Catalytic Mechanism of Pyridoxal 5′-Phosphate-Dependent Aminodeoxychorismate Lyase: A Computational QM/MM Study

Aminodeoxychorismate lyase (ADCL) is a kind of pyridoxal-5 '- phosphate (PLP)-dependent enzyme that catalyzes the conversion of 4-amino-4-deoxychorismate (ADC) to p-aminobenzoate (PABA), which is a key step for the biosynthesis of folate. To illuminate the reaction details at the atomistic level, an enzyme-substrate reactant model has been constructed, and QM/MM calculations have been performed. Our calculation results reveal that the overall catalytic cycle contains 11 elementary steps, which can be described by three stages, including the transamination reaction of PLP, the release of pyruvate and aromatization of ADC, and the recovery to the initial aldimine. During the reaction, a series of intramolecular proton transfer are involved, which are the key for the C-N bond formation and cleavage as well as the aromatization of the ADC ring. In addition to forming the Schiff base with the pocket residue Lys251 and substrate in the internal aldimine and the external aldimine, respectively, the coenzyme PLP also plays a critical role in the intramolecular proton transfer by employing its hydroxyl oxygen anion and phosphate group. These findings may provide useful information for further understanding the catalytic mechanism of other PLP-dependent enzymes.