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The de novo protein synthesis theory of memory formation is a hypothesis about the formation of the physical correlates of memory in the brain. It is widely accepted that the physiological correlates for memories are stored at the synapse between various neurons .
Protein synthesis plays an important role in the formation of new memories. Studies have shown that protein synthesis inhibitors administered after learning, weaken memory, suggesting that protein synthesis is required for memory consolidation. Additionally, reports have suggested that the effects of protein synthesis inhibitors also inhibit ...
By contrast, global protein synthesis that occurs in the cell body requires that proteins be shipped out to every area of the cell, including synapses that have not received LTP-inducing stimuli. Whereas local protein synthesis provides a mechanism for specificity, global protein synthesis would seem to directly compromise it.
The temporal differentiation between early and late LTP is also based on this. Early LTP is associated with short-term memory and late LTP with long-term memory. Behavioural studies raised evidence against this differentiation. Studies with protein synthesis inhibitors showed that blocking protein synthesis did not block memory retention. [19]
By 2015 it had become clear that long-term memory requires gene transcription activation and de novo protein synthesis. [38] Long-term memory formation depends on both the activation of memory promoting genes and the inhibition of memory suppressor genes, and DNA methylation/DNA demethylation was found to be a major mechanism for achieving this ...
Long-term memory, unlike short-term memory, is dependent upon the synthesis of new proteins. [56] This occurs within the cellular body, and concerns the particular transmitters, receptors, and new synapse pathways that reinforce the communicative strength between neurons.
These stages do not need to occur successively, but are, as studies seem to indicate, and they are broadly divided in the neuronal mechanisms that they require or even in the hippocampal areas that they seem to activate. According to Gazzaniga, "encoding is the processing of incoming information that creates memory traces to be stored."
Memory allocation is a process that determines which specific synapses and neurons in a neural network will store a given memory. [ 1 ] [ 2 ] [ 3 ] Although multiple neurons can receive a stimulus, only a subset of the neurons will induce the necessary plasticity for memory encoding.