Navigate Flying Molecular Elephants Safely to the Ground: Mass-Selective Soft Landing up to the Mega-Dalton Range by Electrospray Controlled Ion-Beam Deposition

Walz, Andreas; Stoiber, Karolina; Huettig, Annette; Schlichting, Hartmut; Barth, Johannes V.

doi:10.1021/acs.analchem.1c04495

Cited by 10 publications

(12 citation statements)

References 230 publications

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“…Here, using low gradients, the E tot distribution (FWHM per charge) is sharper than previously reported literature values (FWHM per charge), ,,, pointing to gentle conditions in which gas-phase activation is minimal. Given that the lower gradient conditions also achieved high transmission and good beam focus, we retained them for all other experiments presented here.…”

Section: Resultscontrasting

confidence: 61%

“…Electrospray ion beam deposition (ES-IBD) is a preparative mass spectrometry , technique, capable of producing highly purified molecular samples for single molecule imaging. It is routinely used for SPM with smaller (bio)molecules ,− and has been demonstrated also for TEM, − LEEH, , and recently cryo-EM. , In contrast to organic molecular beam epitaxy (OMBE), , ES-IBD is not limited to small and volatile molecules. In ES-IBD, molecules are ionized in an electrospray ion source, transferred into the gas phase, and mass-analyzed in a vacuum.…”

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confidence: 99%

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A Preparative Mass Spectrometer to Deposit Intact Large Native Protein Complexes

et al. 2022

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Electrospray ion-beam deposition (ES-IBD) is a versatile tool to study the structure and reactivity of molecules from small metal clusters to large protein assemblies. It brings molecules gently into the gas phase, where they can be accurately manipulated and purified, followed by controlled deposition onto various substrates. In combination with imaging techniques, direct structural information on well-defined molecules can be obtained, which is essential to test and interpret results from indirect mass spectrometry techniques. To date, ion-beam deposition experiments are limited to a small number of custom instruments worldwide, and there are no commercial alternatives. Here we present a module that adds ion-beam deposition capabilities to a popular commercial MS platform (Thermo Scientific Q Exactive UHMR mass spectrometer). This combination significantly reduces the overhead associated with custom instruments, while benefiting from established high performance and reliability. We present current performance characteristics including beam intensity, landing-energy control, and deposition spot size for a broad range of molecules. In combination with atomic force microscopy (AFM) and transmission electron microscopy (TEM), we distinguish near-native from unfolded proteins and show retention of the native shape of protein assemblies after dehydration and deposition. Further, we use an enzymatic assay to quantify the activity of a noncovalent protein complex after deposition on a dry surface. Together, these results not only indicate a great potential of ES-IBD for applications in structural biology, but also outline the challenges that need to be solved for it to reach its full potential.

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Section: Resultscontrasting

confidence: 61%

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confidence: 99%

A Preparative Mass Spectrometer to Deposit Intact Large Native Protein Complexes

et al. 2022

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“…Using digital waveforms, the stability diagram can be manipulated by changing the duty cycle to move stability zones to a = 0. , This removes the requirement for scanning the DC voltage to perform ion isolation in a mass filter. By removing the necessity for generating very high voltages, high mass-to-charge ions can be readily detected. − …”

Section: Introductionmentioning

confidence: 99%

Optimization of a Digital Mass Filter for the Isolation of Intact Protein Complexes in Stability Zone 1,1

et al. 2023

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Digital mass filters are advantageous for the analysis of large molecules due to the ability to perform ion isolation of high-m/z ions without the generation of very high radio frequency (RF) and DC voltages. Experimentally determined Mathieu stability diagrams of stability zone 1,1 for capacitively coupled digital waveforms show a voltage offset between the quadrupole rod pairs is introduced by the capacitors which is dependent on the voltage magnitude of the waveform and the duty cycle. This changes the ion's a value from a = 0 to a < 0. These effects are illustrated for isolation for single-charge states for various protein complexes up to 800 kDa (GroEL) for stability zone 1,1. Isolation resolving power (m/Δm) of approximately 280 was achieved for an ion of m/z 12,315 (z = 65+ for 800.5 kDa GroEL D398A), which corresponds to an m/z window of 44.

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“…Ion soft landing (ISL) is a versatile technique that facilitates the preparation and modification of homogeneous films of mass-selected polyatomic ions in predetermined charge states through controlled deposition of gas-phase ions onto surfaces. [13][14][15][16][17][18][19][20][21] This distinguishing capability allows supported ions to be investigated in the absence of interference from counterions, solvent molecules, and other impurities that are present at interfaces prepared using solution based deposition. 22,23 In addition, soft landed ions are deposited without aggregation and crystallite formation.…”

Section: Introductionmentioning

confidence: 99%

Influence of surface and intermolecular interactions on the properties of supported polyoxometalates

et al. 2023

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Navigate Flying Molecular Elephants Safely to the Ground: Mass-Selective Soft Landing up to the Mega-Dalton Range by Electrospray Controlled Ion-Beam Deposition

Cited by 10 publications

References 230 publications

A Preparative Mass Spectrometer to Deposit Intact Large Native Protein Complexes

A Preparative Mass Spectrometer to Deposit Intact Large Native Protein Complexes

Optimization of a Digital Mass Filter for the Isolation of Intact Protein Complexes in Stability Zone 1,1

Influence of surface and intermolecular interactions on the properties of supported polyoxometalates

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