Genes Dev. 2024 Nov 19.
Circadian clocks (∼24 h) are responsible for daily physiological, metabolic, and behavioral changes. Central to these oscillations is the regulation of gene transcription. Previous research has identified clock protein complexes that interact with the transcriptional machinery to orchestrate circadian transcription, but technological constraints have limited the identification of de novo proteins. Here we use a novel genomic locus-specific quantitative proteomics approach to provide a new perspective on time of day-dependent protein binding at a critical chromatin locus involved in circadian transcription: the E-box. Using proximity labeling proteomics at the E-box of the clock-controlled Dbp gene in mouse fibroblasts, we identified 69 proteins at this locus at the time of BMAL1 binding. This method successfully enriched BMAL1 as well as HDAC3 and HISTONE H2A.V/Z, known circadian regulators. New E-box proteins include the MINK1 kinase and the transporters XPO7 and APPL1, whose depletion in human U-2 OS cells results in disrupted circadian rhythms, suggesting a role in the circadian transcriptional machinery. Overall, our approach uncovers novel circadian modulators and provides a new strategy to obtain a complete temporal picture of circadian transcriptional regulation.
Keywords: DNA–protein proximity labeling; circadian clock; circadian transcription; enhancer–enhancer interactions; protein–protein interactions; proteomics