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fixed usingfreeze substitution methods. Here fixatives are infused into the preparation
at low temperature, after which the specimen is slowly warmed to room temperature.
Usingcryo-electron tomography (Cryo-ET)the 3D structure of cells and macromol-
ecules can be visualised at 5–8 nm resolution. Cells are typically rapidly frozen, fixed by
freeze substitution and embedded in epoxy resin. Thick 200 nm sections are cut and
imaged in the TEM equipped with a tilting stage. A typical tilt series of 100 or so images
is collected in a digital form and exported to a computer reconstruction program for
analysis. By using electron tomography, a 2D digital EM image is converted into a high-
resolution 3D representation of the specimen (Fig. 4.24, see also colour section). The
method is especially useful for imaging the fine connections within cells especially the
cytoskeleton and nuclear pores and elucidating the surface structures of viruses.

4.6.4 Integrated microscopy


The same specimen can be viewed in the light microscope and subsequently in the EM.
This approach is calledintegrated microscopy. The correlation of images of the same
cell collected using the high temporal resolution of the light microscope and the high
spatial resolution of the EM gives additional information to imaging using the two
techniques separately (Fig. 4.25). The integrated approach also addresses the problem
of artifacts. Probes are now available that are fluorescent in the light microscope and
are electron dense in the EM.

4.7 Image archiving


Most images produced by any kind of modern microscope are collected in a digital
form. In addition to greatly speeding up the collection of the images (and experiment
times), the use of digital imaging has allowed the use of digital image databases and

Fig. 4.23Immunoelectron microscopy. Scanning electron microscope (SEM) image of microbesEnterococcus
faecalislabelled with 10 nm collidal gold for the surface adhesion protein ‘aggregation substance’. This protein
facilitates exchange of DNA during conjugation. The gold labels appear as white dots on the surface of the
bacteria. (Image kindly provided by the late Stan Erlandsen, University of Minnesota, USA.)

133 4.7 Image archiving
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