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The ribosome stabilizes partially folded intermediates of a nascent multi-domain protein

Sammy H. S. Chan, Tomasz Włodarski, Julian O. Streit, Anaïs M. E. Cassaignau, Lauren F. Woodburn, Minkoo Ahn, Georg Johannes Freiherr von Sass, Christopher A. Waudby, Nediljko Budiša, Lisa D. Cabrita, John Christodoulou

2022Nature Chemistry52 citationsDOIOpen Access PDF

Abstract

Abstract Co-translational folding is crucial to ensure the production of biologically active proteins. The ribosome can alter the folding pathways of nascent polypeptide chains, yet a structural understanding remains largely inaccessible experimentally. We have developed site-specific labelling of nascent chains to detect and measure, using 19 F nuclear magnetic resonance (NMR) spectroscopy, multiple states accessed by an immunoglobulin-like domain within a tandem repeat protein during biosynthesis. By examining ribosomes arrested at different stages during translation of this common structural motif, we observe highly broadened NMR resonances attributable to two previously unidentified intermediates, which are stably populated across a wide folding transition. Using molecular dynamics simulations and corroborated by cryo-electron microscopy, we obtain models of these partially folded states, enabling experimental verification of a ribosome-binding site that contributes to their high stabilities. We thus demonstrate a mechanism by which the ribosome could thermodynamically regulate folding and other co-translational processes.

Topics & Concepts

ChemistryRibosomeDomain (mathematical analysis)BiophysicsTranslation (biology)BiochemistryRNAMessenger RNAGeneMathematical analysisMathematicsBiologyRNA and protein synthesis mechanismsRNA modifications and cancerBacterial Genetics and Biotechnology
The ribosome stabilizes partially folded intermediates of a nascent multi-domain protein | Litcius