3 research outputs found
A Catalytic Role for C–H/π Interactions in Base Excision Repair by <i>Bacillus cereus</i> DNA Glycosylase AlkD
DNA
glycosylases protect genomic integrity by locating and excising aberrant
nucleobases. Substrate recognition and excision usually take place
in an extrahelical conformation, which is often stabilized by π-stacking
interactions between the lesion nucleobase and aromatic side chains
in the glycosylase active site. <i>Bacillus cereus</i> AlkD
is the only DNA glycosylase known to catalyze base excision without
extruding the damaged nucleotide from the DNA helix. Instead of contacting
the nucleobase itself, the AlkD active site interacts with the lesion
deoxyribose through a series of C–H/π interactions. These
interactions are ubiquitous in protein structures, but evidence for
their catalytic significance in enzymology is lacking. Here, we show
that the C–H/π interactions between AlkD and the lesion
deoxyribose participate in catalysis of glycosidic bond cleavage.
This is the first demonstration of a catalytic role for C–H/π
interactions as intermolecular forces important to DNA repair