Location of the active site for enzyme-adenylate formation in DNA ligases.

Abstract

The enzyme-AMP reaction intermediate of the 102-kDa bovine DNA ligase I was digested with trypsin, and the adenylylated peptide was isolated by chromatography under conditions that maintain the acid-labile phosphoramidate bond. Microsequencing of the peptide showed that it contains an internal trypsin-resistant lysine residue, as expected for the site of adenylylation. Inhibition of DNA ligase I activity by pyridoxal 5'-phosphate also indicated the presence of a reactive lysine residue in the catalytic domain of the enzyme. Comparison of the known primary structures of several other DNA ligases with the adenylylated region of mammalian DNA ligase I allows their active sites to be tentatively assigned by sequence homology. The ATP-dependent DNA ligases of mammalian cells, fission yeast, budding yeast, vaccinia virus, and bacteriophages T3, T4, and T7 contain the active site motif Lys-Tyr/Ala-Asp-Gly-(Xaa)-Arg, with the reactive lysine residue flanked by hydrophobic amino acids. The distance between the postulated adenylylation site and the carboxyl terminus of the polypeptide is very similar in these ATP-dependent DNA ligases, whereas the size of the amino-terminal region is highly variable.