Rapid freezing of deep cerebral structures for electron microscopy

A combined technique of the rapid freezing, freeze substitution-fixation method and the osmium-DMSO-osmium method was devised. By this combined method we clearly observed the architecture of intracellular components in three dimensions. Morphological characteristics were generally similar to those o

The s t a n d a r d method of g l u t a r a l d e h y d e a n d / o r osmium

A commercially available freeze-dry microscopy stage interfaced with an IR microscope is described as a method of in situ measurement of protein secondary structure in the liquid, frozen and freeze-dried states. Studies using solutions of model proteins demonstrated that spectra collected using the

## Abstract We have developed an instrument capable of freezing transient intermediates in rapid biochemical reactions for subsequent freeze‐fracturing, replication, and viewing by transmission electron microscopy. The machine combines a rapid mixing unit similar to one widely used in chemical kine

This paper describes the preparation of specimens of neural tissues and sensory structures for electron microscopy. A solution of 2% paraformaldehyde and 2.5% glutaraldehyde was used as fixative. The fixative entered the spinal cord of the rhesus monkey through the aorta abdominalis and emptied into