Antibodies raised in rabbits against multimeric all-L peptides (MAP's) were first made monospecific by affinity chromatography on immobilized antigen columns and then tested for their ability to cross-react with topologically related variants of the parent antigen, where the chirality of each amino-acid residue (inverso derivatives), or the peptide sequence orientation (retro derivatives), was inverted, or where both modifications were simultaneously introduced (retro-inverso derivatives). Retro, inverso, and retro-inverso forms of the parent peptide were prepared, both in the linear as well as in the BSA-conjugated form, and found to cross-react to a significant extent with affinity purified polyclonal antibodies raised against the parent peptide. Peptide variants displayed similar dose-dependent inhibitory effects on the interaction between immobilized parent antigen and affinity purified antibodies. Analysis of molecular models of the peptide variants in the trans-configuration suggested that the topological equivalence of alternating side chains in the series of related peptides may be responsible for the observed cross-recognition, leading to the formation of similar recognition surfaces which could mimic the parent peptide antigenic structure.