Abstract
The fundamental substrates for protein glycosylation are provided by a group of enzymes known as NDP-sugar pyrophosphorylases (NSPases) which utilize nucleotide triphosphate (NTP) and sugar 1-phosphate to catalyze the formation of nucleotide diphospho-sugar (NDP-sugar). The promiscuous nature of NSPases is often exploited during chemoenzymatic glycorandomization in the pursuit of novel therapeutics. However, till date, the number of inherently promiscuous NSPases reported and the rationale behind their promiscuity is meager. In this study, we have identified a set of NSPases from a hyperthermophilic archaeon Pyrococcus horikoshii OT3 to identify probable candidates for glycorandomization. We identified a set of NSPases that include both substrate-specific and substrate-promiscuous NSPases with a visible predominance of the latter group. The rationale behind the promiscuity (or specificity) vividly lies in the repertoire of amino acid residues that assemble the active site for recognition of the substrate moiety. Furthermore, the absence of a function-specific auxiliary domain promotes substrate promiscuity in NSPases. This study, thus, provides a novel set of thermophilic NSPases that can be employed for chemoenzymatic glycorandomization. More importantly, identification of the residues that render substrate promiscuity (or specificity) would assist in sequence-based rational engineering of NSPases for enhanced glycorandomization.
Communicated by Ramaswamy H. Sarma
Disclosure statement
No potential conflict of interest was reported by the authors.
Authors’ contributions
SPK conceived the idea of the project and supervised the study. PG and PM performed the experiments. SPK, PG and PM analyzed the data. SPK and PG wrote the manuscript.