Abstract
Novel restriction enzymes can be created by fusing the nuclease domain of FokI endonuclease with defined DNA binding domains. Recently, we have characterized a domain (Z alpha) from the N-terminal region of human double-stranded RNA adenosine deaminase (hADAR1), which binds the Z-conformation with high specificity. Here we report creation of a conformation-specific endonuclease, Z alpha nuclease, which is a chimera of Z alpha and FokI nuclease. Purified Z alpha nuclease cleaves negatively supercoiled plasmids only when they contain a Z-DNA forming insert, such as (dC-dG)13. The precise location of the cleavage sites was determined by primer extension. Cutting has been mapped to the edge of the B-Z junction, suggesting that Z alpha nuclease binds within the Z-DNA insert, but cleaves in the nearby B-DNA, by using a mechanism similar to type IIs restriction enzymes. These data show that Z alpha binds Z-DNA in an environment similar to that in a cell. Z alpha nuclease, a structure-specific restriction enzyme, may be a useful tool for further study of the biological role of Z-DNA.
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