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"Characterization of two independent amino acid substitutions that disrupt the DNA repair functions of the yeast Apn1."

Jilani A, Vongsamphanh R, Leduc A, Gros L, Saparbaev M, Ramotar D



Published June 3, 2003 in Biochemistry volume 42 .

Pubmed ID: 12767225

Abstract:
The members of the Endo IV family of DNA repair enzymes, including Saccharomyces cerevisiae Apn1 and Escherichia coli endonuclease IV, possess the capacity to cleave abasic sites and to remove 3'-blocking groups at single-strand breaks via apurinic/apyrimidinic (AP) endonuclease and 3'-diesterase activities, respectively. In addition, Endo IV family members are able to recognize and incise oxidative base damages on the 5'-side of such lesions. We previously identified eight amino acid substitutions that prevent E. coli endonuclease IV from repairing damaged DNA in vivo. Two of these substitutions were glycine replacements of Glu145 and Asp179. Both Glu145 and Asp179 are among nine amino acid residues within the active site pocket of endonuclease IV that coordinate the position of a trinuclear Zn cluster required for efficient phosphodiester bond cleavage. We now report the first structure-function analysis of the eukaryotic counterpart of endonuclease IV, yeast Apn1. We show that glycine substitutions at the corresponding conserved amino acid residues of yeast Apn1, i.e., Glu158 and Asp192, abolish the biological function of this enzyme. However, these Apn1 variants do not exhibit the same characteristics as the corresponding E. coli mutants. Indeed, the Apn1 Glu158Gly mutant, but not the E. coli endonuclease IV Glu145Gly mutant, is able to bind DNA. Moreover, Apn1 Asp192Gly completely lacks enzymatic activity, while the activity of the E. coli counterpart Asp179Gly is reduced by approximately 40-fold. The data suggest that although yeast Apn1 and E. coli endonuclease IV exhibit a high degree of structural and functional similarity, differences exist within the active site pockets of these two enzymes.


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Last modification of this entry: Oct. 6, 2010

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