Taylor-made production of pyrimidine nucleoside-5′-monophosphate analogues by highly stabilized mutant uracil phosphoribosyltransferase from Toxoplasma gondii
Artículo de revista
2021
Bioresource Technology
Nowadays, enzymatic synthesis of nucleotides is an efficient and sustainable alternative to chemical methodologies. In this regard, after the biochemical characterization of wild-type and mutant uracil phosphoribosyltransferases from Toxoplasma gondii (TgUPRT, TgUPRT2, and TgUPRT3), TgUPRT2 was selected as the optimal candidate (69.5 IU mg−1, UMP synthesis) for structure-guided immobilization onto Ni2+ chelate (MNiUPRT2) and onto glutaraldehyde-activated microparticles (MGlUPRT2). Among resulting derivatives, MNiUPRT23 (6127 IU g−1biocat; 92% retained activity; 3–5 fold enhanced stability at 50–60 °C) and MGlUPRT2N (3711 IU g−1biocat; 27% retained activity; 8–20 fold enhanced stability at 50–60 °C) displayed the best operability. Moreover, the enzymatic synthesis of different pyrimidine NMPs was performed. Finally, the reusability of both derivatives in 5-FUMP synthesis (MNiUPRT23, 80% retained activity after 7 cycles, 5 min; MGlUPRT2N, 70% retained activity after 10 cycles, 20 min) was carried out at short times. © 2021 Elsevier Ltd
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Descripción:
TAYLOR-MADE PRODUCTION OF PYRIMIDINE NUCLEOSIDE-5′-MONOPHOSPHATE ANALOGUES BY HIGHLY STABILIZED MUTANT URACIL PHOSPHORIBOSYLTRANSFERASE FROM TOXOPLASMA GONDII.pdf
Título: TAYLOR-MADE PRODUCTION OF PYRIMIDINE NUCLEOSIDE-5′-MONOPHOSPHATE ANALOGUES BY HIGHLY STABILIZED MUTANT URACIL PHOSPHORIBOSYLTRANSFERASE FROM TOXOPLASMA GONDII.pdf
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Título: TAYLOR-MADE PRODUCTION OF PYRIMIDINE NUCLEOSIDE-5′-MONOPHOSPHATE ANALOGUES BY HIGHLY STABILIZED MUTANT URACIL PHOSPHORIBOSYLTRANSFERASE FROM TOXOPLASMA GONDII.pdf
Tamaño: 89.33Kb
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