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Residue-by-residue analysis of cotranslational membrane protein integration in vivo.

eLife (2021-02-09)
Felix Nicolaus, Ane Metola, Daphne Mermans, Amanda Liljenström, Ajda Krč, Salmo Mohammed Abdullahi, Matthew Zimmer, Thomas F Miller Iii, Gunnar von Heijne
RESUMO

We follow the cotranslational biosynthesis of three multispanning Escherichia coli inner membrane proteins in vivo using high-resolution force profile analysis. The force profiles show that the nascent chain is subjected to rapidly varying pulling forces during translation and reveal unexpected complexities in the membrane integration process. We find that an N-terminal cytoplasmic domain can fold in the ribosome exit tunnel before membrane integration starts, that charged residues and membrane-interacting segments such as re-entrant loops and surface helices flanking a transmembrane helix (TMH) can advance or delay membrane integration, and that point mutations in an upstream TMH can affect the pulling forces generated by downstream TMHs in a highly position-dependent manner, suggestive of residue-specific interactions between TMHs during the integration process. Our results support the 'sliding' model of translocon-mediated membrane protein integration, in which hydrophobic segments are continually exposed to the lipid bilayer during their passage through the SecYEG translocon.

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BL21(DE3) Electrocompetent Cells, for protein expression