Structure-based mutational and functional analysis identify human NM23-H2 as a multifunctional enzyme.

The human NM23-H2 protein is a transcriptional regulator (PuF) that binds and cleaves DNA via covalent bond formation, and also catalyzes phosphoryl transfer (NDP kinase). Our previous work has identified two separate DNA-binding regions on NM23-H2/PuF: a sequence-dependent DNA-binding surface involving residues Arg34, Asn69, and Lys134 on the equator of the hexameric protein and a covalent DNA-binding site involving Lys12 located in the nucleotide-binding site, the site of the NDP kinase reaction. To understand the role of the nucleotide-binding site in the DNA cleavage reaction and to establish a connection between the nuclease and the NDP kinase activities, we used the known crystal structure of NM23-H2 complexed with GDP as the basis for site-directed mutagenesis.