Immobilization of invertase onto crosslinked poly(<i>p</i>‐chloromethylstyrene) beads

Bahar, Tahsin; Tuncel, Alï

doi:10.1002/app.2294

Cited by 36 publications

(38 citation statements)

References 47 publications

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“…5 The most frequently used carriers have been based on cellulose, glass, copolymers of polyamino acids, poly(p-chloromethylstyrene) beads, starch, agarose, crosslinked dextran, and ethylene-maleic anhydride copolymers. [6][7][8] Different polypyrrole/polytetrahyrofuran/invertase electrodes were constructed by the entrapment of invertase in conducting polymer matrices by electropolymerization. 9,10 A very large number of reactions have been used for the covalent coupling of the enzymes.…”

Section: Introductionmentioning

confidence: 99%

Immobilization of invertase onto dimer acid‐co‐alkyl polyamine

Tümtürk

Tufan

2004

J of Applied Polymer Sci

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Invertase was immobilized onto the dimer acid-co-alkyl polyamine after activation with 1,2-diamine ethane and 1,3-diamine propane. The effects of pH, temperature, substrate concentration, and storage stability on free and immobilized invertase were investigated. Kinetic parameters were calculated as 18.2 mM for K m and 6.43 ϫ 10 Ϫ5 mol dm Ϫ3 min Ϫ1 for V max of free enzyme and in the range of 23.8 -35.3 mM for K m and 7.97-11.71 ϫ 10 Ϫ5 mol dm Ϫ3 min Ϫ1 for V max of immobilized enzyme. After storage at 4°C for 1 month, the enzyme activities were 21.0 and 60.0 -70.0% of the initial activity for free and immobilized enzyme, respectively. The optimum pH values for free and immobilized enzymes were determined as 4.5. The optimum temperatures for free and immobilized enzymes were 45 and 50°C, respectively. After using immobilized enzyme in 3 days for 43 times, it showed 76 -80% of its original activity. As a result of immobilization, thermal and storage stabilities were increased. The aim of this study was to increase the storage stability and reuse number of the immobilized enzyme and also to compare this immobilization method with others with respect to storage stability and reuse number.

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Section: Introductionmentioning

confidence: 99%

Immobilization of invertase onto dimer acid‐co‐alkyl polyamine

Tümtürk

Tufan

2004

J of Applied Polymer Sci

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“…Similar result was observed by Arica et al [10] for invertase immobilised on spacer-arm attached poly(hydroxyethyl methacrylate) membrane. Bahar and Tuncel [7] found that the activity of invertase immobilised onto crosslinked poly(p-chloro methyl styrene) decreased by 20% after 25 batch experiments. Our results demonstrate better reusability characteristics for the covalently bound invertase.…”

Section: Reusability Of Immobilised Invertasementioning

confidence: 99%

“…Soluble invertase is used in the sweet industry in the production of artificial honey. Immobilisation of invertase on corn grits [3], polymer matrices [4][5][6][7], calcium alginate [8], composite gel fibres [9] etc., has already been reported. Studies on reusability of the immobilised enzymes are also reported.…”

Section: Introductionmentioning

confidence: 99%

Invertase immobilised on montmorillonite: reusability enhancement and reduction in leaching

Gopinath

Sugunan

2005

Catalysis Communications

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Invertase was immobilised on microporous montmorillonite K-10 via adsorption and covalent binding. The immobilised enzymes were tested for sucrose hydrolysis activity in a batch reactor. K m for immobilised systems was greater than free enzyme. The immobilised forms could be reused for 15 continuous cycles without any loss in activity. After 25 cycles, 85% initial activity was retained. A study on leaching of enzymes showed that 100% enzyme was retained even after 15 cycles of reuse. Leaching increased with reaction temperature. Covalent binding resisted leaching even at temperatures of 70°C.

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“…The results were compared with absorbance of standard starch and the amount converted was calculated. In case of sugar hydrolysis, colour was developed using 2% 3,5-dinitro salicylic acid solution in 1 M NaOH (w/v) and absorbance was read at 490 nm [11,36]. A standard calibration curve was constructed using glucose solution and the total reducing sugar content was estimated.…”

Section: Activity Measurementsmentioning

confidence: 99%

“…Magnetic polyvinylalcohol microspheres were also used to immobilize enzymes [10]. Other polymers like poly (p-chloromethylstyrene) [11], polypropylene [12], polypyrrole [13,14], graft co-polymers [15,16] etc. have been used efficiently.…”

Section: Introductionmentioning

confidence: 99%

Acid activated montmorillonite: an efficient immobilization support for improving reusability, storage stability and operational stability of enzymes

Gopinath

Sugunan

2007

J Porous Mater

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Three enzymes, a-amylase, glucoamylase and invertase, were immobilized on acid activated montmorillonite K 10 via two independent techniques, adsorption and covalent binding. The immobilized enzymes were characterized by XRD, N 2 adsorption measurements and 27 Al MAS-NMR spectroscopy. The XRD patterns showed that all enzymes were intercalated into the clay inter-layer space. The entire protein backbone was situated at the periphery of the clay matrix. Intercalation occurred through the side chains of the amino acid residues. A decrease in surface area and pore volume upon immobilization supported this observation. The extent of intercalation was greater for the covalently bound systems. NMR data showed that tetrahedral Al species were involved during enzyme adsorption whereas octahedral Al was involved during covalent binding. The immobilized enzymes demonstrated enhanced storage stability. While the free enzymes lost all activity within a period of 10 days, the immobilized forms retained appreciable activity even after 30 days of storage. Reusability also improved upon immobilization. Here again, covalently bound enzymes exhibited better characteristics than their adsorbed counterparts. The immobilized enzymes could be successfully used continuously in the packed bed reactor for about 96 hours without much loss in activity. Immobilized glucoamylase demonstrated the best results.

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Immobilization of invertase onto crosslinked poly(p‐chloromethylstyrene) beads

Cited by 36 publications

References 47 publications

Immobilization of invertase onto dimer acid‐co‐alkyl polyamine

Immobilization of invertase onto dimer acid‐co‐alkyl polyamine

Invertase immobilised on montmorillonite: reusability enhancement and reduction in leaching

Acid activated montmorillonite: an efficient immobilization support for improving reusability, storage stability and operational stability of enzymes

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