Immobilized enzyme

An immobilized enzyme is an enzyme that is attached to an inert, insoluble material such as calcium alginate (produced by reacting a mixture of sodium alginate solution and enzyme solution with calcium chloride). This can provide increased resistance to changes in conditions such as pH or temperature. It also allows enzymes to be held in place throughout the reaction, following which they are easily separated from the products and may be used again - a far more efficient process and so is widely used in industry for enzyme catalysed reactions. An alternative to enzyme immobilization is whole cell immobilization.[1,2]

Commercial use

Immobilized enzymes are very important for commercial uses as they possess many benefits to the expenses and processes of the reaction of which include:

In the past, biological washing powders and detergents would contain many proteases and lipases which would break down dirt. However, when the cleaning products would come into contact with the skin, it would create allergic reactions. This is why immobilization of enzymes are important, not just economically.

Immobilization of an Enzyme

There are four different ways by which one can immobilize an enzyme, which are the following, listed in order of effectiveness:

Immobilization of a Substrate for Enzymatic Reactions

Another widely used application of the immobilization approach together with enzymes has been the enzymatic reactions on immobilized substrates. This approach facilitates the analysis of enzyme activities and mimics the performance of enzymes on e.g. cell walls.[3]


References

1. Zaushitsyna O. et al. Cryostructured and Crosslinked Viable Cells Forming Monoliths Suitable for Bioreactor Applications. Topics in Catalysis, 2014. P.1-10.

2. R Aragão Börner et al. Immobilization of Clostridium acetobutylicum DSM 792 as macroporous aggregates through cryogelation for butanol production Process Biochemistry 2014. V.49. (1), P.10-18.

3. Gray C.J, Weissenborn M.J. et al. Enzymatic reactions on immobilised substrates 2013, Chem. Soc. Rev. DOI: 10.1039/C3CS60018A

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