Design of intrinsically disordered region binding proteins

Kejia Wu; Hanlun Jiang; Derrick R. Hicks; Caixuan Liu; Edin Muratspahić; Theresa A. Ramelot; Yuexuan Liu; Kerrie E. McNally; Sebastian Kenny; Andrei Mihut; Amit Gaur; Brian Coventry; Wei Chen; Asim K. Bera; Alex Kang; Stacey Gerben; Mila Lamb; Analisa Murray; Xinting Li; Madison Kennedy; Wei Yang; Zihao Song; Gudrun Schober; Stuart M. Brierley; John S. O’Neill; Michael H. Gelb; G.T. Montelione; Emmanuel Derivery; David Baker

doi:10.1126/science.adr8063

Design of intrinsically disordered region binding proteins

Kejia Wu(University of Washington), Hanlun Jiang(University of Washington), Derrick R. Hicks(University of Washington), Caixuan Liu(University of Washington), Edin Muratspahić(University of Washington), Theresa A. Ramelot(Rensselaer Polytechnic Institute), Yuexuan Liu(University of Washington), Kerrie E. McNally(MRC Laboratory of Molecular Biology), Sebastian Kenny(University of Washington), Andrei Mihut(MRC Laboratory of Molecular Biology), Amit Gaur(Rensselaer Polytechnic Institute), Brian Coventry(Howard Hughes Medical Institute), Wei Chen(University of Washington), Asim K. Bera(University of Washington), Alex Kang(University of Washington), Stacey Gerben(University of Washington), Mila Lamb(University of Washington), Analisa Murray(University of Washington), Xinting Li(University of Washington), Madison Kennedy(University of Washington), Wei Yang(University of Washington), Zihao Song(University of Washington), Gudrun Schober(South Australian Health and Medical Research Institute), Stuart M. Brierley(South Australian Health and Medical Research Institute), John S. O’Neill(MRC Laboratory of Molecular Biology), Michael H. Gelb(University of Washington), G.T. Montelione(Rensselaer Polytechnic Institute), Emmanuel Derivery(MRC Laboratory of Molecular Biology), David Baker(Howard Hughes Medical Institute)

Science

July 17, 2025

10.1126/science.adr8063

Cited by 75Open Access

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Abstract

Intrinsically disordered proteins and peptides play key roles in biology, but a lack of defined structures and high variability in sequence and conformational preferences have made targeting such systems challenging. We describe a general approach for designing proteins that bind intrinsically disordered protein regions in diverse extended conformations with side chains fitting into complementary binding pockets. We used the approach to design binders for 39 highly diverse unstructured targets, including polar targets, and obtained designs with 100-picomolar to 100-nanomolar affinities in 34 cases, testing ~22 designs per target. The designs function in cells and as detection reagents and are specific for their intended targets in all-by-all binding experiments. Our approach is a major step toward a general solution to the intrinsically disordered protein and peptide recognition problem.

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