Ice thickness control and measurement in the VitroJet for time-efficient single particle structure determination

Rene J M Henderikx; Maaike J G Schotman; Saba Shahzad; Simon A Fromm; Daniel Mann; Julian Hennies; Thomas V Heidler; Dariush Ashtiani; Wim J H Hagen; Roger J M Jeurissen; Simone Mattei; Peter J Peters; Carsten Sachse; Bart W A M M Beulen

doi:10.1016/j.jsb.2024.108139

Ice thickness control and measurement in the VitroJet for time-efficient single particle structure determination

Rene J M Henderikx^*, Maaike J G Schotman, Saba Shahzad, Simon A Fromm, Daniel Mann, Julian Hennies, Thomas V Heidler, Dariush Ashtiani, Wim J H Hagen, Roger J M Jeurissen, Simone Mattei, Peter J Peters, Carsten Sachse, Bart W A M M Beulen^*

^*Corresponding author for this work

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

Abstract

Embedding biomolecules in vitreous ice of optimal thickness is critical for structure determination by cryo-electron microscopy. Ice thickness assessment and selection of suitable holes for data collection are currently part of time-consuming preparatory routines performed on expensive electron microscopes. To address this challenge, a routine has been developed to measure ice thickness during sample preparation using an optical camera integrated in the VitroJet. This method allows to estimate the ice thickness with an error below ±20 nm for ice layers in the range of 0-70 nm. Additionally, we characterized the influence of pin printing parameters and found that the median ice thickness can be reproduced with a standard deviation below ±11 nm for thicknesses up to 75 nm. Therefore, the ice thickness of buffer-suspended holes on an EM grid can be tuned and measured within the working range relevant for single particle cryo-EM. Single particle structures of apoferritin were determined at two distinct thicknesses of 30 nm and 70 nm. These reconstructions demonstrate the importance of ice thickness for time-efficient cryo-EM structure determination.

Original language	English
Article number	108139
Pages (from-to)	13
Journal	Journal of Structural Biology
Volume	216
Issue number	4
DOIs	https://doi.org/10.1016/j.jsb.2024.108139
Publication status	Published - 20 Oct 2024

Keywords

Ice thickness
Measurement
Reproducibility
Sample preparation
VitroJet
cryo-EM

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10.1016/j.jsb.2024.108139Licence: CC BY-NC-ND

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Henderikx, R. J. M., Schotman, M. J. G., Shahzad, S., Fromm, S. A., Mann, D., Hennies, J., Heidler, T. V., Ashtiani, D., Hagen, W. J. H., Jeurissen, R. J. M., Mattei, S., Peters, P. J., Sachse, C., & Beulen, B. W. A. M. M. (2024). Ice thickness control and measurement in the VitroJet for time-efficient single particle structure determination. Journal of Structural Biology, 216(4), 13. Article 108139. https://doi.org/10.1016/j.jsb.2024.108139

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title = "Ice thickness control and measurement in the VitroJet for time-efficient single particle structure determination",

abstract = "Embedding biomolecules in vitreous ice of optimal thickness is critical for structure determination by cryo-electron microscopy. Ice thickness assessment and selection of suitable holes for data collection are currently part of time-consuming preparatory routines performed on expensive electron microscopes. To address this challenge, a routine has been developed to measure ice thickness during sample preparation using an optical camera integrated in the VitroJet. This method allows to estimate the ice thickness with an error below ±20 nm for ice layers in the range of 0-70 nm. Additionally, we characterized the influence of pin printing parameters and found that the median ice thickness can be reproduced with a standard deviation below ±11 nm for thicknesses up to 75 nm. Therefore, the ice thickness of buffer-suspended holes on an EM grid can be tuned and measured within the working range relevant for single particle cryo-EM. Single particle structures of apoferritin were determined at two distinct thicknesses of 30 nm and 70 nm. These reconstructions demonstrate the importance of ice thickness for time-efficient cryo-EM structure determination.",

keywords = "Ice thickness, Measurement, Reproducibility, Sample preparation, VitroJet, cryo-EM",

author = "Henderikx, {Rene J M} and Schotman, {Maaike J G} and Saba Shahzad and Fromm, {Simon A} and Daniel Mann and Julian Hennies and Heidler, {Thomas V} and Dariush Ashtiani and Hagen, {Wim J H} and Jeurissen, {Roger J M} and Simone Mattei and Peters, {Peter J} and Carsten Sachse and Beulen, {Bart W A M M}",

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doi = "10.1016/j.jsb.2024.108139",

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Henderikx, RJM, Schotman, MJG, Shahzad, S, Fromm, SA, Mann, D, Hennies, J, Heidler, TV, Ashtiani, D, Hagen, WJH, Jeurissen, RJM, Mattei, S, Peters, PJ, Sachse, C & Beulen, BWAMM 2024, 'Ice thickness control and measurement in the VitroJet for time-efficient single particle structure determination', Journal of Structural Biology, vol. 216, no. 4, 108139, pp. 13. https://doi.org/10.1016/j.jsb.2024.108139

TY - JOUR

T1 - Ice thickness control and measurement in the VitroJet for time-efficient single particle structure determination

AU - Henderikx, Rene J M

AU - Schotman, Maaike J G

AU - Shahzad, Saba

AU - Fromm, Simon A

AU - Mann, Daniel

AU - Hennies, Julian

AU - Heidler, Thomas V

AU - Ashtiani, Dariush

AU - Hagen, Wim J H

AU - Jeurissen, Roger J M

AU - Mattei, Simone

AU - Peters, Peter J

AU - Sachse, Carsten

AU - Beulen, Bart W A M M

PY - 2024/10/20

Y1 - 2024/10/20

N2 - Embedding biomolecules in vitreous ice of optimal thickness is critical for structure determination by cryo-electron microscopy. Ice thickness assessment and selection of suitable holes for data collection are currently part of time-consuming preparatory routines performed on expensive electron microscopes. To address this challenge, a routine has been developed to measure ice thickness during sample preparation using an optical camera integrated in the VitroJet. This method allows to estimate the ice thickness with an error below ±20 nm for ice layers in the range of 0-70 nm. Additionally, we characterized the influence of pin printing parameters and found that the median ice thickness can be reproduced with a standard deviation below ±11 nm for thicknesses up to 75 nm. Therefore, the ice thickness of buffer-suspended holes on an EM grid can be tuned and measured within the working range relevant for single particle cryo-EM. Single particle structures of apoferritin were determined at two distinct thicknesses of 30 nm and 70 nm. These reconstructions demonstrate the importance of ice thickness for time-efficient cryo-EM structure determination.

AB - Embedding biomolecules in vitreous ice of optimal thickness is critical for structure determination by cryo-electron microscopy. Ice thickness assessment and selection of suitable holes for data collection are currently part of time-consuming preparatory routines performed on expensive electron microscopes. To address this challenge, a routine has been developed to measure ice thickness during sample preparation using an optical camera integrated in the VitroJet. This method allows to estimate the ice thickness with an error below ±20 nm for ice layers in the range of 0-70 nm. Additionally, we characterized the influence of pin printing parameters and found that the median ice thickness can be reproduced with a standard deviation below ±11 nm for thicknesses up to 75 nm. Therefore, the ice thickness of buffer-suspended holes on an EM grid can be tuned and measured within the working range relevant for single particle cryo-EM. Single particle structures of apoferritin were determined at two distinct thicknesses of 30 nm and 70 nm. These reconstructions demonstrate the importance of ice thickness for time-efficient cryo-EM structure determination.

KW - Ice thickness

KW - Measurement

KW - Reproducibility

KW - Sample preparation

KW - VitroJet

KW - cryo-EM

U2 - 10.1016/j.jsb.2024.108139

DO - 10.1016/j.jsb.2024.108139

M3 - Article

SN - 1047-8477

VL - 216

SP - 13

JO - Journal of Structural Biology

JF - Journal of Structural Biology

IS - 4

M1 - 108139

ER -

Ice thickness control and measurement in the VitroJet for time-efficient single particle structure determination

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Keywords

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