Self-stable precipitation polymerization was used to prepare an enzyme-immobilized microsphere composite. Phosphomannose isomerase (PMI) with His-tag was successfully immobilized on Ni2+ charged pyridine-derived particles. The maximum amount of PMI immobilized on such particles was ∼184 mg/g. Compared with free enzyme, the activity of the immobilized enzymes was significantly improved. In addition, the immobilized enzymes showed a much better thermostability than free enzymes. At the same time, the immobilized enzymes can be reused for multiple reaction cycles. We observed that the enzyme activity did not decrease significantly after six cycles. We conclude that the pyridine-derived particles can be used to selectively immobilize His-tagged enzymes, which can couple the enzyme purification and catalysis steps and improve the efficiency of enzyme-catalyzed industrial processes.
Keywords: His-tag; enzyme activity; immobilization; nanoparticles; selectivity.
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