The development of methods for imaging large contiguous volumes with the electron microscope could allow the complete mapping of a whole mouse brain at the single−axon level. We developed a method based on prolonged immersion that enables staining and embedding of the entire mouse brain with uniform myelin staining and a moderate preservation of the tissue's ultrastructure. We tested the ability to follow myelinated axons using serial block−face electron microscop
Ultrathin sections of human brain were made and investiggated by electron microscope; The fine struc...
The structural complexity of nervous tissue makes it very difficult to unravel the connectivity betw...
Three−dimensional (3D) structural information on many length scales is of central importance in biol...
The development of methods for imaging large contiguous volumes with the electron microscope could a...
This protocol describes how in vivo-imaged dendrites and axons in adult mouse brains can subsequentl...
This protocol describes how in vivo-imaged dendrites and axons in adult mouse brains can subsequentl...
In this article, we describe the method that allows fluorescently tagged structures such as axons to...
To fully understand how biological systems give rise to complex phenomena, both structural and funct...
Mammalian neurons operate at length scales spanning six orders of magnitude; they project millimeter...
Currently only electron microscopy provides the resolution necessary to reconstruct neuronal circuit...
Advances in microscopy and sample preparation have led to the first ever mapping of individual neuro...
Fixation and staining of large tissue samples are critical for the acquisition of volumetric electro...
Summary: This protocol describes how to prepare intact mouse cochleae for serial block-face scanning...
The suitability and selectivity of several dyes have been tested on plastic-embedded sections of ner...
BackgroundAbnormal connectivity across brain regions underlies many neurological disorders including...
Ultrathin sections of human brain were made and investiggated by electron microscope; The fine struc...
The structural complexity of nervous tissue makes it very difficult to unravel the connectivity betw...
Three−dimensional (3D) structural information on many length scales is of central importance in biol...
The development of methods for imaging large contiguous volumes with the electron microscope could a...
This protocol describes how in vivo-imaged dendrites and axons in adult mouse brains can subsequentl...
This protocol describes how in vivo-imaged dendrites and axons in adult mouse brains can subsequentl...
In this article, we describe the method that allows fluorescently tagged structures such as axons to...
To fully understand how biological systems give rise to complex phenomena, both structural and funct...
Mammalian neurons operate at length scales spanning six orders of magnitude; they project millimeter...
Currently only electron microscopy provides the resolution necessary to reconstruct neuronal circuit...
Advances in microscopy and sample preparation have led to the first ever mapping of individual neuro...
Fixation and staining of large tissue samples are critical for the acquisition of volumetric electro...
Summary: This protocol describes how to prepare intact mouse cochleae for serial block-face scanning...
The suitability and selectivity of several dyes have been tested on plastic-embedded sections of ner...
BackgroundAbnormal connectivity across brain regions underlies many neurological disorders including...
Ultrathin sections of human brain were made and investiggated by electron microscope; The fine struc...
The structural complexity of nervous tissue makes it very difficult to unravel the connectivity betw...
Three−dimensional (3D) structural information on many length scales is of central importance in biol...