Structural Insights into the Coupling Mechanism of Vectorial CO 2 Uptake by DAB1

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Abstract

CO 2 transporters enable bacterial carbon-concentrating mechanisms by catalyzing directional hydration of CO 2 , 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 Å, revealing a heterotrimer in which a deeply buried β-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.
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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 Å, revealing a heterotrimer in which a deeply buried β-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. Competing Interest Statement The authors have declared no competing interest.

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last seen: 2026-05-20T01:45:00.602351+00:00