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. 2022 Feb;194(2):748-761.
doi: 10.1007/s12010-021-03648-z. Epub 2021 Sep 15.

In Situ Calb Enzyme Immobilization in Mesoporous Material Type MCM-48 Synthesis Using Ionic Solid [C14MI]Cl as Structure-Directing Agent

Catia S Zanchett Battiston  1   2 Aline M Moreira Ficanha  2   3 Carolina E Demaman Oro  2 Rogério Marcos Dallago  2 Marcelo Luis Mignoni  4
Affiliations

In Situ Calb Enzyme Immobilization in Mesoporous Material Type MCM-48 Synthesis Using Ionic Solid [C14MI]Cl as Structure-Directing Agent

Catia S Zanchett Battiston et al. Appl Biochem Biotechnol. 2022 Feb.

Abstract

MCM-48 mesoporous support was synthesized with the ionic solid 1-tetradecyl-3-methylimidazolium chloride ([C14MI]Cl) as a structure-directing agent for in situ immobilization of Candida antarctica B (CALB). The MCM-48[C14MI]Cl support showed characteristics of mesoporous material of interest, with a pore size of 20.30 and 73.41 A for the support without and with the enzyme, respectively. The elongation of the carbonic chain of the ionic solid directly influenced the increase in the specific area and pore volume of the material. In addition, the decrease in the specific area and pore volume for support with the enzyme showed the effectiveness of immobilization in situ. It was possible to obtain the ideal levels for the best activities of esterification of the enzyme with optimization of a mathematical model. The optimized variables were 0.31 g of enzyme and 3.35% of ionic solid with a maximum esterification activity of 392.92 U/g and 688% of yield. The support showed residual activity above 50% when stored under refrigeration for 75 days. At 60 and 80 °C, the enzyme immobilized on the support retained more than 80 and 40% of its residual activity, respectively. In addition, the support presented the possibility of reuse for up to 10 cycles with residual activity of approximately 50%. The support synthesized in the present study presents a great industrial opportunity for the immobilization and use of the CALB enzyme.

Keywords: CALB; In situ immobilization; Ionic solid; MCM-48; [C14MI]Cl.

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References

    1. Chu, K. D. S. C. T., Sheppard, D. H. O. E. W., Higgins, J. B., & Schlenker, J. L. (1992). A new family of mesoporous molecular sieves prepared with liquid crystal templates. American chemical Society, 114(14), 10834–10843. https://doi.org/10.1021/ja00053a020 - DOI
    1. Hoffmann, F., Cornelius, M., Morell, J., & Fröba, M. (2006). Silica-based mesoporous organic-inorganic hybrid materials. Angewandte Chemie - International Edition, 45(20), 3216–3251. https://doi.org/10.1002/anie.200503075 - DOI - PubMed
    1. Sachse, A., Wuttke, C., Díaz, U., & De Souza, M. O. (2015). Mesoporous y zeolite through ionic liquid based surfactant templating. Microporous and Mesoporous Materials, 217, 81–86. https://doi.org/10.1016/j.micromeso.2015.05.049 - DOI
    1. Battiston, C. S. Z. ., Ficanha, A. M. M., Levandoski, K. L. D., da Silva, B. A., Battiston, S., Dallago, R. M., & Mignoni, M. L. (2017). Immobilization of lipase on mesoporous molecular sieve MCM-48 obtained using ionic solid as a structure director and esterification reaction on solvent-free. Química Nova, 40(3), 293–298. https://doi.org/10.21577/0100-4042.20170011
    1. Itoh, T. (2017). Ionic liquids as tool to improve enzymatic organic synthesis. Chemical Reviews, 117(15), 10567–10607. https://doi.org/10.1021/acs.chemrev.7b00158 - DOI - PubMed

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