Crosslinked enzyme aggregates (CLEA) of phytase with soymilk proteins

•CLEA of phytase have been successfully prepared using soymilk as protein feeder.•Recovered activity in the CLEA is 1.8 fold higher than initial activity.•Phytase CLEA are thermally more stable than free enzyme.•CLEA are more resistant to proteolysis than free enzyme. Crosslinked Enzyme Aggregates (...

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Veröffentlicht in:	Journal of biotechnology 2018-09, Vol.282, p.67-69
Hauptverfasser:	Tirunagari, Harini, Basetty, Shalini, Rode, Haridas B., Fadnavis, Nitin W.
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Sprache:	eng
Schlagworte:	Crosslinked enzyme aggregates Immobilization Phytase Soymilk Stability
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container_title	Journal of biotechnology
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creator	Tirunagari, Harini Basetty, Shalini Rode, Haridas B. Fadnavis, Nitin W.
description	•CLEA of phytase have been successfully prepared using soymilk as protein feeder.•Recovered activity in the CLEA is 1.8 fold higher than initial activity.•Phytase CLEA are thermally more stable than free enzyme.•CLEA are more resistant to proteolysis than free enzyme. Crosslinked Enzyme Aggregates (CLEA) of phytase (E.C. 3.1.3.8) have been successfully prepared using soymilk as protein feeder. Compared to total initial activity of 4428 units used for immobilization, the recovered activity in the CLEA is enhanced to 8000 units. The CLEA retained 100% phytase activity up to 50 °C and 70% activity at 70 °C after 6 h incubation while soluble enzyme lost 50% activity at 50 °C and 80% at 70 °C. Soluble phytase has an optimum pH of 2.1 while immobilized enzyme maintains high level of activity in a broad pH range of 1–6. CLEA also retain 80% activity upon proteolytic hydrolysis with pepsin, pancreatin, trypsin and chymotrypsin, while soluble enzyme loses 40% activity under same conditions. Phytase CLEA were recycled for 5 times without loss in activity using a stirred basket reactor.
doi_str_mv	10.1016/j.jbiotec.2018.07.003
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Crosslinked Enzyme Aggregates (CLEA) of phytase (E.C. 3.1.3.8) have been successfully prepared using soymilk as protein feeder. Compared to total initial activity of 4428 units used for immobilization, the recovered activity in the CLEA is enhanced to 8000 units. The CLEA retained 100% phytase activity up to 50 °C and 70% activity at 70 °C after 6 h incubation while soluble enzyme lost 50% activity at 50 °C and 80% at 70 °C. Soluble phytase has an optimum pH of 2.1 while immobilized enzyme maintains high level of activity in a broad pH range of 1–6. CLEA also retain 80% activity upon proteolytic hydrolysis with pepsin, pancreatin, trypsin and chymotrypsin, while soluble enzyme loses 40% activity under same conditions. 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Crosslinked Enzyme Aggregates (CLEA) of phytase (E.C. 3.1.3.8) have been successfully prepared using soymilk as protein feeder. Compared to total initial activity of 4428 units used for immobilization, the recovered activity in the CLEA is enhanced to 8000 units. The CLEA retained 100% phytase activity up to 50 °C and 70% activity at 70 °C after 6 h incubation while soluble enzyme lost 50% activity at 50 °C and 80% at 70 °C. Soluble phytase has an optimum pH of 2.1 while immobilized enzyme maintains high level of activity in a broad pH range of 1–6. CLEA also retain 80% activity upon proteolytic hydrolysis with pepsin, pancreatin, trypsin and chymotrypsin, while soluble enzyme loses 40% activity under same conditions. 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subjects	Crosslinked enzyme aggregates Immobilization Phytase Soymilk Stability
title	Crosslinked enzyme aggregates (CLEA) of phytase with soymilk proteins
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