Production of cellulolytic enzymes by Aspergillus fumigatus ABK9 in wheat bran-rice straw mixed substrate and use of cocktail enzymes for deinking of waste office paper pulp

Bioresource Technology

Volumn 128, Issue , 2013, Pages 290-296

  Das, Arpan ^a   Paul, Tanmay ^a   Halder, Suman K ^a   Jana, Arijit ^a   Maity, Chiranjit ^a   Das Mohapatra, Pradeep K ^a   Pati, Bikas R ^a   Mondal, Keshab C ^a  

^a VIDYASAGAR UNIVERSITY   (India)

Author keywords

Cellulase; Deinking; ERIC value; Kappa number; Xylanase

Indexed keywords

ASPERGILLUS; BAST FIBERS; CHROMOPHORES; DEINKING; ENZYMES; FERMENTATION; PULP;

ASPERGILLUS FUMIGATUS; CELLULASE; CELLULOLYTIC ENZYME; DEGRADING ACTIVITIES; ENDOGLUCANASES; ENZYME PRODUCTION; ERIC VALUE; FILTER PAPERS; GLUCOSIDASE; HYDROPHOBIC COMPOUNDS; KAPPA NUMBERS; MIXED SUBSTRATES; OFFICE PAPER; RESPONSE SURFACE METHODOLOGY; SOLID-STATE FERMENTATION; SOLID-TO-WATER RATIO; WHEAT BRAN; XYLANASE ACTIVITY; XYLANASES;

SUBSTRATES;

BETA GLUCOSIDASE; CARBOXYMETHYLCELLULASE; CELLULASE; DIISOPROPYL FLUOROPHOSPHATASE; GLUCAN SYNTHASE; UNCLASSIFIED DRUG; XYLAN ENDO 1,3 BETA XYLOSIDASE;

CELLULOSE; ENZYME ACTIVITY; FERMENTATION; FUNGUS; HYDROPHOBICITY; PULP AND PAPER INDUSTRY; RICE; STRAW; SUBSTRATE; WASTEPAPER; WHEAT;

ARTICLE; ASPERGILLUS FUMIGATUS; CHROMATOPHORE; CONTROLLED STUDY; ENZYME ACTIVITY; ENZYME SYNTHESIS; FUNGAL STRAIN; NONHUMAN; NUCLEOTIDE SEQUENCE; PAPER; PHYSICAL CHEMISTRY; PRIORITY JOURNAL; RICE; SOLID STATE FERMENTATION; WHEAT BRAN;

CELLULASE; CHROMOPHORES; DEINKING; ENZYMES; FERMENTATION; KAPPA NUMBER; PHLOEM; SUBSTRATES; XYLANASE;

ASPERGILLUS FUMIGATUS; TRITICUM AESTIVUM;

EID: 84869877499     PISSN: 09608524     EISSN: 18732976     Source Type: Journal    
DOI: 10.1016/j.biortech.2012.10.080     Document Type: Article

References (32)

1. Ahamed A., Vermette P. Culture-based strategies to enhance cellulase enzyme production from Trichoderma reesei RUT-C30 in bioreactor culture conditions. Biochemical Engineering Journal 2008, 40:399-407.
2. Bailey M.J., Biely P., Poutanen K. Inter laboratory testing of methods for assay of xylanase activity. African Journal of Biotechnology 1992, 23:257-270.
3. Bergmeyer H.U. Methods of Enzymatic Analysis 1974, Verlag Chemie, Weinheim, Berlin, (p. 1025). second ed.
4. Boyaci I.H. A new approach of determination of enzyme kinetic constants using response surface methodology. Biochemical Engineering Journal 2005, 25:55-62.
5. Carvalho J.C.M., Vitolo M., Sato S., Aquarone E. Ethanol production by Saccharomyces cerevisiae grown in sugarcane blackstrap molasses through a feed batch process: optimization by response surface methodology. Applied Biochemistry and Biotechnology 2003, 110:151-164.
6. Das A., Ghosh U. Solid state fermentation of waste cabbage by Penicillium notatum NCIM NO-923 for production and characterization of cellulases. Journal of Scientific and Industrial Research 2009, 68:714-718.
7. Dong L.L., Fu Y.J., Zu Y.G., Luo M., Wang W., Li X.J., Li J. Application of cavitation system to accelerate the endogenous enzymatic hydrolysis of baicalin and wogonoside in Radix Scutellariae. Food Chemistry 2012, 131:1422-1429.
8. Gawande P.V., Kamat M.Y. Production of Aspergillus xylanase by lignocellulosic waste fermentation and its application. Journal of Applied Microbiology 1999, 87:511-519.
9. Hong J., Tamaki H., Akiba S., Yamamoto K., Kumagai H. Cloning of a gene encoding a highly stable endo-β-1, 4-glucanase from Aspergillus niger and its expression in yeast. Journal of Bioscience and Bioengineering 2001, 5:434-441.
10. Jordan B.D., Popson S.J. Measuring the concentration of residual ink in recycled newsprint. Journal of Pulp and Paper Science 1994, 20:161-167.
11. Jorgensen H., Kristensen J.B., Felby C. Enzymatic conversion of lignocellulose into fermentable sugars: challenges and opportunities. Biofuels, Bioproducts and Biorefining 2007, 1:119-134.
12. Jurasek L., Paice M. Pulp, paper and biotechnology. ChemTech 1986, 16:360-365.
13. Kar S., Gauri S.S., Das A., Jana J., Maity C., Mandal A., Das Mohapatra P.K., Pati B.R., Mondal K.C. Process optimization of xylanase production using cheap solid substrate by Trichoderma reesei SAF3 and study on the alteration of behavioral properties of enzyme obtained from SSF and SmF. Bioprocess and Biosystems Engineering 2012, 10.1007/s00449-012-0761-x.
14. Kar S., Mandal A., Das Mohapatra P.K., Samanta S., Pati B.R., Mondal K.C. Production of xylanase by immobilized Trichoderma reesei SAF3 in Ca-alginate beads. Journal of Industrial Microbiology and Biotechnology 2008, 35:245-249.
15. Kar S., Ray R.C. Statistical optimization of α-amylase production by Streptomyces erumpens MTCC 7317 cells in calcium alginate beads using response surface methodology. Polish Journal of Microbiology 2008, 57:49-57.
16. Kar S., Swain M.R., Ray R.C. Statistical optimization of α-amylase production with immobilized cells of Streptomyces erumpens MTCC 7317 in Luffa cylindrica L. sponge discs. Applied Biochemistry and Biotechnology 2008, 152:177-188.
17. Liu D., Zhang R., Yang X., Wub H., Xu D., Tang Z., Shen Q. Thermostable cellulase production of Aspergillus fumigatus Z5 under solid-state fermentation and its application in degradation of agricultural wastes. International Biodeterioration and Biodegradation 2011, 65:717-725.
18. Maity C., Ghosh K., Halder S.K., Jana A., Adak A., Das Mohapatra P.K., Pati B.R., Mondal K.C. Xylanase isozymes from the newly isolated Bacillus sp. CKBx1D and optimization of its deinking potentiality. Applied Biochemistry and Biotechnology 2012, 167(5):1208-1219. 10.1007/s12010-012-9556-4.
19. Mandal A., Kar S., Das Mohapatra P.K., Maity C., Pati B.R., Mondal K.C. Purification and characterization of an endoxylanase from the culture broth of Bacillus cereus BSA11. Applied Biochemistry and Microbiology 2011, 47:250-255.
20. Mandels M., Andreotti R., Roche C. Measurement of saccharifying cellulase. Biotechnology and Bioengineering Symposium 1976, 6:21-33.
21. Mandels M., Parrish F.W., Reese E.T. Sophorose as an inducer of cellulase in Trichoderma reesei. Journal of Bacteriology 1962, 83:400-408.
22. Manimaran A., Vatsala T.M. Biobleaching of banana Wbre pulp using Bacillus subtilis C O1 xylanase produced from wheat bran under solid-state cultivation. Journal of Industrial Microbiology and Biotechnology 2007, 34:745-749.
23. Miller G.L. Use of dinitrosalicylic acid reagent for determination of reducing sugar. Analytical Chemistry 1959, 31:426-428.
24. Okafor U.A., Okochi V.I., Onyegeme-okerenta B.M., Nwodo- Chinedu S. Xylanase production by Aspergillus niger ANL 301 using agro-wastes. African Journal of Biotechnology 2007, 6:1710-1714.
25. Pèlach M.A., Puig J., Vilaseca F., Mutje P., Pastor F.J. Enzymic deinking of old newspapers with cellulase. Process Biochemistry 2003, 38:1063-1067.
26. Plackett R.L., Burman J.P. The design of optimum multifactorial experiments. BioMetals 1946, 33:305-325.
27. Rao Y.K., Tsay K.J., Wu W.S. Medium optimization of carbon and nitrogen sources for the production of eucalyptene A and xyloketal A from Xylaria sp. 2508 using response surface methodology. Process Biochemistry 2007, 42:535-541.
28. Soni R., Nazir A., Chadha B.S. Optimization of cellulase production by a versatile Aspergillus fumigatus fresenius strain (AMA) capable of efficient deinking and enzymatic hydrolysis of Solka floc and bagasse. Industrial Crops and Products 2010, 31:277-283.
29. TAPPI Test Methods Technical Association of the Pulp and Paper Industry 1996, TAPPI Press, Atlanta, GA.
30. Teng Y., Xu Y. Culture condition improvement for whole-cell lipase production in submerged fermentation by Rhizopus chinensis using statistical method. Bioresource Technology 2008, 99:3900-3907.
31. Wood T.M., Bhat K.M. Methods for measuring cellulase activity. Methods in Enzymology 1988, vol. 160:87-112. Academic Press Inc., London.
32. Xiong C., Shouwen C., Ming S., Ziniu Y. Medium optimization by response surface methodology for poly-Yglutamic acid production using dairy manure as the basis of a solid substrate. Applied Microbiology and Biotechnology 2005, 69:390-396.