Book ChapterDOI
Immobilization of enzymes: a literature survey.
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TLDR
The concept of stabilization has been an important driving force for immobilizing enzymes and true stabilization at the molecular level has been demonstrated, e.g., proteins immobilized through multipoint covalent binding.Abstract:
The term immobilized enzymes refers to "enzymes physically confined or localized in a certain defined region of space with retention of their catalytic activities, and which can be used repeatedly and continuously." Immobilized enzymes are currently the subject of considerable interest because of their advantages over soluble enzymes. In addition to their use in industrial processes, the immobilization techniques are the basis for making a number of biotechnology products with application in diagnostics, bioaffinity chromatography, and biosensors. At the beginning, only immobilized single enzymes were used, after 1970s more complex systems including two-enzyme reactions with cofactor regeneration and living cells were developed. The enzymes can be attached to the support by interactions ranging from reversible physical adsorption and ionic linkages to stable covalent bonds. Although the choice of the most appropriate immobilization technique depends on the nature of the enzyme and the carrier, in the last years the immobilization technology has increasingly become a matter of rational design. As a consequence of enzyme immobilization, some properties such as catalytic activity or thermal stability become altered. These effects have been demonstrated and exploited. The concept of stabilization has been an important driving force for immobilizing enzymes. Moreover, true stabilization at the molecular level has been demonstrated, e.g., proteins immobilized through multipoint covalent binding.read more
Citations
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Journal ArticleDOI
Enzyme immobilization: an update
TL;DR: This paper is a review of the recent literatures on enzyme immobilization by various techniques, the need for immobilization and different applications in industry, covering the last two decades.
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TL;DR: Information is presented on how laccase-assisted approach can change this limited tendency of physical and chemical based approaches to tackle emerging contaminants at large and endocrine disruptor removal.
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References
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Journal ArticleDOI
Improvement of enzyme activity, stability and selectivity via immobilization techniques
Cesar Mateo,Jose M. Palomo,Gloria Fernández-Lorente,Jose M. Guisan,Roberto Fernandez-Lafuente +4 more
TL;DR: In all cases, enzyme engineering via immobilization techniques is perfectly compatible with other chemical or biological approaches to improve enzyme functions and the final success depend on the availability of a wide battery of immobilization protocols.
Journal ArticleDOI
Chemical Coupling of Peptides and Proteins to Polysaccharides by Means of Cyanogen Halides
TL;DR: Biologically active proteins and polypeptides can be coupled by various means to cellulose, starch and cross-linked polysaccharide gels such as ‘Sephadex’.
Journal ArticleDOI
Enzyme immobilization: The quest for optimum performance
TL;DR: Different methods for the immobilization of enzymes are critically reviewed, with emphasis on relatively recent developments, such as the use of novel supports, e.g., mesoporous silicas, hydrogels, and smart polymers, novel entrapment methods and cross-linked enzyme aggregates (CLEAs).
Journal ArticleDOI
Potential applications of enzymes immobilized on/in nano materials: A review
TL;DR: N nanoparticle-based immobilization of enzymes showed a broader working pH and temperature range and higher thermal stability than the native enzymes, and it is possible that co-immobilization of multi-enzymes could be achieved on these nanoparticles.
Journal ArticleDOI
Immobilization strategies to develop enzymatic biosensors
TL;DR: The choice of the immobilization method is shown to represent an important parameter that affects biosensor performances, mainly in terms of sensitivity, selectivity and stability, by influencing enzyme orientation, loading, mobility, stability, structure and biological activity.