HighlightsCohesive representation of the world requires related memories to be linked.How memories are linked across hours/days is poorly understood.Memory allocation mechanisms facilitate effective recall and linking of memories.Allocation mechanisms complement… Click to show full abstract
HighlightsCohesive representation of the world requires related memories to be linked.How memories are linked across hours/days is poorly understood.Memory allocation mechanisms facilitate effective recall and linking of memories.Allocation mechanisms complement synaptic tagging & capture ensuring memory linking. Abstract Memories are dynamic in nature. A cohesive representation of the world requires memories to be altered over time, linked with other memories and eventually integrated into a larger framework of sematic knowledge. Although there is a considerable literature on how single memories are encoded, retrieved and updated, little is known about the mechanisms that govern memory linking, e.g., linking and integration of various memories across hours or days. In this review, we present evidence that specific memory allocation mechanisms, such as changes in CREB and intrinsic excitability, ensure memory storage in ways that facilitate effective recall and linking at a later time. Beyond CREB and intrinsic excitability, we also review a number of other phenomena with potential roles in memory linking.
               
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