Quantification of Membrane Protein Self-Association with a High-Throughput Compatible Fluorescence Assay.

For many membrane proteins, self-association serves both structural and functional roles. Studies of such association can be simplified by switching to micelles as the membrane-mimicking environment, but native interaction is not preserved in all detergents. The selection of suitable conditions for biochemical experiments would be greatly facilitated by a quantitative high-throughput assay.

Helix macrodipole control of beta 3 peptide 14-helix stability in water.

beta-Peptides have attracted considerable attention by virtue of their ability to populate helical secondary structures in methanol, even in the absence of stabilizing tertiary interactions. Recent efforts in beta-peptide design have produced few beta3-peptides that form stable 14-helices in water; those that do require stabilizing intramolecular salt bridges on two of three helical faces and therefore possess limited utility as tools in biological research. Here we show that favorable interactions with the 14-helix macrodipole significantly stabilize the 14-helix in water, alleviating the need for multiple salt bridges on two of three helical faces.