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Evolution and impact of cellulose architecture during enzymatic hydrolysis by fungal cellulases
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作者 Marie Chauve Loic Barre +4 位作者 Sandra Tapin-Lingua Denilson da Silva Perez Dominique Decottignies Serge Perez Nicolas Lopes Ferreira 《Advances in Bioscience and Biotechnology》 2013年第12期1095-1109,共15页
The enzymatic hydrolysis of cellulose is still considered as a main limiting step of the biological production of biofuels from ligno-cellulosic biomass. Glycoside hydrolases from Trichoderma reesei are currently used... The enzymatic hydrolysis of cellulose is still considered as a main limiting step of the biological production of biofuels from ligno-cellulosic biomass. Glycoside hydrolases from Trichoderma reesei are currently used to produce fermentable glucose units from degradation of cellulose packed in a complex assembly of cellulose microfibrils. The present work describes the structural evolution of two prototypical samples of cellulose (a micro-crystalline cellulose and a bleached sulfite pulp) over 5 length scale orders of magnitude. The results were obtained through wide angle, small angle and ultra-small angles synchrotron X-ray scattering, completed by Small Angle Neutron Scattering and particle size analyzers. These structural evolutions were followed as a function of enzymatic conversion. The results show that whereas there is no change at the nanometer scale, drastic changes occur at micron. The observed decrease of the size of the cellulose particles is accompanied by a smoothing of the crystalline surfaces that can be explained by a two-step mechanism of the enzymatic hydrolysis. 展开更多
关键词 CELLULOSE CELLULASE Trichoderma reesei Synchrotron X-Ray Scattering Neutron Scattering Particle Size
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