Mice are resistant to aflatoxin carcinogenicity primarily due to expression of a glutathione S-transferase (mYc) with high catalytic activity toward aflatoxin B1-8,9-epoxide (AFBO). In contrast, rats are more sensitive to aflatoxin carcinogenicity due to the constitutive expression of a glutathione S-transferase with relatively low catalytic activity toward AFBO (rYc1). To identify the contribution of different regions of the mYc protein that confer high catalytic activity toward AFBO, six chimeric mYc/rYc1 GST enzymes were generated utilizing full and partial restriction enzyme digestions at two conserved StyI sites in the mYc and rYc1 complementary DNAs (between amino acid residues 56-57 and 142-143). Recombinant wild-type and chimeric glutathione S-transferases were bacterially expressed, affinity purified, and their catalytic activities measured toward AFBO, delta 5-androstene-3,17-dione, 1-chloro-2,4-dinitrobenzene, and ethacrynic acid. The set of chimeras displayed a wide range of catalytic activities toward the substrates assayed. The chimeras with the greatest activity toward AFBO were 1:56rat-57: 221mouse and 1:56mouse-57:142rat-143:221mouse, with AFBO conjugating activities 200 and 8 times greater than wild-type rYc1, respectively. These results demonstrate that the residues that confer high AFBO conjugation activity in mYc are located in the region spanning residues 57-221.