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AbstractTranscription is necessary for the synthesis of new proteins, often leading to the assumption that changes in transcript levels lead to changes in protein levels which directly impact a cell’s phenotype. Using a synchronized biological rhythm, we show that despite genome-wide partitioning of transcription, transcripts and translation levels into two phase-shifted expression clusters related to metabolism, detectable protein levels remain constant over time. This disconnect between cycling translation and constant protein levels can be explained by slow protein turnover rates, with overall protein levels maintained by low level pulses of new protein synthesis. Instead, rhythmic post-translational regulation of the activities of different proteins, influenced by the metabolic state of the cells, appears to be key to coordinating the physiology of the biological rhythm with cycling transcription. Thus, transcriptional and translational cycling reflects, rather than drives, metabolic and biosynthetic changes during biological rhythms. We propose that transcriptional changes are often the consequence, rather than the cause, of changes in cellular physiology and that caution is needed when inferring the activity of biological processes from transcript data. Changes in protein levels do not explain the changing states of a biological rhythmSlow protein turnover rates decouple proteins levels from a rhythmic transcriptomeMetabolites determine protein activity via rhythmic post-translational modificationsCycling protein activity explains rhythmic transcription and ribosome biogenesisA cycling transcriptome is a consequence, not a cause, of physiological changes

Original publication

DOI

10.1101/833921

Type

Journal article

Publication Date

08/11/2019