Pathways of Enzymatic Phosphotransfer Reactions

Abstract

Abstract Mevalonate 5-pyrophosphate (MVAPP) decarboxylase catalyzes the decarboxylation of MVAPP to isopentenyl pyro-phosphate, an ATP-dependent process in which 3-phospho-MVAPP is a transient intermediate that undergoes concomitant decarboxylation and elimination of phosphate. Reaction of (Sp)-adenosine 5′-0-3-thio [3-17O 2,180] triphosphate in place of ATP produces (R)-[17O,18O] thiophosphate in place of phosphate. Therefore, the phosphotransfer step producing 3-phospho-MVAPP proceeds with inversion of configuration at P. Gentamicin nucleotidyl-transferase catalyzes the reaction of ATP with the C-2″ hydroxyl group of aminoglycoside antibiotics to produce AMP-2″-aminoglycosides, thereby inactivating the drugs. Enzymatic reaction of (Sp)-2′-deoxyadenosine 5′-O[α-17O] triphosphate with tobramycin produces (Rp)-[α-17O]dAMP-2″-tobramycin. Therefore, transfer of the 2′-deoxyadenosine 5′-phosphoryl group proceeds with inversion of configuration. Since both reactions are uncomplicated bisubstrate processes and ...