Curvature of designed armadillo repeat proteins allows modular peptide binding |
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Authors: | Simon Hansen Patrick Ernst Sebastian L.B. König Christian Reichen Christina Ewald Daniel Nettels Peer R.E. Mittl Benjamin Schuler Andreas Plückthun |
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Affiliation: | Department of Biochemistry, University of Zurich, Winterthurerstrasse 190, 8057 Zürich, Switzerland |
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Abstract: | Designed armadillo repeat proteins (dArmRPs) were developed to create a modular peptide binding technology where each of the structural repeats binds two residues of the target peptide. An essential prerequisite for such a technology is a dArmRP geometry that matches the peptide bond length. To this end, we determined a large set (n = 27) of dArmRP X-ray structures, of which 12 were previously unpublished, to calculate curvature parameters that define their geometry. Our analysis shows that consensus dArmRPs exhibit curvatures close to the optimal range for modular peptide recognition. Binding of peptide ligands can induce a curvature within the desired range, as confirmed by single-molecule FRET experiments in solution. On the other hand, computationally designed ArmRPs, where side chains have been chosen with the intention to optimally fit into a geometrically optimized backbone, turned out to be more divergent in reality, and thus not suitable for continuous peptide binding. Furthermore, we show that the formation of a crystal lattice can induce small but significant deviations from the curvature adopted in solution, which can interfere with the evaluation of repeat protein scaffolds when high accuracy is required. This study corroborates the suitability of consensus dArmRPs as a scaffold for the development of modular peptide binders. |
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Keywords: | AU asymmetric unit CoM center of mass dArmRP designed armadillo repeat protein nArmRP natural armadillo repeat protein Armadillo repeat proteins Peptide binding Protein crystallography Protein engineering Single-molecule FRET |
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