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Integration of a Nucleoside Triphosphate Regeneration System in the One‐pot Synthesis of UDP‐sugars and Hyaluronic Acid

Johannes Gottschalk, Lea Blaschke, Miriam Aßmann, Jürgen Kuballa, Lothar Elling

2021ChemCatChem22 citationsDOIOpen Access PDF

Abstract

Abstract Enzymatic synthesis is a promising approach to produce hyaluronic acid (HA) products with defined molecular weight (MW) and dispersity. We here report on the evaluation of nucleoside triphosphate (NTP) regeneration system for the synthesis of the precursors uridine‐5'‐diphosphate α‐ d ‐ N ‐acetylglucosamine (UDP‐GlcNAc) and uridine‐5'‐diphosphate α‐ d ‐glucuronic acid (UDP‐GlcA) and integration in the one‐pot synthesis of HA. By integration of polyphosphate kinase from Ruegeria pomeroyi (RpPPK2‐3) into the enzyme cascade to synthesize UDP‐GlcA we reached 89 % yield after 1 h with a regeneration cycle number (RCN) of 17. With the UDP‐GlcNAc cascade, the ATP concentration was lowered 250‐fold and reached 94 % yield after 1 h with an RCN of 234. Integration of the RpPPK2‐3 regeneration system in one‐pot HA synthesis afforded optimization of MgCl 2 and ATP starting concentrations. With 25 mM MgCl 2 and 0.1 mM ATP, a HA concentration of 0.81 g L −1 with an average MW of 1.17 MDa and dispersity of about 1.08 and an RCN of 75 was obtained. We conclude that integration of NTP regeneration with RpPPK2‐3 expanded the enzymatic possibilities to produce HA with lower range MW.

Topics & Concepts

Uridine diphosphateChemistryNucleosideBiochemistryEnzymeUridinePolyphosphateHyaluronic acidNucleoside triphosphateYield (engineering)BiocatalysisRNAPhosphateNucleotideCatalysisBiologyIonic liquidGeneticsGeneMetallurgyMaterials sciencePolysaccharides and Plant Cell WallsProteoglycans and glycosaminoglycans researchCarbohydrate Chemistry and Synthesis
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