Masako Kawagoe scite author profile

Negatively charged ultrafine silica particles (average diameter 20 nm) were used as support materials for adsorption immobilization of porcine trypsin, horseradish peroxidase, and bovine catalase under various conditions, and the changes in the enzyme activities and the circular dichroism (CD) spectra of these enzymes upon adsorption were measured. Since the light scattering intensity of the ultrafine particles was very low, the activities and the CD spectra of the enzymes adsorbed on the particle surfaces could be measured. The enzymes adsorbed at pH around and above their isoelectric points (pI) showed high activities. On the other hand, the enzymes adsorbed at pHs below their pI had significantly diminished activities and showed large CD spectral changes upon adsorption. The extent of CD spectral changes in the enzymes upon adsorption correlated very closely with that of the activity reduction. Therefore, the conformational changes in enzymes upon adsorption are one of the important factors that reduce the activities of adsorbed enzymes. These results demonstrate that the ultrafine particles are not only a novel support for enzyme immobilization but also are helpful for the molecular understanding of the immobilized enzymes.

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On the evaporation rate of ultra-thin liquid film at the nanostructured surface: A molecular dynamics study

Nagayama

Kawagoe

Tokunaga

et al. 2010

International Journal of Thermal Sciences

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Complement Activation by Polymers Carrying Hydroxyl Groups

Arima

Kawagoe

Toda

et al. 2009

ACS Appl. Mater. Interfaces

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Hydrogels of polymers carrying surface hydroxyl groups strongly activate the complement system through the alternative pathway, although it has also been reported that solutions of polymers do not. To address these curious, inconsistent results, we examined the effect of polymer states, either immobilized on a surface or soluble in serum, on the complement activation using a surface plasmon resonance apparatus and enzyme-linked immunosorbent assay. We clearly showed that dextran- and poly(vinyl alcohol)-immobilized surfaces strongly activated the complement system but that soluble polymers could not, even when the amounts of the soluble polymers added to serum were 4-2000 times higher than those on the polymer-immobilized surfaces.

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Effect of swelling of poly(vinyl alcohol) layers on complement activation

et al. 2010

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Masako Kawagoe

Kinetic and circular dichroism studies of enzymes adsorbed on ultrafine silica particles

On the evaporation rate of ultra-thin liquid film at the nanostructured surface: A molecular dynamics study

Complement Activation by Polymers Carrying Hydroxyl Groups

Effect of swelling of poly(vinyl alcohol) layers on complement activation

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