De Novo Design, Solution Characterization, and Crystallographic Structure of an Abiological Mn-Porphyrin Binding Protein Capable of Stabilizing a Mn(V) Species

16 November 2020, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

De novo protein design offers the opportunity to test our understanding of how metalloproteins perform difficult transformations. Attaining high-resolution structural information is critical to understanding how such designs function. There have been many successes in the design of porphyrin-binding proteins, however crystallographic characterization has been elusive, limiting what can be learned from such studies as well as the extension to new functions. Moreover, formation of highly oxidizing high-valent intermediates poses design challenges that have not been previously implemented: 1) purposeful design of substrate/oxidant access to the binding site and 2) limiting deleterious oxidation of the protein scaffold. Here we report the first crystallographically characterized porphyrin-binding protein that was programmed to not only bind a synthetic Mn-porphyrin but also maintain binding site access to form high-valent oxidation states. We explicitly designed a binding site with accessibility to dioxygen units in the open coordination site of the Mn center. In solution, the protein is capable of accessing a high-valent Mn(V)-oxo species which can transfer an O-atom to a thioether substrate. The crystallographic structure is within 0.6 Å of the design, and indeed contained an aquo ligand with a second water molecule stabilized by hydrogen-bonding to a Gln sidechain in the active site, offering a structural explanation for the observed reactivity.

Keywords

de novo protein design
manganese
porphyrin
metalloprotein
sulfoxidation
high-valent

Supplementary materials

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MnDPP SI 092820 FINAL
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