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Freeze Fracture at the Turn of the Century: Techniques for Visualizing and Labeling Tissues, Cells, and Molecules

Published online by Cambridge University Press:  02 July 2020

Thomas Yasumura  and
John E. Rash
Thomas Yasumura
Affiliation:
Department of Anatomy and NeuroBiology, Colorado State University, Fort Collins, CO80523
John E. Rash
Affiliation:
Department of Anatomy and NeuroBiology, Colorado State University, Fort Collins, CO80523
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Extract

Freeze-fracture techniques have contributed much to our understanding of membrane composition and macromolecular architecture. However, further substantive contributions from freeze fracture have seemed unlikely because: a) replicas typically fragmented, destroying histological orientation within samples; b) histochemical staining techniques were thought to be incompatible with bleach- or acid-cleaned freeze-fracture replicas; c) the limit of resolution was presumed to be 3-5 nm; and d) there were no methods for directing the fracture plane to specific components within a tissue. Recent developments in “grid-mapped freeze fracture” and freeze-fracture immunocytochemistry have addressed each of these limitations.

Using grid-mapped freeze fracture, samples are mapped in three dimensions using confocal microscopy before freeze-fracture (Fig. A), as well as after replication and stabilization in Lexan plastic on a gold “Finder” grid (Fig. B). After replica cleaning, areas of interest are correlated in confocal and TEM images —— for example, cilia of the ependymal layer of rat spinal cord (Fig. C).

Type
Technologists’ Forum: Special Topics and Symposium
Information
Microscopy and Microanalysis , Volume 3 , Issue S2: Proceedings: Microscopy & Microanalysis '97, Microscopy Society of America 55th Annual Meeting, Microbeam Analysis Society 31st Annual Meeting, Histochemical Society 48th Annual Meeting, Cleveland, Ohio, August 10-14, 1997 , August 1997 , pp. 345 - 346
Copyright
Copyright © Microscopy Society of America 1997

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References

1.Rash, J.E., et al., Proc. Nat. Acad Sci. (USA) 93:42354239 (1996).10.1073/pnas.93.9.4235CrossRefGoogle Scholar
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4. Supported by NIH Grant NS-31027 (to JER).Google Scholar