Screening, cloning, enzymatic properties of a novel thermostable cellulase enzyme, and its potential application on water hyacinth utilization
Autor: | Jeonyun Yun, Zujun Deng, Xiaoshen Zhao, Liyang Liu, Shan Liu, He Li, Xiong Xiao |
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Rok vydání: | 2021 |
Předmět: |
Microbiology (medical)
Cellulase Raw material Microbiology 03 medical and health sciences chemistry.chemical_compound Aquatic plant Enzyme Stability Amino Acid Sequence Food science Cloning Molecular Cellulose Phylogeny Soil Microbiology 030304 developmental biology Thermostability chemistry.chemical_classification 0303 health sciences biology 030306 microbiology Chemistry Hyacinth Glycoside hydrolase family 5 Temperature Hydrogen-Ion Concentration biology.organism_classification Reducing sugar Eichhornia biology.protein Metagenomics |
Zdroj: | International Microbiology. 24:337-349 |
ISSN: | 1618-1905 1139-6709 |
DOI: | 10.1007/s10123-021-00170-4 |
Popis: | Cellulose is the cheapest, natural, renewable organic substance that is used as a carbon source in various fields. Water hyacinth, an aquatic plant rich in cellulose, is often used as a raw material in fuel production. However, natural cellulase can be hardly used in industrial production on account of its low thermal stability and activity. In this study, a metagenomic library was constructed. Then a new cellulase gene, cel1029, was screened by Congo red staining and expressed in the prokaryotic system. Enzymatic properties of Cel1029 were explored, including optimum temperature and pH, thermal and pH stability, and tolerance against organic solvents, metal ions and salt solutions. Finally, its ability of degrading water hyacinth was identified and evaluated. Cel1029 displayed high homology with endoglucanase in the glycoside hydrolase family 5 (GH5) and had high stability across a broad temperature range. More than 86% of its enzymatic activities were retained between 4 and 60°C after 24 h of incubation. Single-factor analysis and orthogonal design were further conducted to determine the optimal conditions for the highest reducing sugar yield of water hyacinth. Interestingly, Cel1029 efficiently transformed water hyacinth with a reducing sugar yield of 430.39 mg/g in 22 h. These findings may open the door for significant industrial applications of a novel GH5 cellulase (NCBI Reference Sequence: MK051001, Cel1029) and help identify more efficient methods to degrade cellulose-rich plants. |
Databáze: | OpenAIRE |
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