Technology Network HDcryoNet

The Cryo-Electron Microscopy Network of Heidelberg University

The Cryo-Electron Microscopy Network of Heidelberg University (HDcryoNet) hosts cryo-EM infrastructure located at the BioQuant and at the Biochemistry Center. The aim of HDcryoNet is to foster collaborative research relying on cryo-EM methods, and to teach these methods to students at Heidelberg University. HDcryoNet operates as a network of users who independently use the equipment and share duties. HDcryoNet operates four high-end cryo-EM instruments.

Logo-illustration: the writing HDcrynoNet in white letters is positioned above three gray oval grids. Behind this, there is a vertical yellow light ray, and at its top a black „e-“ is to be seen. Five squares are positioned in a half-circle at the bottom of the illustration, functioning as a foundation of the logo.

Instruments located at the BioQuant

Aquilos cryo-FIB/SEM

The Aquilos dual-beam microscope is a dedicated instrument for the preparation of thin cryo-lamellae of vitrified cells that are subsequently studied by cryo-electron tomography in the Krios cryo-TEM. The microscope is equipped with a focused Gallium ion beam column, an electron beam column, and a cryo-stage. It uses an Edward-Thornley detector and in lens and in column Trinity detection systems for detection of secondary and backscattered electrons. The microscope can be operated in a semi-automated fashion using Autoscript scripting. The microscope is located in the BSL2 suite together with the Krios microscope to support in situ cryo-electron tomography projects. The microscope was acquired through DFG funding and is in operation since 2018.

Building: INF 229
Room: U42&45 (Biosafety level 2)
Phone: +49 6221 5419373

 

Content image: Photograph of the Aquilos dual-beam microscope

Krios – cryo-TEM (300kV)

The Krios cryo-transmission electron microscope is usually operated at 300kV and is dedicated to cryo-electron tomography and high-resolution data collection for single-particle analysis. It is equipped with a field emission gun, K3 Direct Electron Detector, Quanta GIF imaging filter, Volta phase plate and a dual-axis stage. Recently it has been upgraded with a state-of-the-art 3rd generation Autoloader.  Data collection is carried out remotely using EPU or SerialEM. The microscope is located in the BSL2 suite together with the Aquilos microscope. The microscope was acquired through CellNetworks funding and is in operation since 2012.

Building: INF 229
Room: U41 (Biosafety Level 2)
Phone: +49 6221 5419370

 

Content Image: A 3D-image of the Krios cryo-transmission electron microscope

Instruments located at BZH

Glacios – cryo-TEM (200kV)

The Glacios is a state-of-the-art 200kV cryo-transmission electron microscope equipped with an Autoloader that allows streamlined sample screening and data collection for single-particle analysis of purified complexes. It is equipped with a field emission gun, Falcon3-EC direct detector, and a Volta phase plate. Data collection is carried out remotely using EPU or SerialEM. The microscope is located in vicinity of the Talos L120C microscope to support single-particle projects. The microscope was acquired through DFG funding and is in operation since 2020.

Building: INF 328
Phone: +49 6221 544377

 

Content Image: A photograph of the Glacios 200kV cryo-transmission electron microscope

Talos L120C – (cryo)-TEM 120 kV

Talos L120C is a state-of-the-art 120kV transmission electron microscope that can be operated at cryogenic temperatures. It is equipped with a LaB6 electron source and a Ceta-M camera with a 4k × 4k CMOS sensor. This highly versatile microscope is dedicated to sample screening at both room and cryogenic temperatures. It operates with side-entry holders (several holders are available, incl. the newest Elsa Cryo-Transfer Holder). The microscope was acquired through DFG funding and is in operation since 2019.

Building: INF 328
Phone: +49 6221 544165

 

Content image: Photograph of the Talos L120C 120kV transmission electron microscope

Cryo-EM sample preparation instruments

Automatic plunge freezers:
Vitrobot Mark IV (BioQuant), Vitrobot Mark IV (BZH), Gatan Cryoplunge 3 (BioQuant), Leica GP2 (CIID)

Glow dischargers:
Gatan Solarus 950 (BioQuant)

Data storage and processing infrastructure

The computing center of Heidelberg University provides access to a fast large scale data storage facility (Scientific Data Storage) and a high-performance computing cluster (bwForCluster) equipped with multi-GPU nodes tailored for cryo-EM data analysis.

More information on the high-performance computing cluster (bwForCluster):

hpc-support@urz.uni-heidelberg.de

Further information and training related to computational resources available on campus at Heidelberg University are provided by the Community Forum Data-Intensive Computing and the HPC-Support.

CONTACT

STEERING COMMITTEE

Current members of the HDcryoNet steering committee (ordered alphabetically):

- Petr Chlanda (BioQuant/Department of Infectious Diseases-Virology)

- Cristina Paulino (BZH)

- Stefan Pfeffer (ZMBH)

- Rasmus R. Schröder (BioQuant)

- Irmi Sinning (BZH)

- User Group

user group representatives

- Dirk Flemming (BZH)

- Götz Hofhaus (BioQuant)

- Jan Rheinberger (BZH)

CRYO-EM Gallery

Recent Publications

Klein S*, Golani G*, Lolicato F*, Lahr C, Beyer D, Herrmann A, Wachmusth-Melm M, Reddmann, Brecht R, Hosseinzadeh M, Kolovou A, Makroczyova J, Peterl S, Schorb M, Schwab Y, Brügger B, Nickel W, Schwarz US, Chlanda P (2023), IFITM3 blocks viral entry by sorting lipids and stabilizing hemifusion, Cell Host&Microbe, Apr 12;31(4):616-633.e20. doi: 10.1016/j.chom.2023.03.005

 

Winter SL, Golani G, Lolicato F, Vallbracht M, Thiyagarajah K, Sid Ahmed S, Lüchtenborg C, Fackler OT, Hoenen T, Nickel W, Schwarz US, Chlanda P (2023), The Ebola virus VP40 matrix layer undergoes endosomal disassembly essential for membrane fusion, EMBO J, Apr 21:e113578. doi: 10.15252/embj.2023113578

 

Bodmer BS, Breithaupt A, Heung M, Brunetti JE, Henkel C, Müller-Guhl J, Rodríguez E, Wendt L, Winter SL, Vallbracht M, Müller A, Römer S, Chlanda P, Muñoz-Fontela C, Hoenen T, Escudero-Pérez B. In vivo characterization of the novel ebolavirus Bombali virus suggests a low pathogenic potential for humans. Emerg Microbes Infect. 2022 Dec;12(1):2164216. doi: 10.1080/22221751.2022.2164216.

 

Ismail S, Flemming D, Thoms M, Gomes-Filho JV, Randau L, Beckmann R, Hurt E. Emergence of the primordial pre-60S from the 90S pre-ribosome. Cell Rep. 2022 Apr 5;39(1):110640.

 

Cerullo, F.*, Filbeck S.*, Patil, P.R., Hung, H.C., Xu, H., Vornberger, J., Hofer, F.W., Schmitt, J., Kramer, G., Bukau, B., Hofmann, K., Pfeffer, S.#, Joazeiro, C.A.P#, 2022. Bacterial ribosome collision sensing by a MutS DNA repair ATPase paralogue. Nature 603, 509-14.

 

Zupa, E.*, Würtz, M.*, Neuner, A., Hoffmann, T., Rettel, M., Böhler, A., Vermeulen, B.J.A., Eustermann, S#., Schiebel, E.#, Pfeffer, S.#, 2022. The augmin complex architecture reveals structural insights into microtubule branching. Nat Commun 13, 5635.

 

Würtz, M.*, Zupa, E.*, Atorino, E.S.*, Neuner, A., Böhler, A., Rahadian, A.S., Vermeulen, B.J.A., Tonon, G., Eustermann, S., Schiebel, E.#, Pfeffer, S.#, 2022. Modular assembly of the principal microtubule nucleator gamma-TuRC. Nat Commun 13, 473.

 

Sinning I, McDowell MA. Cryo-EM insights into tail-anchored membrane protein biogenesis in eukaryotes. Curr Opin Struct Biol. 2022 Aug;75:102428.

 

For a comprehensive overview of publications, please see document below.