Mechanism of Ribosome Stalling by the AMD1 C-terminal Tail Arrest Peptide

AMD1 encodes Adenosylmethionine decarboxylase 1 (AMD1), a key enzyme required for polyamine biosynthesis. A subset of ribosomes translating the AMD1 coding sequence (CDS) read through the stop codon and pause at the next in-frame stop codon 384 nucleotides downstream. The resulting C-terminal extension (C-tail) is universally conserved across all vertebrates, implying that its molecular function is critical to their fitness. Despite growing evidence that such cis-acting elements regulate translation of their genes, the molecular mechanism by which the C-tail mediates ribosome stalling remains unclear. Here, we determined the structure of the ribosome nascent chain complex paused by the AMD1 C-tail which traps eukaryotic release factor 1 (eRF1) with the ATP-binding cassette sub-family E member 1 (ABCE1). The nascent chain forms a molecular clamp that positions an arginine finger in the peptidyl-transferase center, occluding the accommodation of the eRF1 GGQ motif thereby hampering translation termination. Analysis of aggregated ribosome profiling data revealed several genes with a pattern of stop codon readthrough followed by ribosome stalling at a specific location, suggesting that regulatory readthrough-stall mechanisms may not be limited to AMD1 .