Bioprocess strategies for enhanced production of xylanase by Melanocarpus albomyces IITD3A on agro-residual extract(BIOCHEMICAL ENGINEERING)
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概要
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The production of high titer xylanase without cellulase is required for prebleaching of pulps in pulp and paper industry. The mutant IITD3A of Melanocarpus albomyces developed from the spores of the wild type organism was used in this study. The statistical optimization of the process parameters by response surface methodology revealed that the production of xylanase was most affected by changes in the pH of the production medium which contained a soluble extract of wheat straw as the sole carbon source. When the pH of the production medium in a 14L bioreactor was controlled on-line at 7.8, xylanase activity of 415IU mL^<-1> was obtained after 36h fermentation. On cycling the pH between 7.8 and 8.2, the same activity could be attained in 24h with an overall productivity of 16,670IU L^<-1>h^<-1>. The production of xylanase was also influenced by the fungus morphology; the activity being maximum when it exhibited pellet form at an agitation speed of 600rpm. On optimization of aeration rate to 0.25wm, the xylanase activity further increased to 550IU mL^<-1> with a very high overall volumetric productivity of 22,000IU L<-1>h<-1>. Thus, a 5.2-fold enhancement in overall volumetric productivity of xylanase could be obtained by the mutant in comparison to that obtained on insoluble wheat straw.
著者
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MISHRA SAROJ
Department of Endocrine Surgery, Sanjay Gandhi Postgraduate Institute of Medical Sciences
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Mishra Saroj
Department Of Biochemical Engineering And Biotechnology Indian Institute Of Technology Delhi
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Mishra Saroj
Department Of Biochemical Engineering And Biotechnology Indian Institute Of Technology
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Biswas Ranjita
Department of Biochemical Engineering and Biotechnology, Indian Institute of Technology Delhi
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Sahai Vikram
Department of Biochemical Engineering and Biotechnology, Indian Institute of Technology Delhi
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Bisaria Virendra
Department of Biochemical Engineering and Biotechnology, Indian Institute of Technology Delhi
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Sahai Vikram
Department Of Biochemical Engineering And Biotechnology Indian Institute Of Technology Delhi
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Sahai Vikram
Department Of Biochemical Engineering And Biotechnology Indian Institute Of Technology
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Biswas Ranjita
Department Of Biochemical Engineering And Biotechnology Indian Institute Of Technology Delhi
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Bisaria Virendra
Department Of Biochemical Engineering And Biotechnology Indian Institute Of Technology Delhi
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Bisaria Virendra
Department Of Biochemical Engineering & Biotechnology Indian Institute Of Technology
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Mishra Saroj
Department of Biochemical Engineering and Biotechnology, Indian Institute of Technology Delhi
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