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Publication Detail

Title: Site-directed mutagenesis of the NH2 terminus of T4 endonuclease V. The position of the alpha NH2 moiety affects catalytic activity.

Authors: Schrock 3rd, R D; Lloyd, R S

Published In J Biol Chem, (1993 Jan 15)

Abstract: Reductive methylation of the alpha NH2 moiety of the DNA repair enzyme T4 endonuclease V has been shown previously to eradicate both the N-glycosylase and apyrimidinic/apurinic lyase activities of the enzyme (Schrock, R. D., III, and Lloyd, R. S. (1991) J. Biol. Chem. 266, 17631-17639). The present study uses the technique of site-directed mutagenesis to investigate the important parameters involved in the cleavage mechanism. The prediction was that the addition of an amino acid in the immediate NH2-terminal region of the protein would alter the proximity of the alpha NH2 moiety of Thr2 to its target, thereby severely compromising the enzyme's catalytic activity. However, substitutions in this region generally should be tolerated. To test this hypothesis, three substitutions of the NH2-terminal amino acid were produced: Ser2 (T2S), Val2 (T2V), and Pro2 (T2P). An addition mutant was also produced by adding a glycine between the first and second amino acids of the protein (Thr2-Gly-Arg3) (+Gly). The T2P and +Gly mutants had negligible pyrimidine dimer-specific N-glycosylase activity as well as negligible pyrimidine dimer-specific nicking activity in vitro. Conversely, the T2S enzyme exhibited wild type levels of activity and the T2V exhibited intermediate levels of activity in vitro. Results from ultraviolet (UV) survival studies of the mutant enzymes indicated that the in vivo activities of these enzymes were directly correlated to the enzymes' ability to cleave at pyrimidine dimers in vitro. These results indicate that a critical parameter for the functionality of endonuclease V is the relative distance between the primary alpha NH2 group in the active site of the enzyme and those elements responsible for DNA binding and pyrimidine dimer recognition.

PubMed ID: 8419366 Exiting the NIEHS site

MeSH Terms: No MeSH terms associated with this publication

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