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Synapses, although seemingly stable, undergo constant rearrangements and exhibit a high level of dynamic movement as revealed by molecular imaging. This apparent biological paradox has emerged as a key element enabling synaptic plasticity. The development of super-resolution imaging combined with theoretical modelling has advanced our understanding of the structure and molecular dynamics of synapses...
Protein mobility is conventionally analyzed in terms of an effective diffusion. Yet, this description often fails to properly distinguish and evaluate the physical parameters (such as the membrane friction) and the biochemical interactions governing the motion. Here, we present a method combining high-density single-molecule imaging and statistical inference to separately map the diffusion and energy...
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