Nature Communications (Mar 2024)

Identifying a key spot for electron mediator-interaction to tailor CO dehydrogenase’s affinity

  • Suk Min Kim,
  • Sung Heuck Kang,
  • Jinhee Lee,
  • Yoonyoung Heo,
  • Eleni G. Poloniataki,
  • Jingu Kang,
  • Hye-Jin Yoon,
  • So Yeon Kong,
  • Yaejin Yun,
  • Hyunwoo Kim,
  • Jungki Ryu,
  • Hyung Ho Lee,
  • Yong Hwan Kim

DOI
https://doi.org/10.1038/s41467-024-46909-1
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 12

Abstract

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Abstract Fe‒S cluster-harboring enzymes, such as carbon monoxide dehydrogenases (CODH), employ sophisticated artificial electron mediators like viologens to serve as potent biocatalysts capable of cleaning-up industrial off-gases at stunning reaction rates. Unraveling the interplay between these enzymes and their associated mediators is essential for improving the efficiency of CODHs. Here we show the electron mediator-interaction site on ChCODHs (Ch, Carboxydothermus hydrogenoformans) using a systematic approach that leverages the viologen-reactive characteristics of superficial aromatic residues. By enhancing mediator-interaction (R57G/N59L) near the D-cluster, the strategically tailored variants exhibit a ten-fold increase in ethyl viologen affinity relative to the wild-type without sacrificing the turn-over rate (k cat). Viologen-complexed structures reveal the pivotal positions of surface phenylalanine residues, serving as external conduits for the D-cluster to/from viologen. One variant (R57G/N59L/A559W) can treat a broad spectrum of waste gases (from steel-process and plastic-gasification) containing O2. Decoding mediator interactions will facilitate the development of industrially high-efficient biocatalysts encompassing gas-utilizing enzymes.