The important stuff.... neurons and dendritic spines.. thanks to Ocsrazor for pointing out the importance. - BJKDevelopment of Dendritic Spines Sarah Ledoux
Quote: Neurons have the capability of forming spiny outgrowths on dendrites that are associated with neuroplasticity. Stimulation, especially during post-natal development can lead to activation in the brain, referred to as Long Term Potentiation (LTP), associated with the growth of spines. These dendritic spines, which can number thousands to a single neuron, can have synaptic heads. Greater than 90 percent of synapses in the brain occur on them (1) . Through experimentation it has been found that a spine's glutamate receptors, calcium concentrations, and actin can affect its shape, length, and even presence on a dendrite. In general terms, how do dendritic spines develop and what do they affect in the brain?
http://serendip.bryn...eb1/Ledoux.html
Quote:Perhaps the most common synaptic specialization of dendrites is that which Spanish anatomist Ramon y Cajal referred to as "espinas", since they resembled the thorns on a flower stem. These spines are frequent on the dendrites of the principal cells of most brain regions, notably on the pyramidal cells of cerebral cortex and the Purkinje cells of the cerebellar cortex. For these cells, more than 90% of their excitatory synapses occur on dendritic spines. Therefore, spines may play an important role in learning and memory.
http://synapses.bu.e...te/dendrite.stm
