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Acidic residues and a predicted,highly conserved α‐helix are critical for the endonuclease/strand separation functions of bacteriophage λ’s TerL
Authors:Jean Sippy Arens  Carol Duffy  Michael Feiss
Abstract:Complementation, endonuclease, strand separation, and packaging assays using mutant TerLλ’s, coupled with bioinformatic information and modeling of its endonuclease, identified five residues, D401, E408, D465, E563, and E586, as critical acidic residues of TerLλ’s endonuclease. Studies of phage and viral TerL nucleases indicate acidic residues participate in metal ion‐binding, part of a two‐ion metal catalysis mechanism, where metal ion A activates a water for DNA backbone hydrolysis. Modeling places D401, D465, and E586 in locations analogous to those of the metal‐binding residues of many phage and viral TerLs. Our work leads to a model of TerLλ’s endonuclease domain where at least three acidic residues from a ~185 residue segment (D401 to E586) are near each other in the structure, forming the endonuclease catalytic center at cosN, the nicking site. DNA interactions required to bring the rotationally symmetric cosN precisely to the catalytic center are proposed to rely on an ~60 residue region that includes a conserved α‐helix for dimerization. Metal ion A, positioned by TerLλ’s acidic D401 and E586, would be placed at cosN for water activation, ensuring high accuracy for DNA backbone hydrolysis.
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