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Insights into translocation mechanism and ribosome evolution from cryo-EM structures of translocation intermediates of <i>Giardia intestinalis</i>

Soneya Majumdar, Andrew Emmerich, Sascha Krakovka, Chandra Sekhar Mandava, Staffan G. Svärd, Suparna Sanyal

2023Nucleic Acids Research14 citationsDOIOpen Access PDF

Abstract

Giardia intestinalis is a protozoan parasite that causes diarrhea in humans. Using single-particle cryo-electron microscopy, we have determined high-resolution structures of six naturally populated translocation intermediates, from ribosomes isolated directly from actively growing Giardia cells. The highly compact and uniquely GC-rich Giardia ribosomes possess eukaryotic rRNAs and ribosomal proteins, but retain some bacterial features. The translocation intermediates, with naturally bound tRNAs and eukaryotic elongation factor 2 (eEF2), display characteristic ribosomal intersubunit rotation and small subunit's head swiveling-universal for translocation. In addition, we observe the eukaryote-specific 'subunit rolling' dynamics, albeit with limited features. Finally, the eEF2·GDP state features a uniquely positioned 'leaving phosphate (Pi)' that proposes hitherto unknown molecular events of Pi and eEF2 release from the ribosome at the final stage of translocation. In summary, our study elucidates the mechanism of translocation in the protists and illustrates evolution of the translation machinery from bacteria to eukaryotes from both the structural and mechanistic perspectives.

Topics & Concepts

BiologyRibosomeChromosomal translocationEukaryotic RibosomeGiardiaRibosomal RNAEukaryoteProtein subunitGiardia lambliaRibosomal proteinEukaryotic Small Ribosomal SubunitCell biologyGeneticsRNAGenomeGeneRNA and protein synthesis mechanismsRNA modifications and cancerParasitic Infections and Diagnostics
Insights into translocation mechanism and ribosome evolution from cryo-EM structures of translocation intermediates of <i>Giardia intestinalis</i> | Litcius