ZFY, a putative transcription factor encoded by the human Y chromosome, contains a distinctive two-finger repeat: odd-numbered and even-numbered CC/HH metal-binding motifs exhibit systematic alternation in sequence pattern. Such alternation, which is not generally observed in zinc-finger proteins, has also been described in an extensive family of Kruppel-like genes in Xenopus laevis and in the AIDS-associated human DNA-binding protein HIV-EP1. The strict conservation of a two-finger repeat among ZFY-, Kruppel- and HIV-related zinc-finger proteins suggests distinct mechanisms of protein-nucleic acid recognition. To test whether this sequence pattern reflects an underlying alternation in domain structure, we have synthesized and characterized single-finger peptides from the human ZFY gene. Remarkably, systematic differences in metal-dependent folding are observed in the circular dichroism spectra of even- and odd-numbered domains. Our results suggest the existence of distinct CC/HH finger submotifs, which may play different roles in nucleic acid recognition.