Síntese e aplicação de uma azida de celulose na imobilização de enzima lipase Candida antarctica CALB por reação do tipo “click” CuAAC

Enzymatic catalysts play a fundamental role in the development of various industrial processes, having generated promising results, particularly in the field of renewable energy. However, one of the problems associated with the use of free enzymes is keeping their stability in the reaction medium an...

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Bibliographic Details
Main Author: Ferreira, Marcos Vinícius
Other Authors: Panatieri, Rodrigo Barroso, http://lattes.cnpq.br/1337052526568043, Assunção, Rosana Maria Nascimento de, http://lattes.cnpq.br/9826939189216731, Morais, Sérgio Antônio Lemos de, http://lattes.cnpq.br/0823637365341467, Pasquini, Daniel, http://lattes.cnpq.br/6879704705300161, Ali, Helena Maria de Almeida Mattos Martins dos Santos, http://lattes.cnpq.br/9230610497453030, Menezes, Aparecido Junior de, http://lattes.cnpq.br/0484426340349483
Format: Thesis
Language:Portuguese
Published: Universidade Federal de Uberlândia 2023
Subjects:
Reação “click” CuAAC
Tosilato de celulose
Azido celulose
CalB
Imobilização de enzimas
CuAAC click reaction
Cellulose tosylate
Azide cellulose
Enzyme immobilization
CNPQ::CIENCIAS EXATAS E DA TERRA::QUIMICA::FISICO-QUIMICA
Química
ODS::ODS 7. Energia limpa e acessível - Garantir acesso à energia barata
confiável
sustentável e renovável para todos
Antarc*
Antarctica
Online Access:https://repositorio.ufu.br/handle/123456789/41301
https://doi.org/10.14393/ufu.te.2023.668
Description
Summary:Enzymatic catalysts play a fundamental role in the development of various industrial processes, having generated promising results, particularly in the field of renewable energy. However, one of the problems associated with the use of free enzymes is keeping their stability in the reaction medium and the difficulty of recovering them, therefore, limiting their reuse and increasing process costs. In this context, a support/enzyme bioconjugate was developed in this work through the chemical binding, using a click reaction of alkyne/azide cycloaddition catalyzed by copper (CuAAC), of the lipase enzyme to a modified cellulose support. In the context of cellulose, which does not naturally possess groups compatible with this click reaction, the synthesis of cellulose tosylate (MCC-Tos) was adopted, followed by its subsequent transformation into azide cellulose (MCC-Az). For this purpose, the reaction variables such as time, temperature, and molar ratio of p-toluenesulfonyl chloride to anhydroglucose unit (Tos:UAG) for the synthesis of MCC-Tos in a heterogeneous phase were optimized using experimental design by Doehlert matrix. From this design, it was observed that the most significant variables were the molar ratio (RM) and the reaction time. Thus, the MCC-Tos derivative was produced under extrapolated optimized conditions (MCC-Otm), namely at 30 °C, 144 h, and MR 10:1 (Tos:AGU), with a degree of substitution (GS) of 1.72. MCC-Tos Otm was used as a precursor in the synthesis of MCC-Az Otm. Structural analyses using infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), solid-state 13C nuclear magnetic resonance (RMN 13C-CP/MAS), X-ray diffractograms (DRX), and surface area and porosity analysis (ASAP) confirmed the obtainment of these derivatives, showing a reduction in crystallinity (by approximately 20%) and an increase in the surface area of MCC-Az (from 0.924 to 52.995 m2 g-1, compared to MCC). Regarding the insertion of the propargyl group into the Candida antarctica B lipase (CalB), forming the ...

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