Covalently-crosslinked peptides present attractive opportunities for developing new therapeutics. Lying between small molecule and protein therapeutics in size, natural crosslinked peptides play critical roles in signaling, virulence and immunity. Engineering novel peptides with precise control over their three-dimensional structures is a significant challenge. Here we describe the development of computational methods for de novo design of conformationally-restricted peptides, and the use of these methods to design hyperstable disulfide-stabilized miniproteins, heterochiral peptides, and N-C cyclic peptides. Experimentally-determined X-ray and NMR structures for 12 of the designs are nearly identical to the computational models. The computational design methods and stable scaffolds provide the basis for a new generation of peptide-based drugs.
Revised: January 18, 2017 |
Published: October 20, 2016
Citation
Bhardwaj G., V.K. Mulligan, C.D. Bahl, J.M. Gilmore, P. Harvey, O. Cheneval, and G.W. Buchko, et al. 2016.Accurate de novo design of hyperstable constrained peptides.Nature 538, no. 7625:329-335.PNNL-SA-117706.doi:10.1038/nature19791