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{{Article|Bourne & Harris |2012|Neuron • [http://www.sciencedirect.com/science/article/pii/S0959438811001851 PDF]|22088391|Nanoscale analysis of structural synaptic plasticity}}
{{Article|Bourne & Harris |2012|Neuron • [http://www.sciencedirect.com/science/article/pii/S0959438811001851 PDF]|22088391|Nanoscale analysis of structural synaptic plasticity}}
Dramatic structural synaptic scaling revealed by ssEM following induction of LTP by TBS in the mature hippocampus. (a) EM and (ai) reconstruction of a small thin spine (category T, head diameter <0.45 mm). (b) EM and (bi) reconstruction of a medium thin spine (category T, head diameter >0.45 mm but <0.6 mm). (c) EM and (ci) reconstruction of a mushroom spine (M, head diameter >0.6 mm). (d) Small thin spines were significantly reduced in number (P < 0.05) while (e) PSDs on all remaining spines were significantly enlarged (**P < 0.01; *P < 0.05). (f) Reconstructions of control and LTP dendrites demonstrate equal summed PSD area per micron length of dendrite, despite large differences in their average synapse size and density. Scale cube = 0.5 mm on a side. (g) Average summed PSD area per micron length of dendrite is the same for dendrites across all times in the control and TBS-LTP conditions.Adapted from Bourne and Harris [4].
Dramatic structural synaptic scaling revealed by ssEM following induction of LTP by TBS in the mature hippocampus. (a) EM and (ai) reconstruction of a small thin spine (category T, head diameter <0.45 mm). (b) EM and (bi) reconstruction of a medium thin spine (category T, head diameter >0.45 mm but <0.6 mm). (c) EM and (ci) reconstruction of a mushroom spine (M, head diameter >0.6 mm). (d) Small thin spines were significantly reduced in number (P < 0.05) while (e) PSDs on all remaining spines were significantly enlarged (**P < 0.01; *P < 0.05). (f) Reconstructions of control and LTP dendrites demonstrate equal summed PSD area per micron length of dendrite, despite large differences in their average synapse size and density. Scale cube = 0.5 mm on a side. (g) Average summed PSD area per micron length of dendrite is the same for dendrites across all times in the control and TBS-LTP conditions.Adapted from Bourne and Harris [4].


<big>'''From: [http://www.sciencedirect.com/science/article/pii/S0959438811001851 Bourne & Harris (2012) Nanoscale analysis of structural synaptic plasticity]'''</big>


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[[Category:Journals]]

Revision as of 15:37, 2 January 2015

Bourne & Harris • 2012 • Neuron • PDF

Dramatic structural synaptic scaling revealed by ssEM following induction of LTP by TBS in the mature hippocampus. (a) EM and (ai) reconstruction of a small thin spine (category T, head diameter <0.45 mm). (b) EM and (bi) reconstruction of a medium thin spine (category T, head diameter >0.45 mm but <0.6 mm). (c) EM and (ci) reconstruction of a mushroom spine (M, head diameter >0.6 mm). (d) Small thin spines were significantly reduced in number (P < 0.05) while (e) PSDs on all remaining spines were significantly enlarged (**P < 0.01; *P < 0.05). (f) Reconstructions of control and LTP dendrites demonstrate equal summed PSD area per micron length of dendrite, despite large differences in their average synapse size and density. Scale cube = 0.5 mm on a side. (g) Average summed PSD area per micron length of dendrite is the same for dendrites across all times in the control and TBS-LTP conditions.Adapted from Bourne and Harris [4].

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630 × 674 (181 KB)Bradley Monk (talk | contribs)Dramatic structural synaptic scaling revealed by ssEM following induction of LTP by TBS in the mature hippocampus. (a) EM and (ai) reconstruction of a small thin spine (category T, head diameter <0.45 mm). (b) EM and (bi) reconstruction of a medium thi...

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