Specific control of peptide assembly with combined hydrophilic and hydrophobic interfaces

Designed coiled-coil heterotrimers are described whose assembly is governed by both hydrophobic and hydrophilic forces. Sterically matched hydrophobic core side-chain packing of alanine and cyclohexylalanine has been shown to promote formation of a 1:1:1 heterotrimer. Manipulation of hydrophilic glutamic acid (Glu)/lysine (Lys) pairs at each of three helical contact interfaces provides a secondary recognition mechanism. Peptides with matched cores and hydrophilic contacts form stable heterotrimers (DeltaG(unf) at 25 degreesC = 17.93 kcal/mol; MWapp = 11362 vs 11563 calcd for trimer), as do those with a single Lys/Lys (but not Glu/Glu) interface. The additional specificity engendered by simultaneous operation of two interfaces was used to design a system in which six different peptides are mixed to form three specific and independent heterotrimers; in the same solution.