Cells integrate metabolic information into core molecular processes such as transcription to adapt to environmental changes. Chromatin, the physiological template of the eukaryotic genome, has emerged as a sensor and rheostat for fluctuating intracellular metabolites. In this review, we highlight the growing list of chromatin-associated metabolites that are derived from diverse sources. We discuss recent advances in our understanding of the mechanisms by which metabolic enzyme activities shape the chromatin structure and modifications, how specificity may emerge from their seemingly broad effects, and technologies that facilitate the study of epigenome-metabolome interplay. The recognition that metabolites are immanent components of the chromatin regulatory network has significant implications for the evolution, function, and therapeutic targeting of the epigenome.
Keywords: chromatin; epigenome; histone acylation; histone methylation; metabolism; oncometabolite; transcription.
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