| Abstract: | Three cationic glutathione S-transferase forms isolated from rat liver were characterized as dimers that originated from different combinations of two subunit types, Ya and Yc. The cationic forms were purified using lysyl glutathione affinity matrices and were chromatographically resolved from anionic glutathione S-transferases that contain Yb subunits. The three classes of cationic transferase exhibited similar specific activities with 1-chloro-2,4-dinitrobenzene as a substrate, all forms cross-reacted with antibodies to glutathione S-transferase B, and all had comparable secondary structures and tryptophan fluorescence properties. In spite of those similarities, the Yc-containing forms were clearly distinguishable from Ya forms on the basis of characteristic differences in circular dichroic patterns associated with their aromatic side chains. All cationic transferases bound bilirubin with stoichiometric ratios of 1 mol/dimeric protein molecule, but discrete differences in mode of binding were ascribed to forms containing Ya subunits as compared to Yc dimers. Binding to Yc forms was of lower affinity and may be associated with the catalytic region of the protein since glutathione effectively displaced bilirubin from the Yc component. |
