Structural Insights into the Coupling Mechanism of Vectorial CO2 Uptake by DAB1

Authors

Phillips, N. R., Oltrogge, L. M., Remis, J. P., Savage, D. F.

Abstract

CO2 transporters enable bacterial carbon-concentrating mechanisms by catalyzing directional hydration of CO2, yet the basis of this vectorial carbonic anhydrase (CA) activity remains an open question. We used cryo-EM to determine the structure of the DAB1 complex from Thermocrinis albus to 2.13 [A], revealing a heterotrimer in which a deeply buried {beta}-CA active site in DabA is structurally coupled to the proton-translocating subunit DabB. Two conformational states define distinct solvent channels for substrate entry and product exit. A suppressor screen identifies mutations that disrupt coupling while retaining CA activity, underlying the importance of conserved residues that link proton translocation to active-site remodeling. These results support a model in which proton-driven conformational changes regulate substrate access to the active site, enabling vectorial CO2 hydration.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 03 May 2026.

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