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Effect of the lignin from pretreated sugarcane bagasses in the enzymatic hydrolysis of the cellulose

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Author(s):
Germano Andrade Siqueira
Total Authors: 1
Document type: Doctoral Thesis
Press: Lorena.
Institution: Universidade de São Paulo (USP). Escola de Engenharia de Lorena (EEL/ASDI)
Defense date:
Examining board members:
Adriane Maria Ferreira Milagres; Celso Barbosa de Sant Anna Filho; Cristiane Sanchez Farinas; Mario de Oliveira Neto; Arnaldo Márcio Ramalho Prata
Advisor: Adriane Maria Ferreira Milagres
Abstract

The present work evaluated the limiting effect of the residual lignin of sugarcane bagasse submitted to different pretreatments: NaOH (5%), Na2SO3/NaOH (10%/5%), H2SO4 (0.75%), NaHSO3/H2SO4 (5%/0.75%) and SO2-catalyzed steam explosion (3%). The pretreatment resulted in bagasses with different chemical compositions, wherein the alkaline treatments resulted in a more efficient solubilization of lignin, and the acidic treatments solubilized the hemicellulose. The bagasses treated with Na2SO3/NaOH and by steam explosion resulted in cellulose hydrolysis yields above 80% using higher enzyme loadings (Celluclast), indicating the increased accessibility of the cellulose in these materials. This was confirmed by Simons\' Stain, which showed that the accessible surface area of the cellulose in these bagasses was higher than in the others. Good correlations (R2>0.80) between the 72 h hydrolysis yields and the accessible surface area of cellulose were only observed at higher enzyme loadings, indicating that other factors than accessibility, limit the hydrolysis at lower enzyme loadings. The lignins were isolated from the pretreated bagasses and the protein binding capacity was determined. The lignin from steam exploded bagasse showed the highest binding capacity, followed by the lignin extracted from NaOH-treated bagasse. The sulfite pretreatments (Na2SO3/NaOH e NaHSO3/H2SO4) resulted in lignins with lower binding capacities, when compared to their analogues without sulfite (NaOH e H2SO4), possibly because of the sulfonation of the residual lignin, confirmed by the presence of strong acid groups in these bagasses. BSA addition prior to the cellulases confirmed the strong effect of unproductive binding caused by the lignin in the NaOH-treated and steam exploded bagasses, materials with the highest binding capacity lignins. Less unproductive binding was observed using the enzyme extract Cellic CTec3, showing that the enzymes in this cocktail are less sensitive to the presence of lignin. From the extract Celluclast, the enzyme that most adsorbed to the lignins isolated from NaOH-treated and steam exploded bagasses was ?-glucosidase, followed by the endoglucases. The purified CBHI and EGII from T. longibrachiatum were less adsorbed to steam exploded bagasse lignin that the same enzymes from T. reesei. ?-glucosidase from A. niger did not bind to this lignin. Despite of the pretreatment, the presence of phenols solubilized from lignin, at lower concentrations, increased the cellulose hydrolysis yields with lower enzyme loading, possibly because of the positive effect of these compounds in the activity of oxidative enzymes, or because of the presence of lignosulfonates. At higher concentrations, despite of the enzyme loading, the phenols were inhibitory in all the pretreatments. The CBHI activity was more sensitive to the presence of phenolic compounds than the ?-glucosidase activity. From these results, it is possible to conclude that the increase in the accessibility, due to the lignin removal or relocation, influences the most the efficient hydrolysis of bagasse cellulose. The unproductive binding was pretreatment dependent and resulted in a significant decrease in the hydrolysis yields of the cellulose at lower enzyme loadings. (AU)

FAPESP's process: 12/09940-3 - Effect of pretreated sugarcane bagasse lignin on the enzymatic hydrolysis of cellulose
Grantee:Germano Andrade Siqueira
Support Opportunities: Scholarships in Brazil - Doctorate