The decrease in the thermal stability of the immobilized support

The decrease in the thermal stability of the immobilized support is attributed to the thermal conductance of silicon resulting in the major heat transfer from Si support to the enzyme (thermal conductivity of silica 8 W m -1  k), as has been observed in other reports [38]. Figure 5 First-order rate constant calculations from semi-logarithmic plot of residual activity of soluble and immobilized

peroxidase during incubation (50°C). Stability of peroxidase in aqueous-organic solvent mixture As the stabilization of enzymes is one of the most complex challenges in protein chemistry, the stability of soluble and immobilized peroxidase has also been investigated in aqueous solution containing 50% acetonitrile. As shown in Figure  6, the immobilized peroxidase showed a greater tolerance to acetonitrile by retaining 80% of the catalytic efficiency in comparison to the soluble enzyme which lost 95% of its activity after 2 h. TEW-7197 cost Organic solvents can inactivate enzymes in several ways: the organic solvent molecules can interact with the biocatalyst, disrupting the secondary bonds in the native structure; they can strip the essential water molecules from the hydration shell altering the structure of the enzyme; or they can interact with the active site of the biocatalyst, causing inactivation. Figure 6 First-order rate constant calculations

from semi-logarithmic plot of residual activity this website of soluble and immobilized peroxidase during incubation (50% acetonitrile). The insert shows an amplification of immobilized enzyme profile. Stability of peroxidase in the presence of hydrogen peroxide The stability of Suplatast tosilate peroxidase in the presence of hydrogen peroxide is a key issue because peroxidase becomes inactive in the presence of excess hydrogen peroxide; therefore, the effects of hydrogen peroxide on the stability of the enzyme were investigated. As expected, the activities of the free peroxidase decreased rapidly in the presence of hydrogen peroxide, with a decrease

to less than 50% of the initial activities occurring within 40 min. On the other hand, immobilized peroxidase showed a slightly lower inactivation rate, suggesting no significant protection of the enzyme against hydrogen peroxide, due to the binding of the enzyme to PS matrix as shown in Figure  7. Figure 7 First-order rate constant calculations from semi-logarithmic plot of residual activity of soluble and immobilized peroxidase with H 2 O 2 incubation. Conclusions This work is focused on porous silicon surface functionalization https://www.selleckchem.com/products/geneticin-g418-sulfate.html through the covalent attachment of the peroxidase enzyme with the PS support. The immobilization of the enzyme onto the porous silicon support has been confirmed from the RIFTS and FTIR studies. The study of thickness of the porous layer onto the availability of enzyme showed that higher thickness hinders the passage of substrate into the pores, which results in lower activity.

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