Circadian clock control of ribosome composition promotes rhythmic translation and termination fidelity.
Teresa M Lamb, Kathrina D Castillo, Rachel Porter, Cheng Wu, Samuel O Purvine, Griffin Best, Erika Zink, Ebimobowei O Preh, Lunda Shen, Matthew S Sachs, Deborah Bell-Pedersen
Abstract
Open AccessRibosome composition is dynamic, shifting with cell state and stress, but whether it varies with circadian time is unknown. Here, we uncover circadian clock-driven changes in ribosome composition in Neurospora crassa. Mass spectrometry of ribosomes across circadian time identified six ribosomal proteins and one associated factor under clock control. Rhythms in eL31 abundance were validated in purified ribosomes, and deletion of el31 disrupted translation rhythms in nearly half of rhythmically translated mRNAs. N. crassa eL31 promotes circadian control of translation termination and impacts elongation fidelity while maintaining Mg homeostasis, a key determinant of translational accuracy. These findings reveal that the circadian clock reprograms ribosome composition to orchestrate rhythmic translation and fidelity, temporally expanding the proteome beyond the static genome to align cellular function with time of day.