2021
DOI: 10.3389/fnana.2021.627368
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Three-Dimensional Structure of Dendritic Spines Revealed by Volume Electron Microscopy Techniques

Abstract: Electron microscopy (EM)-based synaptology is a fundamental discipline for achieving a complex wiring diagram of the brain. A quantitative understanding of synaptic ultrastructure also serves as a basis to estimate the relative magnitude of synaptic transmission across individual circuits in the brain. Although conventional light microscopic techniques have substantially contributed to our ever-increasing understanding of the morphological characteristics of the putative synaptic junctions, EM is the gold stan… Show more

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Cited by 13 publications
(8 citation statements)
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“…The number of pf -PC synapses may range up to ~100˙000 (Hoxha et al, 2016), many of which would be silent (Isope and Barbour, 2002). Based on spines density (Parajuli and Koike, 2021) and the total length of PC dendritic tree , the number of possible pf synapses was estimated to be 15˙000-20˙000, with a minimum of ~100 synapses needed to generate a simple spike (Walter and Khodakhah, 2006). Here, limited to our 200-μm pf length, fiber intersection identified 1˙500 pf synapses per PC.…”
Section: Neuron Connectivitymentioning
confidence: 88%
“…The number of pf -PC synapses may range up to ~100˙000 (Hoxha et al, 2016), many of which would be silent (Isope and Barbour, 2002). Based on spines density (Parajuli and Koike, 2021) and the total length of PC dendritic tree , the number of possible pf synapses was estimated to be 15˙000-20˙000, with a minimum of ~100 synapses needed to generate a simple spike (Walter and Khodakhah, 2006). Here, limited to our 200-μm pf length, fiber intersection identified 1˙500 pf synapses per PC.…”
Section: Neuron Connectivitymentioning
confidence: 88%
“…These do not, however, offer the unique advantage of Golgi in staining the entire neuron structure including the axons, dendrites, and spines. Electron microscopy remains the gold standard for visualizing synaptic morphology by providing a complete 3D reconstruction of a synapse using immunogold labeling [31]. The challenges of overcoming low-throughput electron microscopy imaging has been addressed elsewhere [31], but here we describe an alternative method using conventional light microscopy for measuring neurite and spine morphology.…”
Section: Discussionmentioning
confidence: 99%
“…Electron microscopy remains the gold standard for visualizing synaptic morphology by providing a complete 3D reconstruction of a synapse using immunogold labeling [31]. The challenges of overcoming low-throughput electron microscopy imaging has been addressed elsewhere [31], but here we describe an alternative method using conventional light microscopy for measuring neurite and spine morphology. Further, great advances have been made in whole brain imaging, accelerating our ability to detect and quantify structural and functional connectivity in the human brain noninvasively as well as experimentally (including the organization of neural pathways and network architecture) [2].…”
Section: Discussionmentioning
confidence: 99%
“…As a whole, the number of pf -PC synapses may range up to ~100˙000 35 , many of which would be silent 97 . Based on spines density 98 and the total length of a PC dendritic tree 18,20 , the number of possible pf synapses was estimated to be 15˙000-20˙000, with a minimum of ~100 synapses needed to generate a simple spike 36 . (ii) The number of aa-PC synapses is not known but there would be multiple synapses per aa-PC pair 36 .…”
Section: Methodsmentioning
confidence: 99%