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Abstract
Epigenetic changes, such as DNA methylation or histone modification, can remodel the chromatin and regulate gene expression. Remodeling of chromatin provides an efficient mechanism of transducing signals, such as light or nutrient availability, to regulate gene expression. CLOCK:BMAL1 mediated activation of clock-controlled genes (CCGs) is coupled to circadian changes in histone modification at their promoters. Several chromatin modifiers, such as the deacetylases SIRT1 and HDAC3 or methyltransferase MLL1, have been shown to be recruited to the promoters of the CCGs in a circadian manner. Interestingly, the central element of the core clock machinery, the transcription factor CLOCK, also possesses histone acetyltransferase activity. Rhythmic expression of the CCGs is abolished in the absence of these chromatin modifiers. Recent research has demonstrated that chromatin remodeling is at the cross-roads of circadian rhythms and regulation of metabolism and aging. It would be of interest to identify if similar pathways exist in the epigenetic regulation of memory formation.
Highlights
Epigenetic changes, such as DNA methylation or histone modification, can remodel the chromatin and regulate gene expression
The regulatory function of REV-ERBα is controlled by the nuclear receptor corepressor 1 (NCoR1), a corepressor that recruits HDAC3, a histone deacetylase, to mediate transcriptional repression of target genes, such as Bmal1
If SIRT1 activity is rhythmic in the hippocampus, it will be interesting to determine whether the circadian clock can modulate CREB expression through SIRT1
Summary
Epigenetic changes, such as DNA methylation or histone modification, can remodel the chromatin and regulate gene expression. EPIGENETIC REGULATION OF MEMORY FORMATION: IS THE CIRCADIAN CLOCK INVOLVED? On the other hand, acts as a signal for recruitment of chromatin remodeling factors which can either activate or repress transcription.
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