Abstract
Specific interactions between alpha-helical transmembrane segments are important for folding and/or oligomerization of membrane proteins. Previously, we have shown that most transmembrane helix-helix interfaces of a set of crystallized membrane proteins are structurally equivalent to soluble leucine zipper interaction domains. To establish a simplified model of these membrane-spanning leucine zippers, we studied the homophilic interactions of artificial transmembrane segments using different experimental approaches. Importantly, an oligoleucine, but not an oligoalanine, se- quence efficiently self-assembled in membranes as well as in detergent solution. Self-assembly was maintained when a leucine zipper type of heptad motif consisting of leucine residues was grafted onto an alanine host sequence. Analysis of point mutants or of a random sequence confirmed that the heptad motif of leucines mediates self-recognition of our artificial transmembrane segments. Further, a data base search identified degenerate versions of this leucine motif within transmembrane segments of a variety of functionally different proteins. For several of these natural transmembrane segments, self-interaction was experimentally verified. These results support various lines of previously reported evidence where these transmembrane segments were implicated in the oligomeric assembly of the corresponding proteins.
Highlights
We replaced the leucines of AZ2 by three different random sequences consisting of the most abundant residues found within transmembrane segments (TMSs) [24] while maintaining total hydrophobicity and side-chain surface [25]
We demonstrate that an artificial TMS of leucine residues efficiently self-assembles in membranes and in detergent solution
A heptad motif of leucine residues suffices to elicit selfassembly, which is thought to be driven by the type of side-chain packing known from leucine zipper interaction domains
Summary
Other TMS interactions involve a leucine zipper type of side-chain packing as known from certain soluble proteins. The interacting residues form repeated heptad (abcdefg) motifs. There, the heptads are repeated on average 2–3 times, and the motif gaxxdexgaxxdexga covers the central parts of the membrane-spanning interfaces. We show that an oligoleucine sequence or a gaxxdexgaxxdexga motif of leucine residues elicits specific self-assembly in membranes and in detergent solution. Variants of this motif are found within the TMSs of a diverse set of natural membrane proteins, where they appear to be important for oligomeric assembly
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