Production of ATP by the glycolytic pathway in the mammalian pathogenic stage of protists from the genus Trypanosoma is required for the survival of the parasites. Cofactor-independent phosphoglycerate mutase (iPGAM) is particularly attractive as a drug target because it shows no similarity to the corresponding enzyme in humans, and has also been genetically validated as a target by RNAi experiments. It has previously been shown that trypanosomatid iPGAMs require Co(2+) to reach maximal activity, but the biologically relevant metal has remained unclear. In this paper the metal content in the cytosol of procyclic and bloodstream-form T. brucei (analysed by inductively coupled plasma-optical emission spectroscopy) shows that Mg(2+), Zn(2+) and Fe(2+) were the most abundant, whereas Co(2+) was below the limit of detection (<0.035 μM). The low concentration indicates that Co(2+) is unlikely to be the biologically relevant metal, but that instead, Mg(2+) and/or Zn(2+) may assume this role. Results from metal analysis of purified Leishmania mexicana iPGAM by inductively coupled plasma-mass spectrometry also show high concentrations of Mg(2+) and Zn(2+), and are consistent with this proposal. Our data suggest that in vivo cellular conditions lacking Co(2+) are unable to support the maximal activity of iPGAM, but instead maintain its activity at a relatively low level by using Mg(2+) and/or Zn(2+). The physiological significance of these observations is being pursued by structural, biochemical and biophysical studies.