Immobilized biocatalyst engineering: Biocatalytic tool to obtain attractive enzymes for industry

Rodriguez-Nunez, Karen; Lopez-Gallego, Fernando; Martinez, Ronny; Bernal, Claudia

Abstract

Biocatalysis can improve current bioprocesses by identifying or improving enzymes that withstand harsh and unnatural operating conditions. Immobilized Biocatalyst Engineering (IBE) is a novel strategy integrating protein engineering and enzyme immobilization as a single workflow. Using IBE, it is possible to obtain immobilized biocatalysts whose soluble performance would not be selected. In this work, Bacillus subtilis lipase A (BSLA) variants obtained through IBE were characterized as soluble and immobilized biocatalysts, and how the in-teractions with the support affect their structure and catalytic performance were analyzed using intrinsic protein fluorescence. Variant P5G3 (Asn89Asp, Gln121Arg) showed a 2.6-fold increased residual activity after incuba-tion at 76 degrees C compared to immobilized wild-type (wt) BSLA. On the other hand, variant P6C2 (Val149Ile) showed 4.4 times higher activity after incubation in 75 % isopropyl alcohol (36 degrees C) compared to Wt_BSLA. Furthermore, we studied the advancement of the IBE platform by performing synthesis and immobilizing the BSLA variants using a cell-free protein synthesis (CFPS) approach. The observed differences in immobilization performance, high temperature, and solvent resistance between the in vivo-produced variants and Wt_BSLA were confirmed for the in vitro synthesized enzymes. These results open the door for designing strategies integrating IBE and CFPS to generate and screen improved immobilized enzymes from genetic diversity libraries. Further-more, it was confirmed that IBE is a platform that can be used to obtain improved biocatalysts, especially those with an unremarkable performance as soluble biocatalysts, which wouldn't be selected for immobilization and further development for specific applications.

Más información

Título según WOS: Immobilized biocatalyst engineering: Biocatalytic tool to obtain attractive enzymes for industry
Título de la Revista: INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES
Volumen: 242
Editorial: Elsevier
Fecha de publicación: 2023
DOI:

10.1016/j.ijbiomac.2023.125075

Notas: ISI