2015
DOI: 10.2174/1385272819666150429232725
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Immobilization of Proteins on Glyoxyl Activated Supports: Dramatic Stabilization of Enzymes by Multipoint Covalent Attachment on Pre-Existing Supports

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Cited by 32 publications
(32 citation statements)
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“…At high temperatures, free enzymes suffer a slight unfolding, so hydrophobic interphases can interact and the enzymes are inactivated by aggregation. When the proteins are covalently immobilized, they do not undergo this inactivation [19]. This increase in the optimum temperature is an advantage when the substrates are poorly soluble and a slight increase in temperature is necessary to facilitate their dissolution.…”
Section: Efficiency Of the System: Substrate Spectra And Reaction Cyclesmentioning
confidence: 99%
“…At high temperatures, free enzymes suffer a slight unfolding, so hydrophobic interphases can interact and the enzymes are inactivated by aggregation. When the proteins are covalently immobilized, they do not undergo this inactivation [19]. This increase in the optimum temperature is an advantage when the substrates are poorly soluble and a slight increase in temperature is necessary to facilitate their dissolution.…”
Section: Efficiency Of the System: Substrate Spectra And Reaction Cyclesmentioning
confidence: 99%
“…Protein immobilization is a physicochemical strategy that has proven to be a simple and cost-efficient methodology to generate improved biocatalysts [7,8]. The immobilized proteins are usually more stable than the soluble enzyme [9]. Moreover, a well-designed immobilization strategy 2 of 15 could alter the selectivity or specificity of the enzymes [10], and could even remove the substrate or product inhibitory effects [11].…”
Section: Introductionmentioning
confidence: 99%
“…Different methods for enzyme immobilization have been described in the scientific literature in recent years, e.g., encapsulation, entrapment, cross-linking enzyme aggregates or crystals, adsorption and covalent attachment [8,[13][14][15][16]. Among the covalent methods, one of the most effective approaches are enzyme immobilization by multipoint covalent attachment on supports functionalized with glyoxyl (short aliphatic aldehydes) groups [8,9]. This attachment consists of the irreversible immobilization of proteins to an insoluble support such as silica [17], agarose [18], or methacrylic polymers [19,20], magnetic nanoparticles [21], even lignocellulosic wastes [22,23].…”
Section: Introductionmentioning
confidence: 99%
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