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Design of stimulus-responsive two-state hinge proteins

Florian Praetorius, Philip J. Y. Leung, Maxx H. Tessmer, Adam Broerman, Cullen Demakis, Acacia F. Dishman, Arvind Pillai, Abbas Idris, David Juergens, Justas Dauparas, Xinting Li, Paul M. Levine, Mila Lamb, Ryanne Ballard, Stacey Gerben, Hannah Nguyen, Alex Kang, Banumathi Sankaran, Asim K. Bera, Brian F. Volkman, Jeff Nivala, Stefan Stoll, David Baker

2023Science89 citationsDOIOpen Access PDF

Abstract

In nature, proteins that switch between two conformations in response to environmental stimuli structurally transduce biochemical information in a manner analogous to how transistors control information flow in computing devices. Designing proteins with two distinct but fully structured conformations is a challenge for protein design as it requires sculpting an energy landscape with two distinct minima. Here we describe the design of "hinge" proteins that populate one designed state in the absence of ligand and a second designed state in the presence of ligand. X-ray crystallography, electron microscopy, double electron-electron resonance spectroscopy, and binding measurements demonstrate that despite the significant structural differences the two states are designed with atomic level accuracy and that the conformational and binding equilibria are closely coupled.

Topics & Concepts

HingeStimulus (psychology)NeurosciencePsychologyCognitive psychologyEngineeringStructural engineeringAdvanced Fluorescence Microscopy TechniquesPhotoreceptor and optogenetics researchLipid Membrane Structure and Behavior
Design of stimulus-responsive two-state hinge proteins | Litcius