Dendritic spines are discrete membrane protrusions from dendritic shafts where the large majority of excitatory synapses are located. Their highly heterogeneous morphology is thought to be the morphological basis for synaptic plasticity. Electron microscopy and time-lapse imaging studies have suggested that the shape and number of spines can change after long-term potentiation (LTP), although there is no evidence that morphological changes are necessary for LTP induction and maintenance. An increasing number of proteins have been found to be morphogens for dendritic spines and provide new insights into the molecular mechanisms regulating spine formation and morphology
SummaryDendritic spines are the major sites of excitatory synaptic input, and their morphological ch...
Spines are neuronal protrusions, each of which receives input typically from one excitatory synapse....
Dendritic spines are small protrusive structures on dendritic surfaces, and function as postsynaptic...
AbstractThe development of dendritic spines with specific geometry and membrane composition is criti...
Dendritic spines are tiny protrusions on dendritic shafts where most excitatory synapses are located...
The majority of fast excitatory synaptic transmission in the central nervous system takes place at p...
Dendritic spines are small protrusions off the dendrite that receive excitatory synaptic input. Spin...
Dendritic spines are mushroom-shaped protrusions of the postsynaptic membrane. Spines receive the ma...
The purpose of this study was to examine whether variability in the shape of dendritic spines affect...
Dendritic spines are morphological specializations that receive synaptic inputs and compartmentalize...
Dendritic spines have been proposed to transform synaptic signals through chemical and electrical co...
One fundamental requisite for a comprehensive view on brain function and cognition is the understand...
Glutamatergic axons in the mammalian forebrain terminate predominantly onto dendritic spines. Long-t...
Dendritic spines are mushroom-shaped appendages on the dendritic branches of neurons. They are inval...
ABSTRACT: The dendritic spine may be considered a fusion of a spe-cialized actin-based structure aki...
SummaryDendritic spines are the major sites of excitatory synaptic input, and their morphological ch...
Spines are neuronal protrusions, each of which receives input typically from one excitatory synapse....
Dendritic spines are small protrusive structures on dendritic surfaces, and function as postsynaptic...
AbstractThe development of dendritic spines with specific geometry and membrane composition is criti...
Dendritic spines are tiny protrusions on dendritic shafts where most excitatory synapses are located...
The majority of fast excitatory synaptic transmission in the central nervous system takes place at p...
Dendritic spines are small protrusions off the dendrite that receive excitatory synaptic input. Spin...
Dendritic spines are mushroom-shaped protrusions of the postsynaptic membrane. Spines receive the ma...
The purpose of this study was to examine whether variability in the shape of dendritic spines affect...
Dendritic spines are morphological specializations that receive synaptic inputs and compartmentalize...
Dendritic spines have been proposed to transform synaptic signals through chemical and electrical co...
One fundamental requisite for a comprehensive view on brain function and cognition is the understand...
Glutamatergic axons in the mammalian forebrain terminate predominantly onto dendritic spines. Long-t...
Dendritic spines are mushroom-shaped appendages on the dendritic branches of neurons. They are inval...
ABSTRACT: The dendritic spine may be considered a fusion of a spe-cialized actin-based structure aki...
SummaryDendritic spines are the major sites of excitatory synaptic input, and their morphological ch...
Spines are neuronal protrusions, each of which receives input typically from one excitatory synapse....
Dendritic spines are small protrusive structures on dendritic surfaces, and function as postsynaptic...