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RAPIDASH: A tag-free enrichment of ribosome-associated proteins reveals compositional dynamics in embryonic tissues and stimulated macrophages.

Teodorus Theo SusantoVictoria HungAndrew G LevineCraig H KerrYongjin YooYuxiang ChenJuan A Oses-PrietoLisa FrommKotaro FujiiMarius WernigAlma L BurlingameDavide RuggeroMaria Barna
Published in: bioRxiv : the preprint server for biology (2023)
Ribosomes are emerging as direct regulators of gene expression, with ribosome-associated proteins (RAPs) allowing ribosomes to modulate translational control. However, a lack of technologies to enrich RAPs across many sample types has prevented systematic analysis of RAP number, dynamics, and functions. Here, we have developed a label-free methodology called RAPIDASH to enrich ribosomes and RAPs from any sample. We applied RAPIDASH to mouse embryonic tissues and identified hundreds of potential RAPs, including DHX30 and LLPH, two forebrain RAPs important for neurodevelopment. We identified a critical role of LLPH in neural development that is linked to the translation of genes with long coding sequences. Finally, we characterized ribosome composition remodeling during immune activation and observed extensive changes post-stimulation. RAPIDASH has therefore enabled the discovery of RAPs ranging from those with neuroregulatory functions to those activated by immune stimuli, thereby providing critical insights into how ribosomes are remodeled.
Keyphrases
  • gene expression
  • label free
  • dna methylation
  • small molecule
  • genome wide
  • risk assessment
  • quality control