The synaptic basis for learning and memory is long-term potentation (LTP), which is an increase in a synapse's firing potential after a brief, rapid stimulation.
Acetylcholine is essential to the memory. Without it the memory would not exist.
synaptic potential
synaptic vesicles
obervational learning
synaptic cleft (also known as "synaptic gap")
Neurogenesis, the process of generating new neurons in the brain, has been found to play a role in learning and memory. New neurons can integrate into existing brain circuits and enhance synaptic plasticity, which is essential for learning and memory formation. Studies have shown that promoting neurogenesis can improve cognitive functions and enhance memory abilities.
neuromodulatory lipids and receptors involved in a variety of physiological processes including appetite, pain-sensation, mood, motor learning, synaptic plasticity, and memory.
If we don't use our synaptic system that leads to short term potentiation i.e short term memory. short term and long term memory depends on maintenance of synaptic potentiation. so if we don't use our synaptic system no new nerve cell for saving info will not be generated.
It allows neuronal development in response to novel experiences.
learning is stored a memory
Clonal selection and differentiation of lymphocytes provide the basis for immunological memory.
memory of learning facts and concepts. A+
Learning a new language tests the skills of your memory. Keeping your memory active helps to improve memory function.
Benton J. Underwood has written: 'Attributes of memory' -- subject(s): Verbal learning, Memory 'Studies in learning and memory' -- subject(s): Learning, Psychology of, Memory, Psychology of Learning 'Elementary statistics' -- subject(s): Statistics
It depends on memory.
Acetylcholine is essential to the memory. Without it the memory would not exist.
The memory inside of a DRAM chip must have its data restored on a regular basis. This is known as memory refresh.