How Ribosomes Shape Protein Folding

Meskovich, Casey

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https://hdl.handle.net/2142/130347 Copy

Description

Title

How Ribosomes Shape Protein Folding

Author(s)

Meskovich, Casey

Issue Date

2026-07-14

Keyword(s)

• double helix digest
• undergraduate research
• ribosomes
• protein folding

Date of Ingest

2025-11-14T16:27:04-06:00

Abstract

Protein folding is a fundamental biological process essential to cellular function, yet its mechanisms (particularly those occurring during synthesis) remain incompletely understood. Traditionally viewed as a post-translational event, mounting evidence now reveals that protein folding often begins co­translationally, with the ribosome playing a direct and active role. This review examines how ribosomes contribute to co-translational folding by providing a confined, highly regulated environment within the exit tunnel that shapes early folding events, guides hydrophobic collapse, and coordinates folding with translation speed. Structural and thermodynamic studies reveal that the ribosome minimizes entropic penalties and promotes stable intermediate states, thus enhancing folding efficiency and fidelity. Furthermore, ribosome-associated chaperones assist in preventing misfolding and aggregation. These insights not only reshape our understanding of the central dogma of protein science but also have profound implications for disease research, including cancer and neurodegenerative disorders, and offer new targets for therapeutic intervention aimed at regulating proteostasis during translation.

Type of Resource

text

Genre of Resource

article

Language

eng

Copyright and License Information

Copyright 2025 Casey Meskovich

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