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Immobilized enzyme reaction stability: Attrition of the support material

โœ Scribed by D. L. Regan; P. Dunnill; M. D. Lilly

Publisher
John Wiley and Sons
Year
1974
Tongue
English
Weight
458 KB
Volume
16
Category
Article
ISSN
0006-3592

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โœฆ Synopsis

Abstract

One of the main reasons for immobilizing an enzyme is to enable its reuse, or continuous use, in a reactor. Consequently immobilized enzyme stability is an important factor in enzyme reactor design. The performance of the reactor will decrease if during operation the support material disintegrates into smaller particles that pass out of the reactor system.

When ฮฒโ€galactosidase is immobilized by covalent attachment to AEโ€cellulose, the smaller particles have a higher activity. After subjection of the immobilized enxyme to a shear stress the average particle size decreases and the total enzymic activity increases. A loss of small particles from the reactor, although constituting a small weight percent loss of support, will result in a disproportionately large loss in activity. The relevance of these observations to reactor performance is discussed.

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