Orientation controlled immobilization strategy for β-galactosidase on alginate beads

M. S. Mohy Eldin, Elaassar Mohamed Ramadan, E. A. Hassan

Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

Abstract

In recent years, enzyme immobilization has gained importance for design of artificial organs, drug delivery systems, and several biosensors. Polysaccharide based natural biopolymers used in enzyme or cell immobilization represent a major class of biomaterials which includes agarose, alginate, dextran, and chitosan. Especially, Alginates are commercially available as water-soluble sodium alginates and they have been used for more than 65 years in the food and pharmaceutical industries as thickening, emulsifying and film forming agent. Entrapment within insoluble calcium alginate gel is recognized as a rapid, nontoxic, inexpensive and versatile method for immobilization of enzymes as well as cells. In this research, the formulation conditions of the alginate beads entrapment immobilized with the enzyme have been optimized and effect of some selected conditions on the kinetic parameter, Km, have been presented. β-galactosidase enzymes entrapped into alginate beads are used in the study of the effect of both substrate diffusion limitation and the mis-orientation of the enzyme on its activity, the orientation of an immobilized protein is important for its function. Physicochemical characteristics and kinetic parameters; Protection of the activity site using galactose as protecting agent has been presented as a solution for the mis-orientation problem. This technique has been successful in reduction, and orientation-controlled immobilization of enzyme. Other technique has been presented to reduce the effect of substrate diffusion limitation through covalent immobilization of the enzyme onto the surface of alginate beads after activation of its OH-groups.

Original languageEnglish
Title of host publicationChemical and Biochemical Technology
Subtitle of host publicationMaterials, Processing, and Reliability
PublisherApple Academic Press
Pages279-298
Number of pages20
ISBN (Electronic)9781482257625
ISBN (Print)9781771880442
DOIs
StatePublished - 1 Jan 2014
Externally publishedYes

Keywords

  • Alginate’s oh groups
  • Biopolymers
  • Diffusion limitation of lactose
  • Drug delivery systems
  • High catalytic activity beads
  • Immobilization of β-galactosidase

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