In cells, the alpha-anomers of aldoses are the preferred metabolizable substrates, while beta-anomers of aldoses play their role in glycan structure. In the cytoplasm, alpha- and beta-anomers of aldoses interconvert through the enzyme termed aldose 1-epimerase or mutarotase (EC 5.1.3.3). We have identified a mutarotase gene in Entamoeba histolytica, the causative agent of non-bacterial dysentery in humans. Cloning and characterization of this gene in two strains of the parasite (HM-1:IMSS and Rahman) that differ in their pathogenicity, revealed that the sequence is identical in both strains. A recombinant E. histolytica mutarotase was produced as well as specific antibodies that recognized a 38 kDa protein in trophozoite lysates of both strains. Mutarotase activity was observed with the recombinant protein as well as in lysates of both HM-1:IMSS and Rahman, the former exhibiting a slightly higher mutarotase activity. Finally, we have shown by complementation that overexpression of the E. histolytica mutarotase in a mutarotase defective Escherichia coli strain restores the ability of these bacteria to grow in minimal medium with phenyl-beta-galactopyranoside as the sole carbon source.