Jingshu Xi scite author profile

Jingshu Xi

2Publications

9Citation Statements Received

58Citation Statements Given

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Imperial College London

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Immobilization of enzymes using non‐ionic colloidal liquid aphrons (CLAs): Activity kinetics, conformation, and energetics

Ward

Stuckey

2015

Biotech & Bioengineering

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This study seeks to examine the ability of non-ionic/non-polar Colloidial Liquid Aphrons (CLAs) to preserve enzyme functionality upon immobilization and release. CLAs consisting of micron-sized oil droplets surrounded by a thin aqueous layer stabilized by a mixture of surfactants, were formulated by direct addition (pre-manufacture addition) using 1% Tween 80/mineral oil and 1% Tween 20 and the enzymes lipase, aprotinin and α-chymotrypsin. The results of activity assays for both lipase and α-chymotrypsin showed that kinetic activity increased upon immobilization by factors of 7 and 5.5, respectively, while aprotinin retained approximately 85% of its native activity. The conformation of the enzymes released through desorption showed no significant alterations compared to their native state. Changes in pH and temperature showed that optimum conditions did not change after immobilization, while analysis of activation energy for the immobilized enzyme showed an increase in activity at higher temperatures. Furthermore, the effect of bound water within the aphron structure allowed for some degree of enzyme hydration, and this hydration was needed for an active conformation with results showing a decrease in ΔH* for the immobilized system compared to its native counterpart.

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Immobilization of enzymes using non-ionic colloidal liquid aphrons (CLAs): Surface and enzyme effects

Ward

Stuckey

2015

Colloids and Surfaces B: Biointerfaces

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Jingshu Xi

Immobilization of enzymes using non‐ionic colloidal liquid aphrons (CLAs): Activity kinetics, conformation, and energetics

Immobilization of enzymes using non-ionic colloidal liquid aphrons (CLAs): Surface and enzyme effects

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