1xof

The study of short, autonomously folding peptides, or "miniproteins," is, important for advancing our understanding of protein stability and folding, specificity. Although many examples of synthetic alpha-helical structures, are known, relatively few mixed alpha/beta structures have been, successfully designed. Only one mixed-secondary structure oligomer, an, alpha/beta homotetramer, has been reported thus far. In this report, we, use structural analysis and computational design to convert this, homotetramer into the smallest known alpha/beta-heterotetramer., Computational screening of many possible sequence/structure combinations, led efficiently to the design of short, 21-residue peptides that fold, cooperatively and autonomously into a specific complex in solution. A 1.95, A crystal structure reveals how steric complementarity and charge, patterning encode heterospecificity. The first- and second-generation, heterotetrameric miniproteins described here will be useful as simple, models for the analysis of protein-protein interaction specificity and as, structural platforms for the further elaboration of folding and function.

1XOF is a Protein complex structure of sequences from [1] with ACE as ligand. Full crystallographic information is available from OCA.

Design of a heterospecific, tetrameric, 21-residue miniprotein with mixed alpha/beta structure., Ali MH, Taylor CM, Grigoryan G, Allen KN, Imperiali B, Keating AE, Structure. 2005 Feb;13(2):225-34. PMID:15698566

Page seeded by OCA on Sun Nov 25 02:35:08 2007