Download Lignocellulose Biodegradation by Badal C. Saha, Kyoshi Hayashi PDF
By Badal C. Saha, Kyoshi Hayashi
Lignocellulose Biodegradation should be priceless for chemists, biochemists, microbiologists, molecular biologists, and biochemical engineers. This e-book describes advances in lignocellulose biodegradation and alertness in biotechnology. It encompasses a blend of unique examine and overview chapters. an outline bankruptcy on lignocellulose biodegradation and functions in biotechnology specializes in fresh examine development within the box. Lignocellulose Biodegradation contains sections on pretreatment, biodegradation, enzyme characterization and application.
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Environ. Microbiol. 1998, 64, 1852-1856. 153. ; Picataggio, M . Science 1995, 267, 240-243. 154. ; Wahlborm, C. ; van Zyl, W. ; Cordero Otero, R. ; Jonsson, L. J. Adv. Biochem. 2001, 73, 53-84. 155. Bothast, R. ; Nichols, Ν. ; Dien, B. S. Biotechnol. Prog. 1999, 15, 867875. 156. Ingram, L. ; Aldrich, H. ; Borges, A. C. ; Causey, T. ; Underwood, S. ; Yomano, Y. ; York, S. ; Zhou, S. Biotechnol. Prog. 1999, 15, 855-866. 157. ; York, S. , Yomano, Y. ; Pineda, V. ; Davis, F. ; Shelton, J. ; Ingram, L.
Mancilha, I. ; Souza, C. A. ; Felipe, M. G. ; Castro, H. F. D. Biotechnol. Lett. 1994, 16, 1211-1216. 192. Roberto, I. ; Felipe, M . G. ; Mancilha, I. ; Sato. ; Silva, S. S. 1995, 51, 255-257. 193. Roberto, I. ; Mancilha, I. M. J. Ind. Microbiol. 1996, 16, 348-350. 194. Roberto, I. ; Silva, S. ; Felipe, M . G. ; de Mancilha, I. ; Sato, S. Appl. Biochem. Biotechnol. 1996, 57/58, 339-347. 195. Mayerhoff, Z. D. V. ; Roberto, I. ; Silva, S. S. Biotechnol. Lett. 1997, 5, 407-409. 196. ; Navarro, J.
8 and the cellulase enzyme loading was 30 IFPU/g glucan. The content of the flask was preheated to 50°C before the enzyme was added and theflaskwas placed on a shaking bath that operated at 50°C and 90 strokes/min. Samples were taken periodically and analyzed for glucose using HPLC. The glucose content after 72 h of hydrolysis was used to calculate the enzymatic digestibility. 001-005 (12). 005M H S0 ). Since this column does not resolve xylose, mannose, and galactose, the combined value of XMG is used in this article.