The retinal guanine nucleotide-binding protein, transducin (TD), was subjected to chromatography on Blue Sepharose (BLS). A simple two-step protocol was developed, allowing the resolution of the alpha-subunit and the beta gamma-complex of the protein extracted from bovine retina by the use of a poorly hydrolysable GTP analogue. If TD was applied to BLS in a divalent cation-containing buffer, the beta gamma-complex did not bind to the resin, whereas the alpha-subunit was retained; elution of the latter was achieved by removing the divalent cation from the buffer. Binding of the alpha-subunit to BLS was not affected by nucleotides or by ADP ribosylation catalysed by bacterial toxins. However, adsorption of the alpha-subunit by BLS or by a strong cation exchanger (Mono S) depended strictly on divalent cations. In contrast to previous reports, the data suggest the formation of a complex between a sulphonyl residue of Cibacron Blue, a divalent metal ion, and the alpha-subunit as the relevant binding mechanism causing adsorption of the alpha-subunit to BLS.