Abstract
The sequence of a transmembrane (TM) domain and the adjacent regions are important for recognition, orientation, and integration at the translocon during membrane protein biosynthesis. However, the sequences of individual TM domains vary considerably. Although some general effects of electrostatic and hydrophobic interactions have been observed, it is still not clear what features of diverse sequences influence TM domain orientation. Here we utilized the ability of the prion protein (PrP) to be synthesized in multiple topological forms to assay the effects of substitutions and mutations on TM domain orientation. Several of the TM domains we tested appear to contain no inherent information regulating orientation. In contrast, we found that the middle region of the PrP TM domain significantly reduces the ability of the chain to invert its orientation in the translocon. We also observed that the C-terminal region of the PrP TM domain influences orientation, and we characterized the orientation differences between two forms of a physiologically relevant polymorphism in this region. Specifically, we found that the identity of a single amino acid, that at position 129, can significantly alter PrP TM domain orientation. Because position 129 is the location of the disease-associated Met/Val polymorphism, we discuss both how this small change may affect TMD orientation and the larger biological implications of these results.
Highlights
With the translocon, a proteinaceous pore in the endoplasmic reticulum (ER) lipid bilayer
During co-translational translocation at the ER, some prion protein (PrP) nascent chains pass completely through the translocon to generate secretory PrP (SecPrP), others integrate into the lipid bilayer with their N terminus in the ER lumen (NtmPrP), and still others integrate in the opposite orientation (CtmPrP; see Fig. 1A)
We examined the properties of the nascent chain that influence inversion of the TM domain in the translocon
Summary
With the translocon, a proteinaceous pore in the ER lipid bilayer. Signal and signal-anchor sequences are first inserted into the translocon with the N terminus near the ER lumen [2]. We utilized substitutions and mutations in different regions of the PrP TM domain to characterize the features that influence orientation.
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