Structural and functional basis of proton-independent transition metal import by a canonical bacterial Nramp transporter

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Abstract

Natural resistance-associated macrophage proteins (Nramps) are divalent transition metal transporters found in most organisms, typically coupling metal uptake to proton co-transport. How this coupling evolved, however, remains unclear. We present structural, functional, and evolutionary analyses of a clade B Nramp from the gut bacterium Bacteroides fragilis (BfraNramp). Phylogenetic reconstruction positions clade B as the most basal group of canonical Nramps, retaining conserved metal-binding motifs while lacking most residues that form the canonical proton pathway. We show that BfraNramp efficiently transports Mn²⁺ and Cd²⁺ with high apparent affinity but without proton co-transport or dependence on membrane potential or pH. Structures of metal-free and Mn²⁺-bound BfraNramp reveal an inward-open conformation and a distinct metal coordination geometry involving a conserved glutamate on transmembrane helix 3. Together, these results identify clade B Nramps as proton-independent transition metal uniporters and suggest that proton coupling emerged later in Nramp evolution, following establishment of the metal-binding site.

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