Detail:
Series: Methods in Biotechnology | Volume: 22 | Pub. Date: Mar-15-2006 | Page Range: 87-95 | DOI: 10.1007/978-1-59745-053-9_8
Year prepared: 2006
Smart polymers are water-soluble polymers that can be precipitated by an appropriate stimulus such as change of pH, ionic strength, temperature, or addition of a chemical species. Such polymers occur naturally (e.g., alginate, chitosan) but can also be synthesized chemically (e.g., methyl methacrylate polymers available commercially as Eudragitâ„¢). Linking of an enzyme to these polymers by noncovalent or covalent methods gives a biocatalyst that can be used as a homogeneous catalyst but can be recovered for possible re-use (after the reaction) by applying appropriate stimulus. The illustrative protocol shows that xylanase could be adsorbed on Eudragit L-100 and this reversibly soluble-insoluble biocatalyst could be used for hydrolysis of xylan. Interestingly, the adsorption removed cellulase impurity. This is useful for paper pulp bleaching because xylanase should be free of cellulase activity. The soluble Eudragit-xylanase conjugate could be studied by circular dichroism spectroscopy to examine conformational changes in enzymes on immobilization on Eudragit L-100.
NB The enzyme used in this protocol is xylanase from Aspergillus niger (Pectinex 3XL)
url: ProtocolLaboratory Protocols
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Title
Type
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Protocol overviews
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Fungal Molecular Biology
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Protocol overviews
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More protocol collections
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More protocol collections
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More protocol collections
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More protocol collections
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Detection in clinical samples
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Susceptibility testing
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Susceptibility testing