dc.contributor.author |
Brady, D
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dc.contributor.author |
Jordaan, J
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dc.date.accessioned |
2010-04-08T08:25:18Z |
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dc.date.available |
2010-04-08T08:25:18Z |
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dc.date.issued |
2009-07-10 |
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dc.identifier.citation |
Brady, D and Jordaan, J 2009. Advances in enzyme immobilisation. Biotechnology Letters, Vol. 31(11), pp 1639-1650 |
en |
dc.identifier.issn |
0141-5492 |
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dc.identifier.uri |
http://www.springerlink.com/content/g71665208l264352/fulltext.html
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dc.identifier.uri |
http://www.springerlink.com/content/g71665208l264352/
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dc.identifier.uri |
http://hdl.handle.net/10204/4008
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dc.description |
Copyright: 2009 Springer Netherlands. This is the author’s post print version. It is posted here by permission of Springer Netherlands for your personal use. Not for redistribution. The definitive version has been published in the Journal of Biotechnology Letters, Vol. 31(11), pp 1639-1650 |
en |
dc.description.abstract |
Improvements in current carrier-based immobilisation strategies have been developed using hetero-functionalised supports that enhance the binding efficacy and stability through multipoint attachment. New commercial resins (Sepabeads) exhibit improved protein binding capacity. Novel methods of enzyme self immobilisation have been developed (CLEC, CLEA, Spherezyme), as well as carrier materials (Dendrispheres), encapsulation (PEI Microspheres), and entrapment. Apart from retention, recovery and stabilisation, other advantages to enzyme immobilisation have emerged, such as enhanced enzyme activity, modification of substrate selectivity and enantioselectivity, and multi-enzyme reactions. These advances promise to enhance the roles of immobilisation enzymes in industry, while opening the door for novel applications. |
en |
dc.language.iso |
en |
en |
dc.publisher |
Springer Netherlands |
en |
dc.subject |
Enzyme |
en |
dc.subject |
Biocatalysis |
en |
dc.subject |
Biocatalyst |
en |
dc.subject |
Immobilisation enzyme |
en |
dc.subject |
Sepabeads |
en |
dc.subject |
Immobilisation |
en |
dc.subject |
Hetero-functionalised supports |
en |
dc.subject |
Encapsulation |
en |
dc.subject |
Entrapment |
en |
dc.subject |
Support based immobilisation |
en |
dc.subject |
Self immobilisation |
en |
dc.title |
Advances in enzyme immobilisation |
en |
dc.type |
Article |
en |
dc.identifier.apacitation |
Brady, D., & Jordaan, J. (2009). Advances in enzyme immobilisation. http://hdl.handle.net/10204/4008 |
en_ZA |
dc.identifier.chicagocitation |
Brady, D, and J Jordaan "Advances in enzyme immobilisation." (2009) http://hdl.handle.net/10204/4008 |
en_ZA |
dc.identifier.vancouvercitation |
Brady D, Jordaan J. Advances in enzyme immobilisation. 2009; http://hdl.handle.net/10204/4008. |
en_ZA |
dc.identifier.ris |
TY - Article
AU - Brady, D
AU - Jordaan, J
AB - Improvements in current carrier-based immobilisation strategies have been developed using hetero-functionalised supports that enhance the binding efficacy and stability through multipoint attachment. New commercial resins (Sepabeads) exhibit improved protein binding capacity. Novel methods of enzyme self immobilisation have been developed (CLEC, CLEA, Spherezyme), as well as carrier materials (Dendrispheres), encapsulation (PEI Microspheres), and entrapment. Apart from retention, recovery and stabilisation, other advantages to enzyme immobilisation have emerged, such as enhanced enzyme activity, modification of substrate selectivity and enantioselectivity, and multi-enzyme reactions. These advances promise to enhance the roles of immobilisation enzymes in industry, while opening the door for novel applications.
DA - 2009-07-10
DB - ResearchSpace
DP - CSIR
KW - Enzyme
KW - Biocatalysis
KW - Biocatalyst
KW - Immobilisation enzyme
KW - Sepabeads
KW - Immobilisation
KW - Hetero-functionalised supports
KW - Encapsulation
KW - Entrapment
KW - Support based immobilisation
KW - Self immobilisation
LK - https://researchspace.csir.co.za
PY - 2009
SM - 0141-5492
T1 - Advances in enzyme immobilisation
TI - Advances in enzyme immobilisation
UR - http://hdl.handle.net/10204/4008
ER -
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en_ZA |