Living at the border: biophysical gateways into membrane protein insertion and folding
Brayan Grau, Ismael Mingarro

TL;DR
This paper reviews how membrane proteins fold and insert into cell membranes, focusing on the physical and energetic factors that guide these processes.
Contribution
The paper provides a unified view of membrane protein biogenesis by integrating sequence-encoded information, molecular machinery, and membrane physics.
Findings
The membrane-water interface acts as a critical energetic gateway for α-helical membrane protein folding.
Co-translational folding within the ribosome exit tunnel influences secondary structure formation and final polypeptide behavior.
Lipid-protein coupling and bilayer adaptability stabilize transmembrane helices and promote higher-order assembly.
Abstract
Membrane proteins inhabit a uniquely heterogeneous environment in which folding, insertion, and assembly are inseparably coupled to the physical properties of lipid bilayers. Despite their central biological relevance, the principles governing membrane protein folding are less well defined than those for soluble proteins due to the energetic complexity of transferring polypeptide chains across, into, or along membranes. This review examines the biophysical determinants that shape the early stages of α-helical membrane protein folding, emphasizing the membrane-water interface as a critical energetic gateway. We trace the historical development of hydrophobic scales, from early solvent-based peptide measurements to membrane-translocon-derived scales, highlighting how successive refinement has revealed distinct energetic preferences for aqueous, interfacial, and fully inserted states.…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsLipid Membrane Structure and Behavior · RNA and protein synthesis mechanisms · Biochemical and Structural Characterization
