Interhelical hydrogen bonding drives strong interactions in membrane proteins

摘要

Polar residues in transmembrane alpha-helices may strongly influence the folding or association of integral membrane proteins. To test whether a motif that promotes helix association in a soluble protein could do the same within a membrane, we designed a model transmembrane helix based on the GCN4 leucine zipper. We found in both detergent miscelles and biological membranes that helix association is driven strongly by asparagine, independent of the rest of the hydrophobic leucine and/or valine sequence. Hydrogen bonding between membrane helices gives stronger associations than the packing of surfaces in glycophorin A helices, creating an opportunity to stabilize structures, but also implying a danger that non-specific interactions might occur. Th us, membrane protei ns may fold to avoid exposure of strongly hydrogen bonding groups at their lipid exposed surfaces. [References: 44]