Truncation of κ‑carrageenase for higher κ‑carrageenan oligosaccharides yield with improved enzymatic characteristics.

Carrageenase is useful for preparation of carrageenan oligosaccharides, which have significant bioactivity. We expressed a κ‑carrageenase gene from Zobellia sp. ZL-4 in full-length (κ-ZL-4) or after truncation of the carbohydrate binding module and the Type-IX secretion module (κ-ZL-4-GH16). κ-ZL-4-GH16 showed a specific activity (134.22 U/mg) 1.93 times higher than that of κ-ZL-4, and its thermal and pH stability also increased. The best activity of κ-ZL-4-GH16 was presented at pH 3.0-6.0, which was lower than the optimal pH of reported κ-carrageenases. The enzyme-substrate affinity of κ-ZL-4-GH16 was higher than that of κ-ZL-4, demonstrated by its lower Michaelis-Menten constant (0.704 mg/mL at pH 6.0). Importantly, κ-ZL-4-GH16 released 10-fold more κ-carrageenan disaccharides than κ-ZL-4. The κ-carrageenan tetrose and hexose produced by the two enzymes were purified and structurally identified. Molecular docking with κ-carrageenan hexose suggested that the efficiency improvement after truncation might be attributed to the conformation differences of the two enzymes.