Mechanism of ribosome stalling by the AMD1 C-terminal tail arrest peptide
Emir Maldosevic, Fabio S. Boiocchi, Michal I. Swirski, Kyle A. Meiklejohn, Martina M. Yordanova, Pavel V. Baranov, Ahmad Jomaa

TL;DR
The AMD1 gene's C-terminal tail causes ribosome stalling by trapping release factors, potentially regulating translation.
Contribution
The study reveals the molecular mechanism by which the AMD1 C-tail arrests ribosomes during translation.
Findings
The AMD1 C-tail forms a clamp that blocks eRF1 GGQ motif accommodation in the ribosome's peptidyl-transferase center.
The structure of the paused ribosome complex shows eRF1 and ABCE1 are trapped during stalling.
Ribosome profiling data suggests similar readthrough-stall mechanisms may exist in other genes.
Abstract
AMD1 encodes adenosylmethionine decarboxylase 1 (AMD1), a key enzyme in polyamine biosynthesis. A subset of ribosomes translating the AMD1 coding sequence read through the stop codon and pause at a second in-frame stop 384 nucleotides downstream, producing a conserved C-terminal extension (C-tail). 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 subfamily E member 1 (ABCE1). The nascent chain forms a molecular clamp that positions an arginine hook in the peptidyl-transferase center, occluding the accommodation of the eRF1 GGQ motif thereby hampering translation termination. Analysis of…
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Taxonomy
TopicsPolyamine Metabolism and Applications · Peptidase Inhibition and Analysis · Cancer-related gene regulation
