Insulin binding and insulin receptor tyrosine kinase activity were examined in two rodent models with genetic insulin resistance using partially-purified skeletal muscle membrane preparations. Insulin binding activity was decreased about 50% in both 12-week (219 +/- 184 vs 1255 +/- 158 fmoles/mg, p less than 0.01) and 24-week old (2120 +/- 60 vs 1081 +/- 60 fmoles/mg, p less than 0.01) ob/ob mice. In contrast, insulin binding to membrane derived from 24-week old db/db mice was not significantly different from lean controls (1371 +/- 212 vs 1253 +/- 247 fmoles/mg). Insulin-associated tyrosine kinase activity of membranes from ob/ob skeletal muscle was decreased, compared to its normal lean littermate, when compared on a per mg of protein basis in both 12-week (37 +/- 3 vs 21 +/- 3 pmoles/min/mg, p less than 0.05) and 24-week old (71 +/- 5 vs 37 +/- 6 pmoles/min/mg, p less than 0.01) mice. However, no significant differences in kinase activities were observed when the data were normalized and compared on a per fmole of insulin-binding activity basis for the 12-week (12 +/- 1 vs 11 +/- 2) and 24-week (27 +/- 2 vs 20 +/- 3) age groups. Insulin receptor tyrosine kinase activity of db/db skeletal muscle membranes was not different than its normal lean littermate whether expressed on a protein (34 +/- 7 vs 30 +/- 3) or fmole of insulin-binding activity (21 +/- 4 vs 18 +/- 4) basis. These data suggest that insulin receptor tyrosine kinase is not associated with the insulin resistance observed in ob/ob and db/db mice and demonstrate differences in receptor regulation between both animal models.