The mntH gene encodes the major Mn2+ transporter in Bradyrhizobium japonicum and is regulated by manganese via the Fur protein

The bacterial Nramp family protein MntH is a divalent metal transporter, but mntH mutants have little or no phenotype in organisms where it has been studied. Here, we identify the mntH homologue of Bradyrhizobium japonicum , and demonstrate that it is essential for Mn²⁺ transport and for maintenance of cellular manganese homeostasis. Transport activity was induced under manganese deficiency, and Fe²⁺ did not compete with ⁵⁴Mn²⁺ for uptake by cells. The steady-state level of mntH mRNA was negatively regulated by manganese, but was unaffected by iron. Control of mntH expression and Mn²⁺ transport by manganese was lost in a fur strain, resulting in constitutively high activity. Fur protected a 35 bp region of the mntH promoter in DNase I footprinting analysis that includes three imperfect direct repeat hexamers that are needed for full occupancy. Mn²⁺ increased the affinity of Fur for the mntH promoter by over 50-fold, with a K _d value of 2.2 nM in the presence of metal. The findings identify MntH as the major Mn²⁺ transporter in B. japonicum , and show that Fur is a manganese-responsive regulator in that organism. Furthermore, Fe²⁺ is neither a substrate for MntH nor a regulator of mntH expression in vivo .