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From Batch to Continuous Flow Bioprocessing: Use of an Immobilized γ-Glutamyl Transferase from B. subtilis for the Synthesis of Biologically Active Peptide Derivatives

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γ-Glutamyl-peptides are frequently endowed with biological activities. In this work, “kokumi peptides” such as γ-glutamyl-methionine (1) and γ-glutamyl-(S)-allyl-cysteine (2), as well as the neuroprotective γ-glutamyl-taurine (3) and the antioxidant ophthalmic… Click to show full abstract

γ-Glutamyl-peptides are frequently endowed with biological activities. In this work, “kokumi peptides” such as γ-glutamyl-methionine (1) and γ-glutamyl-(S)-allyl-cysteine (2), as well as the neuroprotective γ-glutamyl-taurine (3) and the antioxidant ophthalmic acid (4), were synthesized through an enzymatic transpeptidation reaction catalyzed by the γ-glutamyl transferase from Bacillus subtilis (BsGGT) using glutamine as the γ-glutamyl donor. BsGGT was covalently immobilized on glyoxyl-agarose resulting in high protein immobilization yield and activity recovery (>95%). Compounds 1–4 were obtained in moderate yields (19–40%, 5–10 g/L) with a variable purity depending on the presence of the main byproduct (γ-glutamyl-glutamine, 0–16%). To achieve process intensification and better control of side reactions, the synthesis of 2 was moved from batch to continuous flow. The specific productivity was 1.5 times higher than that in batch synthesis (13.7 μmol/min*g), but it was not accompanied by a paralleled improvement of the impurity profile.

Keywords: batch continuous; continuous flow; glutamyl transferase

Journal Title: Journal of Agricultural and Food Chemistry
Year Published: 2022

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