The chemical sense of retaining detailed memories
The levels of a chemical released by the brain determine how detailed a memory will later be, according to researchers at UC Irvine. The neurotransmitter acetylcholine, a brain chemical already established as being crucial for learning and memory, appears to be the key to adding details to a memory. In a study with rats, Norman […]
The levels of a chemical released by the brain determine how detailed a memory will later be, according to researchers at UC Irvine.
The neurotransmitter acetylcholine, a brain chemical already established as being crucial for learning and memory, appears to be the key to adding details to a memory. In a study with rats, Norman Weinberger, research professor of neurobiology and behavior, and colleagues determined that a higher level of acetylcholine during a learning task correlated with more details of the experience being remembered. The results are the first to tie levels of acetylcholine to memory specificity and could have implications in the study and treatment of memory-related disorders.
The findings appear in the November issue of the journal Neurobiology of Learning and Memory.
“This is the first time that direct stimulation of a brain region has controlled the amount of detail in a memory,” said Weinberger, a fellow at UCI’s Center for the Neurobiology of Learning and Memory. “While it is likely that the brain uses a number of mechanisms to store specific details, our work shows that the level of acetylcholine appears to be a key part of that process.”
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