Journal ArticleDOI
Immobilization of lipase from Candida rugosa on electrospun polysulfone nanofibrous membranes by adsorption
TLDR
Polysulfone composite nanofibrous membranes were prepared by electrospinning and were used to immobilize lipase from Candida rugosa by physical adsorption and kinetic parameters of the free and immobilized lipases were higher and lower than those for free lipase, respectively.Abstract:
Polysulfone composite nanofibrous membranes were prepared by electrospinning and were used to immobilize lipase from Candida rugosa by physical adsorption. Field emission scanning electron microscopy was used to evaluate the morphology and diameter of the nanofibers. PVP and PEG were used as additives to render the nanofibrous membranes biocompatibility favored by immobilized enzyme. Effects of post-treatment, additive concentration, pH and temperature were investigated on the adsorption capacity and activity of immobilization preparations, as well as thermal stability. It was found that (1) post-treatment had no significant effect on the adsorption capacity; (2) the increment of PVP or PEG concentration was negative for the adsorption capacity but positive for activity of immobilized lipase; (3) the immobilized lipase showed less sensitivity for pH and higher optimum temperature. Thermal stability for the immobilization preparations was enhanced compared with that for free preparations. The kinetic parameters of the free and immobilized lipases, Km and Vmax were also assayed. Results indicated that Km and Vmax for the immobilized lipases were higher and lower than those for free lipase, respectively.read more
Citations
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Electrospinning: A Fascinating Method for the Preparation of Ultrathin Fibers
TL;DR: Electrospinning is a highly versatile method to process solutions or melts, mainly of polymers, into continuous fibers with diameters ranging from a few micrometers to a few nanometers, applicable to virtually every soluble or fusible polymer.
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A Review of the Effect of Processing Variables on the Fabrication of Electrospun Nanofibers for Drug Delivery Applications
Viness Pillay,Clare Dott,Yahya E. Choonara,Charu Tyagi,Lomas K. Tomar,Pradeep Kumar,Lisa C. du Toit,Valence M. K. Ndesendo +7 more
TL;DR: A concise incursion into the application of electrospun nan ofibers in drug delivery is provided and pertinent processing parameters that may influence the performance of the nanofibers when applied to drug delivery are cited.
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Enzyme immobilization on electrospun polymer nanofibers: An overview
TL;DR: In this paper, the authors discuss the recent advances in using nanofibers as hosts for enzyme immobilization by two different methods, surface attachment and encapsulation, and highlight their distinct characteristics.
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Electrospinning and electrospraying techniques: Potential food based applications
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Perspective of Recent Progress in Immobilization of Enzymes
Daniel N. Tran,Kenneth J. Balkus +1 more
TL;DR: Recent work regarding the immobilization of enzymes in inorganic mesoporous materials as well as the modifications to those materials is summarized in this paper.
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Roberto Fernandez-Lafuente,Pilar Armisén,Pilar Sabuquillo,Gloria Fernández-Lorente,Jose M. Guisan +4 more
TL;DR: Different approaches for lipase immobilization mainly related to the further use of immobilized derivatives to carry out enantio and regioselective hydrolysis in high water-activity systems are reviewed.
Journal ArticleDOI
Enzyme-Carrying Polymeric Nanofibers Prepared via Electrospinning for Use as Unique Biocatalysts
Hongfei Jia,Guangyu Zhu,Bradley Vugrinovich,Woraphon Kataphinan,Darrell H. Reneker,Ping Wang +5 more
TL;DR: It appeared that the covalent binding improved the enzyme's stability against structural denaturation, such that the half‐life of the nanofibrous enzyme in methanol was 18‐fold longer than that of the native enzyme.
Journal ArticleDOI
Immobilization of Candida rugosa lipase on chitosan with activation of the hydroxyl groups.
Shao-Hua Chiou,Wen-Teng Wu +1 more
TL;DR: A method for immobilization of Candida rugosa lipase to two types of chitosan beads by activating the hydroxyl groups of ch itosan using carbodiimide coupling agent has been successfully developed.