We describe a new method for constructing tandem repeats of DNA fragments that allows one to control the number of tandem copies appearing in a final recombinant DNA clone. The principle of the method is to prepare DNA fragments with predetermined cohesive ends and to ligate them together in such a way that unique multimers are generated. First, the fragment of interest is inserted into a vector with a multisite cloning region. Clones are picked with the fragment in both orientations, and the fragments are excised using different pairs of restriction enzymes. The resulting fragments with preprogrammed cohesive ends are mixed, ligated, and digested with one enzyme whose site appears in the cloning region of the vector. From this material multimeric fragments containing specific ends can be isolated and recloned into appropriate vectors. As an example of the method, we show the construction of clones containing either three or six tandem copies of the origin of DNA replication of the mouse polyoma virus. The prospect of using this technique to construct inverted repeat structures is discussed. As part of this work we have constructed a modified M13mp8 vector which contains a unique Xho I cloning site.