Nitric oxide, which is one of the small fast-acting carriers of the fourth group of molecules, in messaging and in memory
Nitric oxide plays a key role in cognitive functions and memory formation and learning.
The adult hippocampus is a vital center for learning and memory processes.
Memory acquisition is linked to NO-induced neuronal changes.
Learning and memory is such that nitric oxide can release glutamate and dopamine from neurons.
Induce adjacent and thus affect synaptic facilitation. In the form of learning, the trans signal
NO duction involves the activation of a receptor coupled to guanylcyclas, which in turn increases the action of
cGMP is that this increase initiates phosphorylation actions by protein kinases and thus
Activation of copying factors is activated and NO can be used on memory formation
In the hippocampus, learning and memory by repeated stimulation of afferent glutamate fibers that are dependent on
Activation of new NMDA glutamate receptors is postsynaptic.
Calcium-calmodulin-dependent NO synthesis is associated with calcium ion flow through channels
NMDA receptors are associated with NO formation, where NO can be released in aqueous and fatty media
It can act as a fast intracellular signal molecule on the synaptic formation and in
Long-term memory plays a role.