Molecular mechanisms of dendritic spine morphogenesis
T Tada, M Sheng - Current opinion in neurobiology, 2006 - Elsevier
T Tada, M Sheng
Current opinion in neurobiology, 2006•ElsevierExcitatory synapses are formed on dendritic spines, postsynaptic structures that change
during development and in response to synaptic activity. Once mature, however, spines can
remain stable for many months. The molecular mechanisms that control the formation and
elimination, motility and stability, and size and shape of dendritic spines are being revealed.
Multiple signaling pathways, particularly those involving Rho and Ras family small GTPases,
converge on the actin cytoskeleton to regulate spine morphology and dynamics …
during development and in response to synaptic activity. Once mature, however, spines can
remain stable for many months. The molecular mechanisms that control the formation and
elimination, motility and stability, and size and shape of dendritic spines are being revealed.
Multiple signaling pathways, particularly those involving Rho and Ras family small GTPases,
converge on the actin cytoskeleton to regulate spine morphology and dynamics …
Excitatory synapses are formed on dendritic spines, postsynaptic structures that change during development and in response to synaptic activity. Once mature, however, spines can remain stable for many months. The molecular mechanisms that control the formation and elimination, motility and stability, and size and shape of dendritic spines are being revealed. Multiple signaling pathways, particularly those involving Rho and Ras family small GTPases, converge on the actin cytoskeleton to regulate spine morphology and dynamics bidirectionally. Numerous cell surface receptors, scaffold proteins and actin binding proteins are concentrated in spines and engaged in spine morphogenesis.
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