Rehydration of Freeze Substituted Brain Tissue for Pre-embedding Immunoelectron Microscopy.
Janeth Pérez-GarzaEmily Parrish-MullikenZachary DeaneLinnaea E OstroffPublished in: Microscopy and microanalysis : the official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada (2023)
Electron microscopy (EM) volume reconstruction is a powerful tool for investigating the fundamental structure of brain circuits, but the full potential of this technique is limited by the difficulty of integrating molecular information. High quality ultrastructural preservation is necessary for EM reconstruction, and intact, highly contrasted cell membranes are essential for following small neuronal processes through serial sections. Unfortunately, the antibody labeling methods used to identify most endogenous molecules result in compromised morphology, especially of membranes. Cryofixation can produce superior morphological preservation and has the additional advantage of allowing indefinite storage of valuable samples. We have developed a method based on cryofixation that allows sensitive immunolabeling of endogenous molecules, preserves excellent ultrastructure, and is compatible with high-contrast staining for serial EM reconstruction.
Keyphrases
- electron microscopy
- white matter
- resting state
- cerebral ischemia
- single molecule
- single cell
- magnetic resonance
- functional connectivity
- high resolution
- cell therapy
- high throughput
- high speed
- stem cells
- computed tomography
- molecular docking
- optical coherence tomography
- health information
- contrast enhanced
- climate change