Sd. Williams et Ss. David, Formation of a schiff base intermediate is not required for the adenine glycosylase activity of Escherichia coli MutY, BIOCHEM, 38(47), 1999, pp. 15417-15424
The mutY gene product of Escherichia coli is a 39-kDa protein that catalyze
s the removal of adenine bases mispaired with 2'-deoxyguanosine and 7,8-dih
ydro-8-oxo-2'-deoxyguanosine (OG) in DNA. Although adenine removal proceeds
via monofunctional glycosylase activity, MutY is able to form covalent add
ucts with substrate DNA in the presence of borohydride, a trait otherwise k
nown to be associated only with enzymes having bifunctional,glycosylase/AP
lyase activity. To help identify active site residues involved in the forma
tion of MutY-DNA adducts in the presence of borohydride, a series of site-d
irected mutant forms of MutY were generated. Our data show that Lys 142 is
the primary residue involved in cross-link formation. The absence of Lys 14
2 results in near elimination of the enzyme-DNA adducts formed relative to
wild-type, suggesting that this residue is the primary one involved in form
ing covalent associations with DNA during MutY catalysis, Importantly, the
enzymatic activity and DNA binding of the K142A enzyme is nearly identical
to the WT enzyme. This shows that formation of the covalent intermediate is
not required for adenine removal by MutY, Furthermore, this suggests that
the covalent intermediate is formed by reaction of Lys 142 with the OG/G:(A
P site) product, and this may be a consequence of MutY's unusually high aff
inity for the product of its glycosylase action.