Enzyme immobilization: an overview on techniques and support materials

The current demands of the world’s biotechnological industries are enhancement in enzyme productivity and development of novel techniques for increasing their shelf life. These requirements are inevitable to facilitate large-scale and economic formulation. Enzyme immobilization provides an excellent base for increasing availability of enzyme to the substrate with greater turnover over a considerable period of time. Several natural and synthetic supports have been assessed for their efficiency for enzyme immobilization. Nowadays, immobilized enzymes are preferred over their free counterpart due to their prolonged availability that curtails redundant downstream and purification processes. Future investigations should endeavor at adopting logistic and sensible entrapment techniques along with innovatively modified supports to improve the state of enzyme immobilization and provide new perspectives to the industrial sector.

[1]  G. Bayramoglu,et al.  UV-curable methacrylated/fumaric acid modified epoxy as a potential support for enzyme immobilization , 2007 .

[2]  L. Xia,et al.  Effect of lipase immobilization on resolution of (R, S)-2-octanol in nonaqueous media using modified ultrastable-Y molecular sieve as support , 2006, Applied biochemistry and biotechnology.

[3]  D. Paolucci-Jeanjean,et al.  Immobilization of lipase on a ceramic membrane: activity and stability , 2004 .

[4]  A. Ramanaviciene,et al.  Immobilization of maltogenase onto polyurethane microparticles from poly(vinyl alcohol) and hexamethylene diisocyanate , 2010 .

[5]  J. Cabral,et al.  Zeolites as supports for an enzymatic alcoholysis reaction , 1998 .

[6]  M. Sardar,et al.  Immobilization of tomato pectinase on Con A–Seralose 4B by bioaffinity layering , 2005 .

[7]  Q. Husain,et al.  Studies on calcium alginate-pectin gel entrapped concanavalin A-bitter gourd (Momordica charantia) peroxidase complex , 2008 .

[8]  A. G. Cunha,et al.  Immobilization of Yarrowia lipolytica Lipase—a Comparison of Stability of Physical Adsorption and Covalent Attachment Techniques , 2008, Applied biochemistry and biotechnology.

[9]  M. Vidal,et al.  Optical biosensor based on nitrite reductase immobilised in controlled pore glass. , 2002, Biosensors & bioelectronics.

[10]  Dipali S Bagal,et al.  Entrapment of plant invertase within novel composite of agarose-guar gum biopolymer membrane , 2006 .

[11]  B. Shi,et al.  [Immobilization of catalase on Fe (III) modified collagen fiber]. , 2011, Sheng wu gong cheng xue bao = Chinese journal of biotechnology.

[12]  Zhi-Kang Xu,et al.  Enzyme immobilization on electrospun polymer nanofibers: An overview , 2009 .

[13]  S. Hosseinkhani,et al.  Adsorptive immobilization of bacterial luciferases on alkyl-substituted Sepharose 4B , 2003 .

[14]  Hideo Yamamoto,et al.  Continuous surface modification of silica particles for enzyme immobilization , 2003 .

[15]  Wei Zhao,et al.  Gelatin-templated biomimetic calcification for β-galactosidase immobilization , 2011 .

[16]  A. M. Kayastha,et al.  Immobilization of soybean (Glycine max) α-amylase onto Chitosan and Amberlite MB-150 beads: Optimization and characterization , 2011 .

[17]  Yannick-Serge Zimmermann,et al.  Sorption-assisted surface conjugation: a way to stabilize laccase enzyme , 2011, Applied Microbiology and Biotechnology.

[18]  N. A. Dung,et al.  Immobilization of urease on grafted starch by radiation method , 1995 .

[19]  Henry Y. Wang,et al.  Cell immobilization in k‐carrageenan with tricalcium phosphate , 1982, Biotechnology and bioengineering.

[20]  R. Villalonga,et al.  Polyelectrolyte complex formation mediated immobilization of chitosan-invertase neoglycoconjugate on pectin-coated chitin , 2006, Bioprocess and biosystems engineering (Print).

[21]  Linqiu Cao,et al.  Carrier-bound Immobilized Enzymes: Principles, Application and Design , 2005 .

[22]  S. Karthikeyan,et al.  Surface functionalized mesoporous activated carbon for the immobilization of acidic lipase and their application to hydrolysis of waste cooked oil: Isotherm and kinetic studies , 2012 .

[23]  B. Greb-Markiewicz,et al.  Immobilization of wood-rotting fungi laccases on modified cellulose and acrylic carriers , 2002 .

[24]  C. Werner,et al.  Immobilization of Bacillus licheniformis α-amylase onto reactive polymer films. , 2011, Journal of biotechnology.

[25]  M. Yılmaz,et al.  Catalytic effect of calix[n]arene based sol–gel encapsulated or covalent immobilized lipases on enantioselective hydrolysis of (R/S)-naproxen methyl ester , 2012, Journal of Inclusion Phenomena and Macrocyclic Chemistry.

[26]  Jo‐Shu Chang,et al.  Characterization of Burkholderia lipase immobilized on celite carriers , 2009 .

[27]  N. Chaniotakis,et al.  Immobilization of enzymes into nanocavities for the improvement of biosensor stability. , 2007, Biosensors & bioelectronics.

[28]  S. Satyanarayana,et al.  Preparation and characterization of amyloglucosidase adsorbed on activated charcoal , 2000 .

[29]  R. C. Kuhad,et al.  Immobilization of Xylanase from Bacillus pumilus Strain MK001 and its Application in Production of Xylo-oligosaccharides , 2007, Applied biochemistry and biotechnology.

[30]  L. I. Kozhara,et al.  Immobilization of urease on the silica gel surface by sol-gel method , 2007 .

[31]  Emel Emregul,et al.  Polyacrylamide–gelatine carrier system used for invertase immobilization , 2006 .

[32]  Jinglin Fu,et al.  Peptide-Modified Surfaces for Enzyme Immobilization , 2011, PloS one.

[33]  S. Akhtar,et al.  Direct immobilization of polyphenol oxidases on Celite 545 from ammonium sulphate fractionated proteins of potato (Solanum tuberosum) , 2006 .

[34]  Wolfgang Kroutil,et al.  Immobilization of ω-transaminases by encapsulation in a sol–gel/celite matrix , 2010 .

[35]  Q. Husain,et al.  Use of DEAE cellulose adsorbed and crosslinked white radish (Raphanus sativus) peroxidase for the removal of α-naphthol in batch and continuous process , 2010 .

[36]  S. Lotfy,et al.  Enhancement of fibrinolytic enzyme production from Bacillus subtilis via immobilization process onto radiation synthesized starch/dimethylaminoethyl methacrylate hydrogel , 2012 .

[37]  Y. Hirose,et al.  Immobilization of lipase on a new inorganic ceramics support, toyonite, and the reactivity and enantioselectivity of the immobilized lipase , 2000 .

[38]  N. Hilal,et al.  Lipase-immobilized biocatalytic membranes for enzymatic esterification: Comparison of various approaches to membrane preparation , 2006 .

[39]  Xiaojuan Liu,et al.  Hydrogen peroxide biosensor based on the immobilization of horseradish peroxidase on γ-Al2O3 nanoparticles/chitosan film-modified electrode , 2011 .

[40]  A. Kembhavi,et al.  Immobilization of endo-polygalacturonase from Aspergillus ustus on silica gel , 2000, Biotechnology Letters.

[41]  Li Wei,et al.  Specific and reversible immobilization of NADH oxidase on functionalized carbon nanotubes. , 2010, Journal of biotechnology.

[42]  S. Bajpai,et al.  Immobilization of α-amylase onto cellulose-coated magnetite (CCM) nanoparticles and preliminary starch degradation study , 2009 .

[43]  H. Kawaguti,et al.  Production of isomaltulose using Erwinia sp. D12 cells: Culture medium optimization and cell immobilization in alginate , 2006 .

[44]  R. Sahney,et al.  Enzyme coated glass pH-electrode: Its fabrication and applications in the determination of urea in blood samples , 2005 .

[45]  D. Rochefort,et al.  Physical immobilization of laccase on an electrode by means of poly(ethyleneimine) microcapsules , 2008 .

[46]  J. Liesienė,et al.  Evaluation of man-tailored cellulose-based carriers in glucoamylase immobilization. , 2007, Carbohydrate research.

[47]  Neelam P. Mishra,et al.  Byssus Thread: A Novel Support Material for Urease Immobilization , 2011, Applied biochemistry and biotechnology.

[48]  Shiow-Ling Lee,et al.  Activity enhancement and stabilization of lipase from Pseudomonas cepacia in polyallylamine-mediated biomimetic silica , 2011, Biotechnology Letters.

[49]  Carbon fiber microelectrodes modified with carbon nanotubes as a new support for immobilization of glucose oxidase , 2011 .

[50]  A. Tanriseven,et al.  A novel method for the immobilization of β-galactosidase , 2002 .

[51]  S. Dutta,et al.  Removal of mercury from its aqueous solution using charcoal-immobilized papain (CIP). , 2009, Journal of hazardous materials.

[52]  Linqiu Cao Introduction: Immobilized Enzymes: Past, Present and Prospects , 2006 .

[53]  S. Sakai,et al.  Immobilization of Pseudomonas cepacia lipase onto electrospun polyacrylonitrile fibers through physical adsorption and application to transesterification in nonaqueous solvent , 2010, Biotechnology Letters.

[54]  N. Durán,et al.  Silica immobilized enzyme catalyzed removal of chlorolignins from eucalyptus kraft effluent , 1995 .

[55]  R. Sheldon Characteristic features and biotechnological applications of cross-linked enzyme aggregates (CLEAs) , 2011, Applied Microbiology and Biotechnology.

[56]  Ch. Subba Rao,et al.  Functionalized Alginate as Immobilization Matrix in Enantioselective l (+) Lactic Acid Production by Lactobacillus delbrucekii , 2008, Applied biochemistry and biotechnology.

[57]  I. Sokolov,et al.  Enzyme-functionalized mesoporous silica for bioanalytical applications , 2009, Analytical and bioanalytical chemistry.

[58]  Xinhua Xu,et al.  ELECTROSPUN POLY (VINYL ALCOHOL)/GLUCOSE OXIDASE BIOCOMPOSITE MEMBRANES FOR BIOSENSOR APPLICATIONS , 2006 .

[59]  N. Dogan,et al.  Properties of Immobilized Phenylalanine Ammonia Lyase and Investigation of its Use for the Prediagnosis of , 2010 .

[60]  Ping Wang,et al.  Challenges in biocatalysis for enzyme-based biofuel cells. , 2006, Biotechnology advances.

[61]  S. S. Kanwar,et al.  Glutaraldehyde activation of polymer Nylon-6 for lipase immobilization: enzyme characteristics and stability. , 2008, Bioresource technology.

[62]  Y. Ye,et al.  Enzymatic Peptide Synthesis in Organic Solvent with Different Zeolites as Immobilization Matrixes. , 2000 .

[63]  Liu Zhiwei,et al.  Immobilization of activated sludge in poly(ethylene glycol) by UV technology and its application in micro-polluted wastewater , 2010 .

[64]  Cristóbal N. Aguilar,et al.  Catalytical Properties of Free and Immobilized Aspergillus niger Tannase , 2011, Enzyme research.

[65]  Jin-Ku Liu,et al.  FACILE SYNTHESIS OF HYDROXYLAPATITE NANOSTRUCTURES WITH VARIOUS MORPHOLOGIES , 2009 .

[66]  M. Abdel-Naby IMMOBILIZATION OF PAENIBACILLUS MACERANS NRRL B-3186 CYCLODEXTRIN GLUCOSYLTRANSFERASE AND PROPERTIES OF THE IMMOBILIZED ENZYME , 1999 .

[67]  Majid Soleimani,et al.  α-Amylase immobilization on the silica nanoparticles for cleaning performance towards starch soils in laundry detergents , 2012 .

[68]  S. Ansari,et al.  Lactose hydrolysis from milk/whey in batch and continuous processes by concanavalin A-Celite 545 immobilized Aspergillus oryzae β galactosidase , 2012 .

[69]  R. Banerjee,et al.  Immobilization of α-amylase from Bacillus circulans GRS 313 on coconut fiber , 2002 .

[70]  Zhenmin Cheng,et al.  Immobilization of lipase on chemically modified bimodal ceramic foams for olive oil hydrolysis , 2008 .

[71]  Q. Husain,et al.  Calcium alginate–starch hybrid support for both surface immobilization and entrapment of bitter gourd (Momordica charantia) peroxidase , 2009 .

[72]  Kenthorai Raman Jegannathan,et al.  Production of biodiesel from palm oil using liquid core lipase encapsulated in κ-carrageenan , 2010 .

[73]  Daniel I. C. Wang,et al.  Immobilization of l-lactate dehydrogenase on magnetic nanoclusters for chiral synthesis of pharmaceutical compounds , 2009 .

[74]  Y. M. Elçin Encapsulation of urease enzyme in xanthan-alginate spheres. , 1995, Biomaterials.

[75]  V. Mulimani,et al.  Hydrolysis of Galacto-oligosaccharides in Soymilk by κ-carrageenan-entrapped α-galactosidase from Aspergillus Oryzae , 2006 .

[76]  G. Kibarer,et al.  Optimization studies on the features of an activated charcoal-supported urease system. , 1996, Biomaterials.

[77]  E. Hedenström,et al.  The enantioselectivity of Candida rugosa lipase is influenced by the particle size of the immobilising support material Accurel , 2006 .

[78]  Y. Chao,et al.  Chitin-binding domain based immobilization of D-hydantoinase. , 2005, Journal of biotechnology.

[79]  松山 正宣 Aspergillus Oryzae の一變異種に就て , 1951 .

[80]  Qing-Hong Shi,et al.  Chitosan-coated silica beads as immobilized metal affinity support for protein adsorption , 2003 .

[81]  Sheng-Chi Wu,et al.  Application of bacterial cellulose pellets in enzyme immobilization , 2008 .

[82]  Tuğba Gur,et al.  Immobilization of catalase via adsorption into natural and modified active carbon obtained from walnut in various methods , 2009 .

[83]  K. Balkus,et al.  Enzyme immobilization in MCM-41 molecular sieve , 1996 .

[84]  Y. K. Chang,et al.  A simple method for cell disruption by immobilization of lysozyme on the extrudate-shaped NaY zeolite , 2007 .

[85]  S. Decker,et al.  Immobilization of Fungal β-Glucosidase on Silica Gel and Kaolin Carriers , 2008, Applied biochemistry and biotechnology.

[86]  Gupta,et al.  Simultaneous purification and immobilization of Aspergillus niger xylanase on the reversibly soluble polymer Eudragit(TM) L-100. , 2000, Enzyme and microbial technology.

[87]  W. Hsu,et al.  Integrated enzyme purification and immobilization processes with immobilized metal affinity adsorbents , 2004 .

[88]  P. Adlercreutz,et al.  Immobilisation of lipases by adsorption and deposition: high protein loading gives lower water activity optimum , 2000, Biotechnology Letters.

[89]  Zhi‐Kang Xu,et al.  Covalent immobilization of lipase from Candida rugosa onto poly(acrylonitrile-co-2-hydroxyethyl methacrylate) electrospun fibrous membranes for potential bioreactor application. , 2008, Bioresource technology.

[90]  P. Mohanan,et al.  Activity of diastase α-amylase immobilized on polyanilines (PANIs) , 2011 .

[91]  S. W. Kim,et al.  Lipase Immobilization on Silica Gel Using a Cross-linking Method , 2006 .

[92]  S. F. D’souza,et al.  IMMOBILIZED ENZYMES IN BIOPROCESS , 1999 .

[93]  M. Rosales-Hernández,et al.  Electron paramagnetic resonance analyses of biotransformation reactions with cytochrome P-450 immobilized on mesoporous molecular sieves , 2007, Biotechnology Letters.

[94]  H. Hsieh,et al.  Immobilization of invertase via carbohydrate moiety on chitosan to enhance its thermal stability , 2004, Biotechnology Letters.

[95]  S. Kaddour,et al.  Adsorption of cellulase Aspergillus niger on a commercial activated carbon: kinetics and equilibrium studies. , 2010, Colloids and surfaces. B, Biointerfaces.

[96]  P. Gemeiner,et al.  Biospecific immobilization of mannan-penicillin G acylase neoglycoenzyme on Concanavalin A-bead cellulose. , 2004, Journal of biotechnology.

[97]  R. Juang,et al.  Use of chitosan–clay composite as immobilization support for improved activity and stability of β-glucosidase , 2007 .

[98]  M. Dornier,et al.  Co-immobilized pectinlyase and endocellulase on chitin and Nylon supports , 2000 .

[99]  M. Ramakrishna,et al.  Spectrophotometric assay of immobilized tannase , 1981, Journal of Biosciences.

[100]  J. Dupont,et al.  Ionic liquid-cellulose film for enzyme immobilization , 2011 .

[101]  S. Betigeri,et al.  Immobilization of lipase using hydrophilic polymers in the form of hydrogel beads. , 2002, Biomaterials.

[102]  Wen‐Teng Wu,et al.  Electrospun polyacrylonitrile nanofibrous membranes for lipase immobilization , 2007 .

[103]  E. Franceschi,et al.  Immobilization of Candida rugosa lipase on poly(3-hydroxybutyrate-co-hydroxyvalerate): a new eco-friendly support , 2012, Journal of Industrial Microbiology & Biotechnology.

[104]  M. Coelho,et al.  Effect of chemical treatments on properties of green coconut fiber , 2010 .

[105]  A. Idris,et al.  Immobilized Candida antarctica lipase B: Hydration, stripping off and application in ring opening polyester synthesis. , 2012, Biotechnology advances.

[106]  Xiaoyan Yuan,et al.  Immobilization of cellulase in nanofibrous PVA membranes by electrospinning , 2005 .

[107]  Zhi‐Kang Xu,et al.  Immobilization of Candida rugosa lipase on electrospun cellulose nanofiber membrane , 2011 .

[108]  J. Pérez‐Ramírez,et al.  Mesoporous zeolites as enzyme carriers: Synthesis, characterization, and application in biocatalysis , 2011 .

[109]  Chung-Yuan Mou,et al.  Mesoporous materials for encapsulating enzymes , 2009 .

[110]  G. Demirel,et al.  Preparation and application of poly(N,N-dimethylacrylamide-co-acrylamide) and poly(N-isopropylacrylamide-co-acrylamide)/kappa-Carrageenan hydrogels for immobilization of lipase. , 2007, International journal of biological macromolecules.

[111]  J. Liesienė,et al.  Efficient Agaricus bisporus tyrosinase immobilization on cellulose-based carriers , 2011 .

[112]  G. Sekaran,et al.  In situ immobilization of acid protease on mesoporous activated carbon packed column for the production of protein hydrolysates. , 2010, Bioresource technology.

[113]  Ming-An Yu,et al.  Characterization of Alcohol Dehydrogenase from Permeabilized Brewer's Yeast Cells Immobilized on the Derived Attapulgite Nanofibers , 2010, Applied biochemistry and biotechnology.

[114]  Q. Husain,et al.  Concanavalin A layered calcium alginate-starch beads immobilized beta galactosidase as a therapeutic agent for lactose intolerant patients. , 2008, International journal of pharmaceutics.

[115]  S. Minteer,et al.  Enzyme Immobilization in Biotechnology , 2008 .

[116]  Jian Liu,et al.  Mesoporous silica nanoparticles for bioadsorption, enzyme immobilisation, and delivery carriers. , 2011, Nanoscale.

[117]  A. Jarzebski,et al.  Immobilization of Invertase on Mesoporous Silicas to Obtain Hyper Active Biocatalysts , 2009 .