1. Cryo-STEM Tomography of Intact Vitrified Fibroblasts
- Author
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Ben Horowitz, Yael Mutsafi, David Kirchenbuechler, Smadar Levin-Zaidman, Sharon G. Wolf, Deborah Fass, and Michael Elbaum
- Subjects
Materials science ,Biophysics ,3DEM ,Biochemistry ,law.invention ,Optics ,Structural Biology ,law ,Scanning transmission electron microscopy ,mycoplasma ,Molecular Biology ,lcsh:QH301-705.5 ,Tomographic reconstruction ,Spatial filter ,business.industry ,Vesicle ,cryo-electron tomography ,CSTET ,Membrane ,organelles ,cryo-tomography ,lcsh:Biology (General) ,scanning transmission electron microscopy ,Cryo-electron tomography ,Tomography ,Electron microscope ,business ,Biomedical engineering - Abstract
Cryo-tomography of intact, vitrified cells provides a three dimensional view of their structure and organization in a snapshot of the living state. Lacking heavy metal stains, tilt series images are typically produced by defocus phase contrast. Recently, a number of other methods have been introduced for 3D cryo-imaging. These include phase plate imaging, soft X-ray tomography, serial surface imaging using the focused ion beam-scanning electron microscope, and cryo-STEM tomography (CSTET). Here we explain the basis of the STEM setup and demonstrate the capabilities of CSTET to study unfixed, fully hydrated mammalian cells. Numerous cellular features are recognized in CSTET reconstructions, including membranes, vesicles, cytoskeleton, extracellular matrix, coated pits, and ribosomes. STEM signal acquisition configuration is more flexible than defocus phase contrast, and it imposes a much less severe spatial filter on the original images. Because low spatial frequency information is retained, the STEM tomographic reconstruction more faithfully represents the mass density distribution in the specimen.
- Published
- 2015