VitroJet: new features and case studies

Rene J M Henderikx; Daniel Mann; Aušra Domanska; Jing Dong; Saba Shahzad; Behnam Lak; Aikaterini Filopoulou; Damian Ludig; Martin Grininger; Jeffrey Momoh; Elina Laanto; Hanna M Oksanen; Kyrylo Bisikalo; Pamela A Williams; Sarah J Butcher; Peter J Peters; Bart W A M M Beulen

doi:10.1107/S2059798324001852

VitroJet: new features and case studies

Rene J M Henderikx^*, Daniel Mann, Aušra Domanska, Jing Dong, Saba Shahzad, Behnam Lak, Aikaterini Filopoulou, Damian Ludig, Martin Grininger, Jeffrey Momoh, Elina Laanto, Hanna M Oksanen, Kyrylo Bisikalo, Pamela A Williams, Sarah J Butcher, Peter J Peters, Bart W A M M Beulen^*

^*Corresponding author for this work

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

Abstract

Single-particle cryo-electron microscopy has become a widely adopted method in structural biology due to many recent technological advances in microscopes, detectors and image processing. Before being able to inspect a biological sample in an electron microscope, it needs to be deposited in a thin layer on a grid and rapidly frozen. The VitroJet was designed with this aim, as well as avoiding the delicate manual handling and transfer steps that occur during the conventional grid-preparation process. Since its creation, numerous technical developments have resulted in a device that is now widely utilized in multiple laboratories worldwide. It features plasma treatment, low-volume sample deposition through pin printing, optical ice-thickness measurement and cryofixation of pre-clipped Autogrids through jet vitrification. This paper presents recent technical improvements to the VitroJet and the benefits that it brings to the cryo-EM workflow. A wide variety of applications are shown: membrane proteins, nucleosomes, fatty-acid synthase, Tobacco mosaic virus, lipid nanoparticles, tick-borne encephalitis viruses and bacteriophages. These case studies illustrate the advancement of the VitroJet into an instrument that enables accurate control and reproducibility, demonstrating its suitability for time-efficient cryo-EM structure determination.

Original language	English
Pages (from-to)	232-246
Number of pages	15
Journal	Acta Crystallographica. Section D: Structural Biology
Volume	80
Issue number	Pt 4
DOIs	https://doi.org/10.1107/S2059798324001852
Publication status	Published - 1 Apr 2024

Keywords

VitroJet
cryo-EM
ice thickness
jet vitrification
pin printing

Access to Document

10.1107/S2059798324001852Licence: CC BY

Cite this

Henderikx, R. J. M., Mann, D., Domanska, A., Dong, J., Shahzad, S., Lak, B., Filopoulou, A., Ludig, D., Grininger, M., Momoh, J., Laanto, E., Oksanen, H. M., Bisikalo, K., Williams, P. A., Butcher, S. J., Peters, P. J., & Beulen, B. W. A. M. M. (2024). VitroJet: new features and case studies. Acta Crystallographica. Section D: Structural Biology, 80(Pt 4), 232-246. https://doi.org/10.1107/S2059798324001852

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abstract = "Single-particle cryo-electron microscopy has become a widely adopted method in structural biology due to many recent technological advances in microscopes, detectors and image processing. Before being able to inspect a biological sample in an electron microscope, it needs to be deposited in a thin layer on a grid and rapidly frozen. The VitroJet was designed with this aim, as well as avoiding the delicate manual handling and transfer steps that occur during the conventional grid-preparation process. Since its creation, numerous technical developments have resulted in a device that is now widely utilized in multiple laboratories worldwide. It features plasma treatment, low-volume sample deposition through pin printing, optical ice-thickness measurement and cryofixation of pre-clipped Autogrids through jet vitrification. This paper presents recent technical improvements to the VitroJet and the benefits that it brings to the cryo-EM workflow. A wide variety of applications are shown: membrane proteins, nucleosomes, fatty-acid synthase, Tobacco mosaic virus, lipid nanoparticles, tick-borne encephalitis viruses and bacteriophages. These case studies illustrate the advancement of the VitroJet into an instrument that enables accurate control and reproducibility, demonstrating its suitability for time-efficient cryo-EM structure determination.",

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Henderikx, RJM, Mann, D, Domanska, A, Dong, J, Shahzad, S, Lak, B, Filopoulou, A, Ludig, D, Grininger, M, Momoh, J, Laanto, E, Oksanen, HM, Bisikalo, K, Williams, PA, Butcher, SJ, Peters, PJ & Beulen, BWAMM 2024, 'VitroJet: new features and case studies', Acta Crystallographica. Section D: Structural Biology, vol. 80, no. Pt 4, pp. 232-246. https://doi.org/10.1107/S2059798324001852

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AU - Henderikx, Rene J M

AU - Mann, Daniel

AU - Domanska, Aušra

AU - Dong, Jing

AU - Shahzad, Saba

AU - Lak, Behnam

AU - Filopoulou, Aikaterini

AU - Ludig, Damian

AU - Grininger, Martin

AU - Momoh, Jeffrey

AU - Laanto, Elina

AU - Oksanen, Hanna M

AU - Bisikalo, Kyrylo

AU - Williams, Pamela A

AU - Butcher, Sarah J

AU - Peters, Peter J

AU - Beulen, Bart W A M M

PY - 2024/4/1

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N2 - Single-particle cryo-electron microscopy has become a widely adopted method in structural biology due to many recent technological advances in microscopes, detectors and image processing. Before being able to inspect a biological sample in an electron microscope, it needs to be deposited in a thin layer on a grid and rapidly frozen. The VitroJet was designed with this aim, as well as avoiding the delicate manual handling and transfer steps that occur during the conventional grid-preparation process. Since its creation, numerous technical developments have resulted in a device that is now widely utilized in multiple laboratories worldwide. It features plasma treatment, low-volume sample deposition through pin printing, optical ice-thickness measurement and cryofixation of pre-clipped Autogrids through jet vitrification. This paper presents recent technical improvements to the VitroJet and the benefits that it brings to the cryo-EM workflow. A wide variety of applications are shown: membrane proteins, nucleosomes, fatty-acid synthase, Tobacco mosaic virus, lipid nanoparticles, tick-borne encephalitis viruses and bacteriophages. These case studies illustrate the advancement of the VitroJet into an instrument that enables accurate control and reproducibility, demonstrating its suitability for time-efficient cryo-EM structure determination.

AB - Single-particle cryo-electron microscopy has become a widely adopted method in structural biology due to many recent technological advances in microscopes, detectors and image processing. Before being able to inspect a biological sample in an electron microscope, it needs to be deposited in a thin layer on a grid and rapidly frozen. The VitroJet was designed with this aim, as well as avoiding the delicate manual handling and transfer steps that occur during the conventional grid-preparation process. Since its creation, numerous technical developments have resulted in a device that is now widely utilized in multiple laboratories worldwide. It features plasma treatment, low-volume sample deposition through pin printing, optical ice-thickness measurement and cryofixation of pre-clipped Autogrids through jet vitrification. This paper presents recent technical improvements to the VitroJet and the benefits that it brings to the cryo-EM workflow. A wide variety of applications are shown: membrane proteins, nucleosomes, fatty-acid synthase, Tobacco mosaic virus, lipid nanoparticles, tick-borne encephalitis viruses and bacteriophages. These case studies illustrate the advancement of the VitroJet into an instrument that enables accurate control and reproducibility, demonstrating its suitability for time-efficient cryo-EM structure determination.

KW - VitroJet

KW - cryo-EM

KW - ice thickness

KW - jet vitrification

KW - pin printing

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DO - 10.1107/S2059798324001852

M3 - Article

SN - 2059-7983

VL - 80

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JO - Acta Crystallographica. Section D: Structural Biology

JF - Acta Crystallographica. Section D: Structural Biology

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