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Biopolishing of Cotton Fabric using Crude Cellulases from Acanthophysium sp. KMF001
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 Title & Authors
Biopolishing of Cotton Fabric using Crude Cellulases from Acanthophysium sp. KMF001
Shin, Keum; Yoon, Sae-Min; Kim, Juhea; Kim, Young-Kyoon; Kim, Tae-Jong; Kim, Yeong-Suk;
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 Abstract
Biopolishing using cellulases was introduced in the production of cotton fabric in order to improve the quality of fabric environmental friendly and is commonly used in the textile industry. In this study, the application of a crude cellulase from Acanthophysium sp. KMF001, which was excellent for the saccharification of cellulose, on biopolishing was evaluated. The optimum treatment biopolishing condition was at and pH 4.5 for 60 minutes with 10% crude cellulase of fabric weight. After the optimized biopolishing, the crude cellulase of Acanthophysium sp. KMF001 reduced the tensile strength of the tested cotton fabric less than a commercial cellulase. The appearance of the cotton fabric after the treatment of the crude cellulase of Acanthophysium sp. KMF001 was similar to the fabric after a commercial cellulase treatment. All these results support that the crude cellulase of Acanthophysium sp. KMF001 was a good biopolishing cellulase.
 Keywords
biopolishing;cotton fabric;Acanthophysium;cellulase;
 Language
Korean
 Cited by
 References
1.
Anish, R., Rahman, M.S., Rao, M. 2007. Application of cellulases from an alkalothermophilic Thermomonospora sp. in biopolishing of denims. Biotechnology and Bioengineering 96(1): 48-56. crossref(new window)

2.
Bower, B.S., Clarkson, K.A., Larenas, E.A., Ward, M. 1998. Enlarged cellulase compositions for use in the treatment of textiles. Patent Application WO 1998028411.

3.
Choe, E.-G., Kim, J. 2003. Pretreat and manufacturing technology for fabric using enzymes. Fiber Technology and Industry 7(3): 292-302.

4.
Kim, H.J., Kim, Y.H., Cho, M.J., Shin, K., Lee, D.H., Kim, T.-J., Kim, Y.-S. 2010. Characterization of cellulases from Schizophyllum commune for hydrolysis of cellulosic biomass. Journal of the Korean Wood Science and Technology 38(6): 547-560. crossref(new window)

5.
Kuhad, R.C., Gupta, R., Singh, A. 2011. Microbial cellulases and their industrial applications. Enzyme Research 2011 (Article ID 280696): 1-10.

6.
Ni, X., Dong, A., Wang, Q., Fan, X., Yuan, J., Yu, Y., Wang, P. 2014. Characterization and performance of ramie fabrics treated with modified cellulase. The Journal of The Textile Institute 106(7): 780-786.

7.
Payne, C.M., Knott, B.C., Mayes, H.B., Hansson, H., Himmel, M.E., Sandgren, M., Stahlberg, J., Beckham, G.T. 2015. Fungal cellulases. Chemical Reviews 115(3): 1308-1448. crossref(new window)

8.
Rau, M., Heidemann, C., Pascoalin, A.M., Filho, E.X.F., Camassola, M., Dillon, A.J.P., Fernandes Das Chagas, C., Andreaus, J. 2008. Application of cellulases from Acrophialophora nainiana and Penicillium echinulatum in textile processing of cellulosic fibres. Biocatalysis and Biotransformation 26(5): 383-390. crossref(new window)

9.
Riello, G., Parthasarathi, P. 2011. The spinning world: A global history of cotton textiles, 1200-1850. Oxford University Press, USA.

10.
Saheb, D.N., Jog, J.P. 1999. Natural fiber polymer composites: A review. Advances in Polymer Technology 18(4): 351-363. crossref(new window)

11.
Schindler, W., Hauser, P. 2004. Chemical finishing of textiles. Woodhead Publishing Ltd., Cambridge, England.