Immobilization of Cellulases Produced by Penicillium brevicompactum AUMC 10987, using Cross-Linkage, Chitosan-Coating and Encapsulation
Abdel-Sater, M., Hussein, N., Fetyan, N., Gad, S. (2019). Immobilization of Cellulases Produced by Penicillium brevicompactum AUMC 10987, using Cross-Linkage, Chitosan-Coating and Encapsulation. EKB Journal Management System, 18(1), 139-149. doi: 10.21608/cat.2019.28624
Mohamed Abdel-Sater; Nemmat Hussein; Nashwa Fetyan; Sabreen Gad. "Immobilization of Cellulases Produced by Penicillium brevicompactum AUMC 10987, using Cross-Linkage, Chitosan-Coating and Encapsulation". EKB Journal Management System, 18, 1, 2019, 139-149. doi: 10.21608/cat.2019.28624
Abdel-Sater, M., Hussein, N., Fetyan, N., Gad, S. (2019). 'Immobilization of Cellulases Produced by Penicillium brevicompactum AUMC 10987, using Cross-Linkage, Chitosan-Coating and Encapsulation', EKB Journal Management System, 18(1), pp. 139-149. doi: 10.21608/cat.2019.28624
Abdel-Sater, M., Hussein, N., Fetyan, N., Gad, S. Immobilization of Cellulases Produced by Penicillium brevicompactum AUMC 10987, using Cross-Linkage, Chitosan-Coating and Encapsulation. EKB Journal Management System, 2019; 18(1): 139-149. doi: 10.21608/cat.2019.28624

Immobilization of Cellulases Produced by Penicillium brevicompactum AUMC 10987, using Cross-Linkage, Chitosan-Coating and Encapsulation

Catrina: The International Journal of Environmental Sciences
Article 14, Volume 18, Issue 1, March 2019, Page 139-149  XML PDF (1.09 MB)
Document Type: Original Article
DOI: 10.21608/cat.2019.28624
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Authors
Mohamed Abdel-Sater1; Nemmat Hussein email 1; Nashwa Fetyan2; Sabreen Gad3
1Botany and Microbiology Department, Faculty of Science, Assiut University, Assiut, Egypt
2Microbiology Department, Soil, Water and Environment Research Institute, Agricultural Research Center, Giza, Egypt
3Microbiology Department, Soil, Water and Environment Research Institute, Agricultural Research Center, Shandaweel Research Station, Sohag, Egypt
Abstract
This study was designed to optimize different conditions for improving enzyme production by Penicillium brevicompactum AUMC 10987, and to precipitate and immobilize cellulases by cross-linking method using glutaraldehyde, magnetic nanocarriers and encapsulation using Ca-alginate. Maximum activity of cellulase was achieved in medium containing date palm leaves, sodium nitrate, after 9 days incubation at 30°C and pH 6. Solid state fermentation was more convenient method in cellulase production. After ammonium sulphate precipitation, enzyme activities exceeded two-folded, constructing more stability for the enzyme structure and giving maximum activities at 50℃ and pH 4.8. Hence, precipitated enzyme could work in higher temperature and acidity conditions. The immobilization of cellulases by encapsulation was the most valuable technique retaining the activity of enzyme. Moreover, the immobilized enzyme remained active up to 80°C, giving its maximum activity at 50°C and pH 5.5. Enzyme encapsulated within alginate beads is preferred due to easy for formulation, mild gelation conditions, non-toxic, biocompatibility, low cost and resistance to microbial attack. Magnetic nannocariers immobilized enzyme had opportunity to be reused after 4 cycles/16 hours. The current study could provide a robust and highly valuable immobilized enzyme for different industrial and biotechnological applications.
Keywords
Ca-alginate; Cellulase; Encapsulation; Penicillium brevicompactum AUMC 10987
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