Author:
Gates Zachary P.,Vinogradov Alexander A.,Quartararo Anthony J.,Bandyopadhyay Anupam,Choo Zi-Ning,Evans Ethan D.,Halloran Kathryn H.,Mijalis Alexander J.,Mong Surin K.,Simon Mark D.,Standley Eric A.,Styduhar Evan D.,Tasker Sarah Z.,Touti Faycal,Weber Jessica M.,Wilson Jessica L.,Jamison Timothy F.,Pentelute Bradley L.
Abstract
Chemical methods have enabled the total synthesis of protein molecules of ever-increasing size and complexity. However, methods to engineer synthetic proteins comprising noncanonical amino acids have not kept pace, even though this capability would be a distinct advantage of the total synthesis approach to protein science. In this work, we report a platform for protein engineering based on the screening of synthetic one-bead one-compound protein libraries. Screening throughput approaching that of cell surface display was achieved by a combination of magnetic bead enrichment, flow cytometry analysis of on-bead screens, and high-throughput MS/MS-based sequencing of identified active compounds. Direct screening of a synthetic protein library by these methods resulted in the de novo discovery of mirror-image miniprotein-based binders to a ∼150-kDa protein target, a task that would be difficult or impossible by other means.
Funder
DOD | Defense Advanced Research Projects Agency
Publisher
Proceedings of the National Academy of Sciences
Cited by
40 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献