The design and synthesis of a glucose-based acridone derivative (GLAC), a potent inhibitor of glycogen phosphorylase (GP) are described. GLAC is the first inhibitor of glycogen phosphorylase whose electronic absorption properties, clearly distinguishable from those of the enzyme, allow probing subtle interactions in the catalytic site. The GLAC absorption spectra, associated with X-ray crystallography and quantum chemistry calculations, reveal that part of the catalytic site of GP behaves as a highly basic environment in which GLAC exists as a bis-anion. This is explained by water-bridged hydrogen bonding interactions with specific catalytic site residues.
A New Potent Inhibitor of Glycogen Phosphorylase Reveals the Basicity of the Catalytic Site.
Degli Esposti Alessandra;Monti Filippo;Venturini Alessandro;
2017
Abstract
The design and synthesis of a glucose-based acridone derivative (GLAC), a potent inhibitor of glycogen phosphorylase (GP) are described. GLAC is the first inhibitor of glycogen phosphorylase whose electronic absorption properties, clearly distinguishable from those of the enzyme, allow probing subtle interactions in the catalytic site. The GLAC absorption spectra, associated with X-ray crystallography and quantum chemistry calculations, reveal that part of the catalytic site of GP behaves as a highly basic environment in which GLAC exists as a bis-anion. This is explained by water-bridged hydrogen bonding interactions with specific catalytic site residues.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
