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Literature DB >> 17450322

Candida rugosa lipase-catalyzed polyurethane degradation in aqueous medium.

Rajeeb Gautam¹, Amarjeet S Bassi, Ernest K Yanful.

Abstract

Candida rugosa lipase (EC 3.1.1.3) was used to degrade commercially-available solid poly(ester)urethane (Impranil) in an aqueous medium under different temperature, pH, enzyme and substrate concentrations. A mathematical model was developed and applied to represent the degradation kinetics of the solid polyurethane. Reaction optima were found to be pH 7 and 35 degrees C. Diethylene glycol, a degradation byproduct, generation rate was measured to be 0.12 mg/l min and the activation energy was calculated as 9.121 kcal/gmol K. This information will be useful in developing bioreactors for practical applications to manage polyurethane wastes using lipase.

Entities: Chemical Disease

Mesh：

Substances：

Year: 2007 PMID： 17450322 DOI： 10.1007/s10529-007-9354-1

Source DB: PubMed Journal: Biotechnol Lett ISSN： 0141-5492 Impact factor: 2.461

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Cited

6 in total

1. Fungal communities associated with the biodegradation of polyester polyurethane buried under compost at different temperatures.

Authors: Urooj Zafar; Ashley Houlden; Geoffrey D Robson
Journal: Appl Environ Microbiol Date: 2013-09-20 Impact factor: 4.792

2. Biodegradation of polyester polyurethane by endophytic fungi.

Authors: Jonathan R Russell; Jeffrey Huang; Pria Anand; Kaury Kucera; Amanda G Sandoval; Kathleen W Dantzler; DaShawn Hickman; Justin Jee; Farrah M Kimovec; David Koppstein; Daniel H Marks; Paul A Mittermiller; Salvador Joel Núñez; Marina Santiago; Maria A Townes; Michael Vishnevetsky; Neely E Williams; Mario Percy Núñez Vargas; Lori-Ann Boulanger; Carol Bascom-Slack; Scott A Strobel
Journal: Appl Environ Microbiol Date: 2011-07-15 Impact factor: 4.792

3. Enzymatic Degradation of the Most Common Aliphatic Bio-Polyesters and Evaluation of the Mechanisms Involved: An Extended Study.

Authors: Antonella Rosato; Angela Romano; Grazia Totaro; Annamaria Celli; Fabio Fava; Giulio Zanaroli; Laura Sisti
Journal: Polymers (Basel) Date: 2022-04-30 Impact factor: 4.967

Candida rugosa lipase-catalyzed polyurethane degradation in aqueous medium.

1. Fungal communities associated with the biodegradation of polyester polyurethane buried under compost at different temperatures.

2. Biodegradation of polyester polyurethane by endophytic fungi.

3. Enzymatic Degradation of the Most Common Aliphatic Bio-Polyesters and Evaluation of the Mechanisms Involved: An Extended Study.

Review 4. Plastics: Environmental and Biotechnological Perspectives on Microbial Degradation.

Review 5. Fungal Enzymes Involved in Plastics Biodegradation.

6. Biodegradation of aromatic pollutants meets synthetic biology.