Me(4)DABPtG(2) adducts with the bulky C-2-symmetric chiral diamine, Me(4)DAB (N,N,N',N'-tetramethyl-2,3-diamino-butane with R,R and S,S configurations at the chelate ring C atom, G = guanine derivative), exhibit slow conformer interchange and are amenable to characterization by NMR methods. The investigation of the cis-PtA(2)G(2) adducts formed by clinically widely used anticancer drugs [A(2) = diaminocyclohexane, (NH3)(2)] is impeded by the rapid conformer interchange permitted by the low A(2) bulk near the inner coordination sphere. Me(4)DABPtG(2) adducts exist as a mixture of exclusively head-to-tail (HT) conformers. No head-to-head (HH) conformer was observed. The Me(4)DAB chirality significantly influences which HT chirality is favored (Delta HT for S,S and Delta HT for R,R). For simple G ligands, the ratio of favored HT conformer to less favored HT conformer is similar to 2:1. For guanosine monophosphate (GMP) ligands, the phosphate group cis G N1H hydrogen bonding favors the Delta HT and the Delta HT conformers for 5'-GMP and 3'-GMP adducts, respectively. For both HT conformers of cis-PtA(2)G(2) adducts, the G nucleobase plane normally cants with respect to the coordination plane in the same direction, left or right, for a given A(2) chirality. In contrast, the results for Me(4)DABPtG(2) adducts provide the first examples of a change in the canting direction between the two HT conformers; this unusual behavior is attributed to the fact that canting always gives long G O6 to N-Me distances and that these Me(4)DAB ligands have bulk both above and below the coordination plane. These results and ongoing preliminary studies of Me(4)wDABPt(2) adducts with G residues linked by a phosphodiester backbone, which normally favors HH conformers, all indicate that a high percentage of HT conformer is present. Collectively, these findings advance fundamental concepts in Pt-DNA chemistry and may eventually help define the role of the carrier-ligand steric effects on anticancer activity.