Relative differences in the active site environment of a monoclonal antibody when covalently bound to two isomeric haptens were studied using fluorescence quenching and lifetime measurements. Murine monoclonal antibody 4-4-20, a well-characterized high affinity antifluorescein antibody, served as the model IgG protein. Isomeric haptenic probes comparatively studied were fluorescein-5-isothiocyanate (FITC I, the immunogen) and fluorescein-6-isothiocyanate (FITC II). In kinetic binding studies, the association rate for the interaction of 4-4-20 with FITC I was greater than 2,000 times faster than the reaction with FITC II. Fluorescence lifetimes for FITC I covalently bound to 4-4-20 were 3.89 ns and 0.37 ns, indicative of hapten bound outside and inside the active site, respectively. Fluorescence lifetime for FITC II within the active site was indistinguishable from bound FITC I, indicating that interactions with active site residues which resulted in a decreased lifetime were similar for both isomers. A decreased lifetime for active site bound FITC I was consistent with the 90-95% quenching of fluorescein fluorescence. Dynamic fluorescence quenching experiments with iodide and FITC I in the active site showed no solvent accessibility, whereas bound FITC II showed significant accessibility. These results suggest that the difference in bond angle which accompanies binding of isomer II relative to isomer I within the active site probably leads to steric constraints resulting in a more open configuration of the 4-4-20 active site.