Misa Arizono: Difference between revisions
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Hi, I am Misa. I have been studying the physiology of the synaptic microenvironment (synapse + glia + extracellular space) using various super-resolution techniques, including live STED microscopy and single-molecule localization microscopy. Using this expertise, I will reveal the nanoscale basis of learning and memory. Specifically I am focusing on the dynamic reorganization of the synaptic microenvironment which may drive synaptic plasticity. | Hi, I am Misa. I have been studying the physiology of the synaptic microenvironment (synapse + glia + extracellular space) using various super-resolution techniques, including live STED microscopy and single-molecule localization microscopy. Using this expertise, I will reveal the nanoscale basis of learning and memory. Specifically I am focusing on the dynamic reorganization of the synaptic microenvironment which may drive synaptic plasticity. | ||
For more details, please explore my [https:// | For more details, please explore my *[https://www.misa-arizono.com Personal Webpage]. | ||
== Keywords == | == Keywords == |
Revision as of 22:27, 12 March 2024
Hi, I am Misa. I have been studying the physiology of the synaptic microenvironment (synapse + glia + extracellular space) using various super-resolution techniques, including live STED microscopy and single-molecule localization microscopy. Using this expertise, I will reveal the nanoscale basis of learning and memory. Specifically I am focusing on the dynamic reorganization of the synaptic microenvironment which may drive synaptic plasticity.
For more details, please explore my *Personal Webpage.
Keywords
neuron-glia interaction, extracellular space, Ca2+ signals, LLPS, super-resolution microscopy