From Protein Engineering to Immobilization: Promising Strategies for the Upgrade of Industrial Enzymes

Singh, Raushan Kumar; Tiwari, Manish Kumar; Singh, Ranjitha; Lee, Jung-Kul

doi:10.3390/ijms14011232

Cited by 375 publications

(191 citation statements)

References 275 publications

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“…Immobilization is always a successful strategy for stabilizing enzymes or improving their performance [8]. Bezerra et al (2015) gave guidelines on the selection of suitable solid supports and immobilization conditions [9].…”

Section: Introductionmentioning

confidence: 99%

Effects of Temperature and pH on Immobilized Laccase Activity in Conjugated Methacrylate-Acrylate Microspheres

Mazlan

Hanifah

2017

International Journal of Polymer Science

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Immobilization of laccase on the functionalized methacrylate-acrylate copolymer microspheres was studied. Poly(glycidyl methacrylate-co-n-butyl acrylate) microspheres consisting of epoxy groups were synthesized using facile emulsion photocuring technique. The epoxy groups in poly(GMA-co-nBA) microspheres were then converted to amino groups. Laccase immobilization is based on covalent binding via amino groups on the enzyme surface and aldehyde group on the microspheres. The FTIR spectra showed peak at 1646 cm −1 assigned to the conformation of the polymerization that referred to GMA and nBA monomers, respectively. After modification of the polymer, intensity of FTIR peaks assigned to the epoxy ring at 844 cm −1 and 904 cm −1 was decreased. The results obtained from FTIR exhibit a good agreement with the epoxy content method. The activity of laccaseimmobilized microspheres increased upon increasing the epoxy content. Furthermore, poly(GMA-co-nBA) microspheres revealed uniform size below 2 m that contributes to large surface area of the microspheres to be used as a matrix, thus increasing the enzyme capacity and enzymatic reaction. Immobilized enzyme also shifted to higher pH and temperature compared to free enzyme.

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Section: Introductionmentioning

confidence: 99%

Effects of Temperature and pH on Immobilized Laccase Activity in Conjugated Methacrylate-Acrylate Microspheres

Mazlan

Hanifah

2017

International Journal of Polymer Science

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“…Therefore, numerous technologies and novel carrier molecules have been adopted to improve βG immobilization and enhance enzyme loading, activity and stability in order to reduce overall cost of biocatalytic activity at industrial scale 51 . These approaches encompass formation of crosslinked enzyme aggregates wherein active enzyme aggregates are immobilized using a multifunctional crosslinker that provides extra stability and enhanced their recyclability during their use as biocatalysts 52 .…”

Section: Immobilization Of βG On Nanoparticles Via 264 Glutaraldehydementioning

confidence: 99%

Role of Glutaraldehyde in Imparting Stability to Immobilized β-Galactosidase Systems

Satar

Jafri

Rasool

et al. 2018

Braz. arch. biol. technol.

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This review article highlights the role of glutaraldehyde as a matrix activator/stabilizer in imparting higher operational and thermal stability to β-galactosidase (βG) for biotechnological applications. Glutaraldehyde has been used extensively as a crosslinking agent as well as for functionalization of matrices to immobilize β-galactosidase. Immobilized β-galactosidase systems (IβGS) obtained as a result of glutaraldehyde treatment has been employed to hydrolyze whey and milk lactose in batch reactors, continuous packed-bed and fluidized bed reactors under various operational conditions. Moreover, these IβGS have also been utilized for the production of galactooligosaccharides in food, dairy and fermentation industries. It was observed that glutaraldehyde provided

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“…Indeed, the use of free enzymes in homogeneous batch processes suffers from severe limitations related to the impossibility to reuse and recover the biocatalysts [1]. Therefore, one particular challenge is to make them recyclable while maintaining their activity [2]. This is typically achieved by immobilizing the enzymes on an appropriate support-inorganic, biological, polymer or hybrid materials [3,4].…”

Section: Introductionmentioning

confidence: 99%

Enantioselective Transamination in Continuous Flow Mode with Transaminase Immobilized in a Macrocellular Silica Monolith

2017

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ω-Transaminases have been immobilized on macrocellular silica monoliths and used as heterogeneous biocatalysts in a continuous flow mode enantioselective transamination reaction. The support was prepared by a sol-gel method based on emulsion templating. The enzyme was immobilized on the structured silica monoliths both by adsorption, and by covalent grafting using amino-functionalized silica monoliths and glutaraldehyde as a coupling agent. A simple reactor set-up based on the use of a heat-shrinkable Teflon tube is presented and successfully used for the continuous flow kinetic resolution of a chiral amine, 4-bromo-α-methylbenzylamine. The porous structure of the supports ensures effective mass transfer and the reactor works in the plug flow regime without preferential flow paths. When immobilized in the monolith and used in the flow reactor, transaminases retain their activity and their enantioselectivity. The solid biocatalyst is also shown to be stable both on stream and during storage. These essential features pave the way to the successful development of an environmentally friendly process for chiral amines production.

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From Protein Engineering to Immobilization: Promising Strategies for the Upgrade of Industrial Enzymes

Cited by 375 publications

References 275 publications

Effects of Temperature and pH on Immobilized Laccase Activity in Conjugated Methacrylate-Acrylate Microspheres

Effects of Temperature and pH on Immobilized Laccase Activity in Conjugated Methacrylate-Acrylate Microspheres

Role of Glutaraldehyde in Imparting Stability to Immobilized β-Galactosidase Systems

Enantioselective Transamination in Continuous Flow Mode with Transaminase Immobilized in a Macrocellular Silica Monolith

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