Accession PRJCA016643
Title VHUT-cryo-FIB
Relevance Medical
Data types Imaging data
Organisms Spinacia oleracea
Description Cryo-electron tomography (cryo-ET) provides a promising approach to study intact structures of macromolecules in situ, but the efficient preparation of high-quality cryosections represents a bottleneck. Although cryo-focused ion beam (cryo-FIB) milling has emerged for large and flat cryo-lamella preparation, its application to tissue specimens remains challenging. Here, we report an integrated workflow, VHUT-cryo-FIB, for efficiently preparing frozen hydrated tissue lamella that can be readily used in subsequent cryo-ET studies. The workflow includes vibratome slicing, high-pressure freezing, ultramicrotome cryo-trimming and cryo-FIB milling. Two strategies were developed for loading cryo-lamella via a side-entry cryo-holder or an FEI AutoGrid. The workflow was validated by using various tissue specimens, including rat skeletal muscle, rat liver and spinach leaf specimens, and in situ structures of ribosomes were obtained at nanometer resolution from the spinach and liver samples.
Sample scope Monoisolate
Release date 2023-04-28
Publication
PubMed ID Article title Journal name DOI Year
VHUT-cryo-FIB, a method to fabricate frozen hydrated lamellae from tissue specimens for in situ cryo-electron tomography Journal of Structural Biology 10.1016/j.jsb.2021.107763 2021
Grants
Agency program Grant ID Grant title
Chinese Academy of Sciences (CAS) Strategic Priority Research Program of Chinese Academy of Sciences (CAS) XDB37040102
Submitter Shuoguo Li (lishuoguo@ibp.ac.cn)
Organization Institute of Biophysics, Chinese Academy of Sciences
Submission date 2023-04-28

Project Data

Resource name Description