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Novel bovine carbonic anhydrase encapsulated in a metal-organic framework: a new platform for biomimetic sequestration of CO. | LitMetric

AI Article Synopsis

  • This study focuses on using immobilized bovine carbonic anhydrase (BCA) to enhance CO utilization and precipitate it as CaCO through a specialized method involving metal-organic frameworks (MOFs).
  • BCA was successfully encapsulated into the microporous ZIF-8, confirmed by various characterization techniques, achieving a high enzyme loading while ensuring the enzyme's structural integrity.
  • The optimized BCA-ZIF-8 biocatalyst showcased excellent activity across various conditions, improved thermal stability, and the ability to be reused multiple times, making it promising for practical applications in CO biocatalytic hydration.

Article Abstract

In this work, maximizing the utilization of CO and its precipitation as CaCO by using immobilized bovine carbonic anhydrase (BCA) was evaluated. In this way, selection of suitable carriers which have a gas adsorption function would enhance the CO sequestration efficiency of the carbonic anhydrase (CA). So a metal-organic framework (MOF), an excellent material for gas adsorption and enzyme immobilization was used. In this manner, BCA was encapsulated into the microporous zeolite imidazolate framework, ZIF-8, for the first time, using a method. Systematic characterization including powder X-ray diffraction (PXRD), UV-vis, and Fourier transform infrared (FT-IR) spectroscopies, BET, field emission scanning electron microscopy (FE-SEM) and energy dispersive X-ray (EDX) confirmed that the entrapment of BCA molecules was successfully achieved during the crystal growth of ZIF-8 with an enzyme loading of 100 ± 1.2 mg g of BCA-ZIF-8. Optimization of the matrix for increasing the stability of the enzyme in an encapsulated form is the main aim of the present study. The approach was proposed because this method provides better enzyme protection from degradation, minimizes enzyme leaching and enables multiple reuse. Then, the influence of different parameters, including pH, temperature, storage and reusability, was evaluated for enzyme@MOF composites free enzymes. The prepared biocatalyst exhibited outstanding activity in a wide pH and temperature range and demonstrates high storage stability up to 37 days. This efficient and simple association procedure seems well-adapted to produce an enzymatic bio-catalyst for biocatalytic hydration of CO. The FT-IR analysis revealed that the structure of BCA was well maintained during the encapsulation process. The thermal stability and reusability of the BCA-ZIF-8 increased noticeably due to the structural rigidity and confinement of the ZIF-8 scaffolds. These two parameters are very important for practical applications.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071054PMC
http://dx.doi.org/10.1039/c9ra04603hDOI Listing

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