In vertebrates, each vertebra along the anteroposterior axis has a characteristic structure. It has recently been shown that several transcription factors and cell signaling molecules expressed in the primitive streak ectoderm and/or the tailbud play essential roles in establishing the correct anteroposterior specification of vertebrae during mouse development. Here, we report that Wnt-3a mutants exhibit homeotic transformations in the vertebrae along their entire body axis. In addition, reduced expression of cdx-1, the mutation of which results in an anterior transformation, as occurs in Wnt-3a mutants, was observed in the primitive streak and tail bud region of Wnt-3a mutant embryos. These results indicate that Wnt-3a is necessary for correct anteroposterior patterning of vertebra, and that cdx-1 may be one of the mediator genes of Wnt-3a signaling in this process.