Purification and characterization of chitinase produced by thermophilic fungi Thermomyces lanuginosus

In the past few years, the production of shrimp shell waste from the seafood processing industries has confronted a significant surge. Furthermore, insignificant dumping of waste has dangerous effects on both nature and human well-being. This marine waste contains a huge quantity of chitin which has...

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Bibliographic Details
Published in:Preparative biochemistry & biotechnology 2022-10, Vol.52 (9), p.1087-1095
Main Authors: Suryawanshi, Nisha, Eswari, J. Satya
Format: Article
Language:English
Subjects:
Ammonium
Ammonium sulfate
Anion exchange chromatography
Bioremediation
Cellulose
Chitin
Chitinase
Chromatography
Copper
Degradation
Dumping
enzyme kinetics
Enzymes
Ethylenediaminetetraacetic acids
Gel chromatography
Gel electrophoresis
Gel filtration
Human wastes
Ion exchange
Ion-exchange chromatography
Metal concentrations
Metal ions
pH effects
purification
SDS-PAGE
Seafood
Shellfish
Sodium lauryl sulfate
Stability
Substrates
Thermomyces lanuginosus
Thermophilic fungi
Well being
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Summary:In the past few years, the production of shrimp shell waste from the seafood processing industries has confronted a significant surge. Furthermore, insignificant dumping of waste has dangerous effects on both nature and human well-being. This marine waste contains a huge quantity of chitin which has several applications in different fields. The chitinase enzyme can achieve degradation of chitin, and the chitin itself can be used as the substrate as well for production of chitinase. In the current study, the chitinase enzyme was produced by Thermomyces lanuginosus. The extracellular chitinase was purified from crude extract using ammonium sulfate precipitation followed by DEAE-cellulose ion-exchange chromatography and Sephadex G-100 gel filtration chromatography. The stability and activity of chitinase with different pH, temperature, different times for a reaction, in the presence of different metal ions, and different concentration of enzyme and substrate were analyzed. The chitinase activity was found to be highest at pH 6.5, 50 °C, and 60 min after the reaction began. and the chitinase showed the highest activity and stability in the presence of β-mercaptoethanol (ME). The SDS-PAGE of denatured purified chitinase showed a protein band of 18 kDa. The characterization study concludes that Cu 2+ , Hg 2+ , and EDTA have an inhibitory effect on chitinase activity, whereas β-ME acts as an activator for chitinase activity. The utilization of chitin to produce chitinase and the degradation of chitin using that chitinase enzyme would be an opportunity for bioremediation of shrimp shell waste.
ISSN:1082-6068
1532-2297
DOI:10.1080/10826068.2022.2028639