Abstract
Local zones of easily unwound DNA are characteristic of prokaryotic and eukaryotic replication origins. The DNA-unwinding element of the human c-myc replication origin is essential for replicator activity and is a target of the DNA-unwinding element-binding protein DUE-B in vivo. We present here the 2.0A crystal structure of DUE-B and complementary biochemical characterization of its biological activity. The structure corresponds to a dimer of the N-terminal domain of the full-length protein and contains many of the structural elements of the nucleotide binding fold. A single magnesium ion resides in the putative active site cavity, which could serve to facilitate ATP hydrolytic activity of this protein. The structure also demonstrates a notable similarity to those of tRNA-editing enzymes. Consistent with this structural homology, the N-terminal core of DUE-B is shown to display both D-aminoacyl-tRNA deacylase activity and ATPase activity. We further demonstrate that the C-terminal portion of the enzyme is disordered and not essential for dimerization. However, this region is essential for DNA binding in vitro and becomes ordered in the presence of DNA.
Highlights
During each division of somatic cells DNA replication is regulated so that the genome is copied in its entirety only once [1, 2]
We present here the 2.0 Acrystal structure of DNAunwinding element (DUE)-B and complementary biochemical characterization of its biological activity
Deletion of the DUE/ARS region eliminates c-myc origin activity [13], and a heterologous DUE restores origin activity,4 implying that a DUE is essential for chromosomal replication origin activity
Summary
During each division of somatic cells DNA replication is regulated so that the genome is copied in its entirety only once [1, 2]. The structure corresponds to a dimer of the N-terminal domain of the full-length protein and contains many of the structural elements of the nucleotide binding fold.
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