et al. 2021

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Onto Grid Purification and 3D Reconstruction of Protein Complexes Using Matrix-Landing Native Mass Spectrometry

et al. 2023

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Addressing mixtures and heterogeneity in structural biology requires approaches that can differentiate and separate structures based on mass and conformation. Mass spectrometry (MS) provides tools for measuring and isolating gas-phase ions. The development of native MS including electrospray ionization allowed for manipulation and analysis of intact noncovalent biomolecules as ions in the gas phase, leading to detailed measurements of structural heterogeneity. Conversely, transmission electron microscopy (TEM) generates detailed images of biomolecular complexes that show an overall structure. Our matrix-landing approach uses native MS to probe and select biomolecular ions of interest for subsequent TEM imaging, thus unifying information on mass, stoichiometry, heterogeneity, etc., available via native MS with TEM images. Here, we prepare TEM grids of protein complexes purified via quadrupolar isolation and matrix-landing and generate 3D reconstructions of the isolated complexes. Our results show that these complexes maintain their structure through gas-phase isolation.

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Matrix-Landing Mass Spectrometry for Electron Microscopy Imaging of Native Protein Complexes

et al. 2022

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Recently, we described the use of a chemical matrix for landing and preserving the cations of protein−protein complexes within a mass spectrometer (MS) instrument. By use of a glycerol-landing matrix, we used negative stain transmission electron microscopy (TEM) to obtain a three-dimensional (3D) reconstruction of landed GroEL complexes. Here, we investigate the utilities of other chemical matrices for their abilities to land, preserve, and allow for direct imaging of these cationic particles using TEM. We report here that poly(propylene) glycol (PPG) offers superior performance over glycerol for matrix landing. We demonstrated the utility of the PPG matrix landing using three protein−protein complexes�GroEL, the 20S proteasome core particle, and β-galactosidase�and obtained a 3D reconstruction of each complex from matrix-landed particles. These structures have no detectable differences from the structures obtained using conventional preparation methods, suggesting the structures are well preserved at least to the resolution limit of the reconstructions (∼20 Å). We conclude that matrix landing offers a direct approach to couple native MS with TEM for protein structure determination.

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Austin Z. Salome

Three-dimensional structure determination of protein complexes using matrix-landing mass spectrometry

Defining mitochondrial protein functions through deep multiomic profiling

Selective binding of anions by rigidified nanojars: sulfate vs. carbonate

Onto Grid Purification and 3D Reconstruction of Protein Complexes Using Matrix-Landing Native Mass Spectrometry

Matrix-Landing Mass Spectrometry for Electron Microscopy Imaging of Native Protein Complexes

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