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Design of complicated all-α protein structures

Koya Sakuma, Naohiro Kobayashi, Toshihiko Sugiki, Toshio Nagashima, Toshimichi Fujiwara, K. Suzuki, Naoya Kobayashi, Takeshi Murata, Takahiro Kosugi, Rie Koga, Nobuyasu Koga

2024Nature Structural & Molecular Biology24 citationsDOIOpen Access PDF

Abstract

A wide range of de novo protein structure designs have been achieved, but the complexity of naturally occurring protein structures is still far beyond these designs. Here, to expand the diversity and complexity of de novo designed protein structures, we sought to develop a method for designing 'difficult-to-describe' α-helical protein structures composed of irregularly aligned α-helices like globins. Backbone structure libraries consisting of a myriad of α-helical structures with five or six helices were generated by combining 18 helix-loop-helix motifs and canonical α-helices, and five distinct topologies were selected for de novo design. The designs were found to be monomeric with high thermal stability in solution and fold into the target topologies with atomic accuracy. This study demonstrated that complicated α-helical proteins are created using typical building blocks. The method we developed will enable us to explore the universe of protein structures for designing novel functional proteins.

Topics & Concepts

Protein designProtein structureHelix (gastropod)Protein engineeringComputational biologyStructural motifComputer scienceProtein foldingProtein secondary structureCrystallographyBiologyTopology (electrical circuits)ChemistryMathematicsBiochemistryCombinatoricsEnzymeSnailEcologyProtein Structure and DynamicsHemoglobin structure and functionEnzyme Structure and Function
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