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Engineered adhesion molecules drive synapse organization

Por um escritor misterioso
Last updated 08 abril 2025
Engineered adhesion molecules drive synapse organization
Engineered adhesion molecules drive synapse organization
Molecular Mechanisms of L1 and NCAM Adhesion Molecules in Synaptic Pruning, Plasticity, and Stabilization. - Abstract - Europe PMC
Engineered adhesion molecules drive synapse organization
Engineered adhesion molecules drive synapse organization
Engineered adhesion molecules drive synapse organization
Local F-actin Network Links Synapse Formation and Axon Branching: Cell
Engineered adhesion molecules drive synapse organization
Cells, Free Full-Text
Engineered adhesion molecules drive synapse organization
Multiple signaling pathways are essential for synapse formation induced by synaptic adhesion molecules
Engineered adhesion molecules drive synapse organization
Ligand Mobility-Mediated Cell Adhesion and Spreading
Engineered adhesion molecules drive synapse organization
Cell adhesion molecules: signalling functions at the synapse
Engineered adhesion molecules drive synapse organization
Cells, Free Full-Text
Engineered adhesion molecules drive synapse organization
IJMS, Free Full-Text
Engineered adhesion molecules drive synapse organization
Cre-recombinase expression substantially reduces neurexin and
Engineered adhesion molecules drive synapse organization
Engineered adhesion molecules drive synapse organization
Engineered adhesion molecules drive synapse organization
Frontiers To Stick or Not to Stick: The Multiple Roles of Cell Adhesion Molecules in Neural Circuit Assembly
Engineered adhesion molecules drive synapse organization
Progress and limitations in engineering cellular adhesion for research and therapeutics: Trends in Cell Biology
Engineered adhesion molecules drive synapse organization
Reassessing synaptic adhesion pathways: Trends in Neurosciences
Engineered adhesion molecules drive synapse organization
Complexes by synaptic cell-adhesion molecule families
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