Abstract
Because cellulases are finding more applications in the textile and detergent industries, their effect on cotton fibres must be evaluated. For this purpose, the action of a recombinant cellulase, endoglucanase V from the fungus Humicola insolens, has been followed by scanning electron microscopy (SEM) in classical longitudinal views as well as in cross-sections of cotton fibres. The experiments were conducted at large enzyme dilution typical of conditions where cellulases are used for biopolishing, i.e. for the removal of defects created by mechanical abrasion. Endoglucanase V appears to restrict its action to the hydrolysis of the loose fibrils created at the surface of the fibres and no indication of extensive enzyme penetration and damage to the interior of the fibres could be detected by SEM. The adsorption sites for endoglucanase V on cotton fibres were examined by transmission electron microscopy (TEM) on ultrathin cross-sections after immuno-gold labeling of the enzyme. This approach showed that the enzymes did not penetrate the fibres but remained at their surface. The use of an immuno-gold labeled cellulase provides a new way to probe the surface features of cotton fibres
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REFERENCES
Boisset, C., Borsali, R., Schülein, M. and Henrissat, B. (1995) Dynamic light scattering study of the two-domain structure of Humicola insolensendoglucanase V. FEBS Lett. 376, 49–52.
Buschle-Diller, G. and Zeronian, S. H. (1994) Enzymatic and acid hydrolysis of cotton cellulose after slack and tension mercerisation. Textile Chem. Color 26, 17–24.
Buschle-Diller, G., Zeronian, S. H., Pan, N. and Yoon, M. Y. (1994) Enzymatic hydrolysis of cotton, linen, ramie and viscose rayon fabrics. Textile Res. J. 64, 270–279.
Cavaco-Paulo, A. and Almeida, L. (1994) Cellulose hydrolysis of cotton cellulose: the effects of mechanical action, enzyme concentration and dyed substrates. Biocatalysis} 10}, 353–
Chikkodi, S. V., Khan, S. and Metha, R. D. (1995) Effects of biopolishing on cotton/wool blended fabrics. Textile Res. J. 65, 564–569.
Degruy, I. V., Carra, J. H. and Goynes, W. R. (1973) The fine structure of cotton. An atlas of cotton microscopy (R. T. O'Connor, ed.). New York: Marcel Dekker Inc., pp. 171–225.
Gilkes, N. R., Kilburn, D. G., Miller, R. C. Jr, Warren, R. A. J., Sugiyama, J., Chanzy, H. and Henrissat, B. (1993) Visualization of the adsorption of a bacterial endo-â-1,4-glucanase and its isolated cellulose-binding domain to crystalline cellulose. Int. J. Biol. Macromol. 15, 347–351.
Henrissat, B. (1994) Cellulases and their interaction with cellulose. Cellulose 1, 169–196.
Hoshino, E., Sasaki, Y., Mori, K., Okazaki, M., Nisizawa, K. and Kanda, T. (1993) Electron microscopic observation of cotton cellulose degradation by exo-and endo-type cellulases from Irpex lacteus. J. Biochem. ( Tokyo ) 114, 236–245.
Hoshino, E., Kubota, Y., Okazaki, M., Nisizawa, K. and Kanda, T. (1994a) Hydrolysis of cotton cellulose by exo-and endo-type cellulases from Irpex lacteus: differential scanning calorimetric study. J. Biochem. ( Tokyo ) 115, 837–842.
Hoshino, E., Nomura, M., Takai, M., Okasaki, M., Nisizawa, K. and Kanda, T. (1994b) Action of exo-and endo-type cellulases from Irpex lacteuson Valoniacellulose. J. Ferment. Bioeng. 77, 496–502.
Kochavi, D., Videbaek, T. and Cedroni, D. M. (1990) Optimizing processing conditions in enzymatic stone-washing. Am. Dyest. Rep. 79, 24–28.
Lange, N. K. (1993) T. Reinikainen (eds.), Foundation for Biotechnical and Industrial Fermentation Research}, Helsinki}, vol. 8, pp. 263–2
Laymann, P. (1990) Promising new markets emerging for commercial enzymes. Chem. Eng. News 10, 17–18.
Maycumber, S. G. (1993) P&G Detergent development cheer on by cotton Inc. Daily News Rec. 2, 2–3.
Olson, L. A. (1988) A new technology for stoneless stone-washing applications. Am. Dyest. Rep. 77, 19–22.
Pedersen, G. L., Screws, G. A. Jr. and Cedroni, D. M. (1992) Biopolishing of cellulose fabrics. Can. Textile J. 109, 31–35.
Prasad, D. Y., Heitmann, J. A. and Joyce, T. W. (1992) Enzyme deinking of black and white letterpress printed newsprint waste. Progress in Paper Recycling 1, 21–30.
Tyndall, R. M. (1992) Applications of cellulase enzymes to cotton fabrics and garments. Textile Chem. Color 24, 23–26.
Zeyer, C., J oyce, T. W., Rucker, J. W. and Heitmann, J. A. (1993) Enzymatic deinking of cellulose fabric: a model study for enzymatic paper deinking. Progress in Paper Recycling 2, 36–44.
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BOISSET, C., CHANZY, H., SCHULEIN, M. et al. An ultrastructural study of the interaction of a fungal endoglucanase from Humicola insolens with cotton fibres. Cellulose 4, 7–20 (1997). https://doi.org/10.1023/A:1018454900127
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DOI: https://doi.org/10.1023/A:1018454900127