immobilised enzymes

Cards (6)

enzymes produced by microbes have an importance in industry, medicine and food technology
enzymes are not used up in the reaction and remain in the suspension
the product must be isolated from the enzyme before use
extraction costs are reduced
enzymes are reused
can be made into a continuous process with less waste
methods for immobilising enzymes
entrapment
adsorption
covalent bonding
membrane separation
entrapment
enzymes trapped in gel bead
reaction rates may be reduced as substrate must penetrate trapping medium (active site less easily available)
the product molecules must diffuse out of the gel bead matrix
only suitable for small substrate and product molecules that diffuse easily
adsorption
enzymes bind to immobilising support (glass beads) by hydrophobic interactions and ionic links.
leakage can occur as bonds are not strong and they can become detached.
high reaction rates as active sites remain unchanged and exposed for accessibility to the substrate
covalent bonding
enzymes are bonded to surfaces using a cross linking agent such as gluteraldehyde to link enzyme to insoluble clay.
binding strong (little leakage - detachment) but some covalent bonding can distort the shape of the active site
membrane separation
enzymes are separated by partially permeable membrane. the substrate and product molecules must be small enough to move across membrane to access the active site

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