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  • Title: Simultaneously achieve soluble expression and biomimetic immobilization of Candida antarctica lipase B by introducing polyamine tags.
    Author: Zhou X, Han Y, Lv Z, Tian X, Li H, Xie P, Zheng L.
    Journal: J Biotechnol; 2017 May 10; 249():1-9. PubMed ID: 28323015.
    Abstract:
    Polyamine tags fused in Candida antarctica lipase B (CalB) can help achieve high soluble expression of CalB in E. coli and can directly mediate silicification, which leads to rapid formation of a CalB-silica particle complex through a one-step approach. After optimization experiments, the fused lipase CalB tagged with 6-histidine at the N terminal and 10-lysine at the C terminal (6His-CalB-10Lys) is effectively expressed with high solubility (0.1mg/mL) and specific activity (10.1U/mg), and easily cross-linked in silica particles with a high immobilization efficiency of 96.8% and activity recovery of 81.5%. The immobilized lipase 6His-CalB-10Lys exhibits excellent performance at broad temperature ranges, high thermal and storage stabilities, and superior reusability. Michaelis-Menten kinetics indicates that the affinity and enantioselectivity of the free and immobilized 6His-CalB-10Lys toward the substrate are better than that of commercial Novozym 435 in enantioselective resolution of (S)-N-(2-ethyl-6-methylphenyl) alanine ((S)-NEMPA). The strategies described in this paper are useful for the facile expression and construction of diverse enzyme systems with high efficiency and excellent recyclability.
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