Electron paramagnetic resonance and electronic absorption spectroscopies have shown that unlike the bidentate Cr(V) complex [Cr(ehba)2O]- (ehba = 2-hydroxy-2-ethylbutanoato(2-)), I, the macrocyclic tetradentate complex, [Cr (mampa-dcb)(O)]- (mampa-dcb = 5,6-(4,5-dichlorobenzo)-3,8,11,13-tetraoxo-2,2,9,9-tetrameth yl-12,12-diethyl-1, 4,7,10-tetraazacyclotridecane), II, is substitutionally inert. Low levels of DNA strand cleavage were observed after treatment with II under physiological conditions (50 mM sodium phosphate, pH 7.4, 37 degrees C) at concentrations as high as 2 mM for periods as long as 2 days. II also induces a lower number of revertants in mutation assays with Salmonella typhimurium TA100 than I when identical Cr concentrations are applied. The slopes of the linear portion of the dose-response curves are parallel, however, indicating that the mutagenicity of II is comparable to I. II is stable toward ligand exchange, reduction and disproportionation in the mutagenicity test medium and also in the presence of bacteria and the common cell reductant, glutathione. This indicates that ligand exchange with DNA and/or reduction to Cr(IV) are not responsible for the mutagenicity of II (unlike I). It is believed that II reversibly but weakly intercalates with DNA placing the Cr(V) center in close proximity for hydrogen atom abstraction or oxo-transfer reactions to ensure. This tetraamide complex is a good structural and biomimetic model for non-sulfur-containing Cr(V) peptide species that may form in vivo from reactions of Cr(VI) with peptides. Hence, it is likely to be relevant to understanding one possible mechanism by which Cr(VI) causes cancer.