Abstract
The Holliday junction cleavage protein, Hjc resolvase of Pyrococcus furiosus, is the first Holliday junction resolvase to be discovered in Archaea. Although the archaeal resolvase shares certain biochemical properties with other non-archaeal junction resolvases, no amino acid sequence similarity has been identified. To investigate the structure-function relationship of this new Holliday junction resolvase, we constructed a series of mutant hjc genes using site-directed mutagenesis targeted at the residues conserved among the archaeal orthologs. The products of these mutant genes were purified to homogeneity. With analysis of the activity of the mutant proteins to bind and cleave synthetic Holliday junctions, one acidic residue, Glu-9, and two basic residues, Arg-10 and Arg-25, were found to play critical roles in enzyme action. This is in addition to the three conserved residues, Asp-33, Glu-46, and Lys-48, which are also conserved in the motif found in the type II restriction endonuclease family proteins. Two aromatic residues, Phe-68 and Phe-72, are important for the formation of the homodimer probably through hydrophobic interactions. The results of these studies have provided insights into the structure-function relationships of the archaeal Holliday junction resolvase as well as the universality and diversity of the Holliday junction cleavage reaction.
Highlights
Homologous DNA recombination is one of the most extensively studied subjects in the field of DNA transactions
Hjc proteins do share some local sequence similarities to the type II restriction endonucleases, and we have proposed that they are related to the type II restriction endonuclease family [22]
Amino Acid Sequence Comparison of Archaeal Hjc Proteins—To select the putative important residues for the Holliday junction cleavage activity of Hjc, we examined the multiple sequence alignment of the archaeal Hjc proteins found to date (Fig. 1)
Summary
Homologous DNA recombination is one of the most extensively studied subjects in the field of DNA transactions (reviewed in Refs. 1 and 2). Several studies in eukaryotic systems have been recently reported since the identification of Rad, the structural and functional homolog of RecA [5, 6], the mechanism of late-stage DNA recombination, in which the Holliday junctions are processed correctly into the recombinant duplexes, have far been analyzed mostly in Esch-. To investigate the structure-function relationship of this new Holliday junction resolvase, we analyzed the biochemical properties of 14 mutant Hjc proteins that were produced by sitedirected mutagenesis. From these analyses, we identified several amino acid residues, each of which is critical for substrate binding, catalysis, and dimer formation
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