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Conformational rearrangements upon start codon recognition in human 48S translation initiation complex

Sung-Hui Yi, Valentyn Petrychenko, Jan Erik Schliep, Akanksha Goyal, A. Linden, Ashwin Chari, Henning Urlaub, Holger Stark, Marina V. Rodnina, Sarah Adio, N. Fischer

2022Nucleic Acids Research46 citationsDOIOpen Access PDF

Abstract

Selection of the translation start codon is a key step during protein synthesis in human cells. We obtained cryo-EM structures of human 48S initiation complexes and characterized the intermediates of codon recognition by kinetic methods using eIF1A as a reporter. Both approaches capture two distinct ribosome populations formed on an mRNA with a cognate AUG codon in the presence of eIF1, eIF1A, eIF2-GTP-Met-tRNAiMet and eIF3. The 'open' 40S subunit conformation differs from the human 48S scanning complex and represents an intermediate preceding the codon recognition step. The 'closed' form is similar to reported structures of complexes from yeast and mammals formed upon codon recognition, except for the orientation of eIF1A, which is unique in our structure. Kinetic experiments show how various initiation factors mediate the population distribution of open and closed conformations until 60S subunit docking. Our results provide insights into the timing and structure of human translation initiation intermediates and suggest the differences in the mechanisms of start codon selection between mammals and yeast.

Topics & Concepts

BiologyStart codonTranslation (biology)Eukaryotic translationGeneticsStop codonCodon usage biasComputational biologyBase sequenceDNAGeneMessenger RNAGenomeRNA and protein synthesis mechanismsRNA modifications and cancerRNA Research and Splicing