A NEW APPROACH TO EVALUATE IMMOBILIZATION OF β-GALACTOSIDASE ON EUPERGIT<sup>®</sup>C: STRUCTURAL, KINETIC, AND THERMAL CHARACTERIZATION

Braga, Anna Rafaela Cavalcante; Silva, Marceli F.; Oliveira, J. Vladimir; Treichel, Helen; Kalil, Susana Juliano

doi:10.5935/0100-4042.20140128

Cited by 5 publications

(4 citation statements)

References 22 publications

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“…Original scientific paper Received: May 29, 2018 Accepted: December 5, 2018 stable and possesses good chemical and mechanical properties, such as simple immobilization procedure and high binding capacity 17 . Eupergit C is a naturally porous polymer 18 and immobilization on it can be achieved without the need for additional reagents by forming strong covalent linkages between Eupergit epoxy groups and enzyme nucleophilic groups 19 .…”

Section: Introductionmentioning

confidence: 99%

Immobilization of Glucose Oxidase on Eupergit C: Impact of Aeration, Kinetic and Operational Stability Studies of Free and Immobilized Enzyme

Pečar¹

2019

Chem.Biochem.Eng.Q.

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The effect of aeration on the stability of glucose oxidase in the reaction of glucose oxidation to gluconic acid was investigated by determining the operational stability decay rate constant in the process conditions. Eupergit C as a porous carrier was chosen for the enzyme immobilization. To evaluate glucose oxidase operational stability during process conditions, experiments of glucose oxidation were carried out in the repetitive batch reactor with and without continuous aeration at different aeration levels. It was found that the decay rate of the free enzyme linearly depended on the air flow rate. Immobilization of glucose oxidase on Eupergit C significantly enhanced enzyme stability at higher aeration rates. Kinetics of the free and immobilized enzyme was also determined. The mathematical model of glucose oxidation catalysed by free and immobilized glucose oxidase in the batch reactor was developed.

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Section: Introductionmentioning

confidence: 99%

Immobilization of Glucose Oxidase on Eupergit C: Impact of Aeration, Kinetic and Operational Stability Studies of Free and Immobilized Enzyme

Pečar¹

2019

Chem.Biochem.Eng.Q.

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“…To further reduce the cost of applying processes using enzymes, agro-industrial waste available in large quantities can be used in the production of enzymes (Lemes et al, 2016a) using simpler purification protocols or coupling techniques to purify the target product (Lemes et al, 2014;Lemes et al, 2019). Another factor that supports the application of enzymes and cost reduction in the process is the possibility of their immobilization, resulting in their recyclable use, allowing their application in defined cycles, and maintaining their selectivity, catalytic activity, and the generation of products in large quantities (Braga et al, 2014;Basso and Serban, 2019).…”

Section: Extraction Of Bioactive Components With Enzymes From Agro-industrial Wastesmentioning

confidence: 99%

Biological Approaches for Extraction of Bioactive Compounds From Agro-industrial By-products: A Review

Lemes

Egea

Filho

et al. 2022

Front. Bioeng. Biotechnol.

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Bioactive compounds can provide health benefits beyond the nutritional value and are originally present or added to food matrices. However, because they are part of the food matrices, most bioactive compounds remain in agroindustrial by-products. Agro-industrial by-products are generated in large quantities throughout the food production chain and can—when not properly treated—affect the environment, the profit, and the proper and nutritional distribution of food to people. Thus, it is important to adopt processes that increase the use of these agroindustrial by-products, including biological approaches, which can enhance the extraction and obtention of bioactive compounds, which enables their application in food and pharmaceutical industries. Biological processes have several advantages compared to nonbiological processes, including the provision of extracts with high quality and bioactivity, as well as extracts that present low toxicity and environmental impact. Among biological approaches, extraction from enzymes and fermentation stand out as tools for obtaining bioactive compounds from various agro-industrial wastes. In this sense, this article provides an overview of the main bioactive components found in agroindustrial by-products and the biological strategies for their extraction. We also provide information to enhance the use of these bioactive compounds, especially for the food and pharmaceutical industries.

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“…[130][131][132] Synthetic polymers often require surface modification to achieve post immobilization. 133 Some commonly used synthetic polymers are PVA, 134 polyvinyl acetate (PVAc), 81 polyimide (PI), 91 polyacrylates (e.g., poly(methyl methacrylate) (PMMA), Eupergit ® -C), 135,136 polyamide (e.g. nylon 6), 137 polyacrylonitrile (PAN), 138 polyaniline (PANi), 139 poly(ethylene glycol) (PEG), 140 and poly(lactic-co-glycolic acid) (PLGA).…”

Section: Msde Reviewmentioning

confidence: 99%

Enzyme immobilization: polymer–solvent–enzyme compatibility

Asaduzzaman

Salmon

2022

Mol. Syst. Des. Eng.

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A NEW APPROACH TO EVALUATE IMMOBILIZATION OF β-GALACTOSIDASE ON EUPERGIT^®C: STRUCTURAL, KINETIC, AND THERMAL CHARACTERIZATION

Cited by 5 publications

References 22 publications

Immobilization of Glucose Oxidase on Eupergit C: Impact of Aeration, Kinetic and Operational Stability Studies of Free and Immobilized Enzyme

Immobilization of Glucose Oxidase on Eupergit C: Impact of Aeration, Kinetic and Operational Stability Studies of Free and Immobilized Enzyme

Biological Approaches for Extraction of Bioactive Compounds From Agro-industrial By-products: A Review

Enzyme immobilization: polymer–solvent–enzyme compatibility

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A NEW APPROACH TO EVALUATE IMMOBILIZATION OF β-GALACTOSIDASE ON EUPERGIT®C: STRUCTURAL, KINETIC, AND THERMAL CHARACTERIZATION

Cited by 5 publications

References 22 publications

Immobilization of Glucose Oxidase on Eupergit C: Impact of Aeration, Kinetic and Operational Stability Studies of Free and Immobilized Enzyme

Immobilization of Glucose Oxidase on Eupergit C: Impact of Aeration, Kinetic and Operational Stability Studies of Free and Immobilized Enzyme

Biological Approaches for Extraction of Bioactive Compounds From Agro-industrial By-products: A Review

Enzyme immobilization: polymer–solvent–enzyme compatibility

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Product

Resources

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A NEW APPROACH TO EVALUATE IMMOBILIZATION OF β-GALACTOSIDASE ON EUPERGIT^®C: STRUCTURAL, KINETIC, AND THERMAL CHARACTERIZATION