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Arrest Peptide Profiling resolves co-translational folding pathways and chaperone interactions in vivo

Xiuqi Chen, Vincent J. Hilser and Christian M. Kaiser ()
Additional contact information
Xiuqi Chen: Johns Hopkins University
Vincent J. Hilser: Johns Hopkins University
Christian M. Kaiser: Johns Hopkins University

Nature Communications, 2025, vol. 16, issue 1, 1-12

Abstract: Abstract Cytosolic proteins begin to fold co-translationally as soon as they emerge from the ribosome during translation. These early co-translational steps are crucial for overall folding and are guided by an intricate network of interactions with molecular chaperones. Because cellular co-translational folding is challenging to detect, its timing and progression remain largely elusive. To quantitatively define co-translational folding in live cells, we developed a high-throughput method that we term “Arrest Peptide Profiling” (AP Profiling). Combining AP Profiling with single-molecule experiments, we delineate co-translational folding for a set of GTPase domains with similar structures, defining how topology shapes folding pathways. Genetic ablation of nascent chain-binding chaperones results in discrete and localized folding changes, highlighting how functional redundancy among chaperones is achieved by distinct engagement with the nascent protein. Our work provides a window into cellular folding pathways of structurally intricate proteins and paves the way for systematic studies of nascent protein folding at exceptional resolution and throughput.

Date: 2025
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DOI: 10.1038/s41467-025-61398-6

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