Enzymatic hydrolysis cocktail optimization for the intensification of sugar extraction from sugarcane bagasse

Lignocellulosic biomasses have a very important role as a raw material to produce biofuels and biochemicals. However, a sustainable, efficient, and economically competitive process for the release of sugars from such materials has still not been achieved. In this work, the optimization of the enzymatic hydrolysis cocktail was evaluated as an approach to maximize sugar extraction from mildly pretreated sugarcane bagasse. Different additives and enzymes, including hydrogen peroxide (H2O2), laccase, hemicellulase and the surfactants Tween 80 and PEG4000 were added to a cellulolytic cocktail with the aim of improving biomass hydrolysis. An increase of 39 % and 46 % of glucose and xylose concentrations, respectively, compared to the control (when only the cellulolytic cocktail (20 or 35 FPU g-1 dry mass), was obtained when H2O2 (0.24 mM) was added at the beginning of the hydrolysis. On the other hand, the addition of hemicellulase (81-162 & mu;L g � 1 DM) increased the production of glucose up to 38 % and xylose up to 50 %. The findings of this study reveal that it is possible to increase the extraction of sugars from mildly pretreated lignocellulosic biomass by using an appropriate enzymatic cocktail supplemented with additives. This opens up new opportunities for the development of a more sustainable, efficient, and economically competitive process for biomass fractionation.

Automated summary

This study evaluated the optimization of enzymatic hydrolysis cocktail to maximize sugar extraction from pretreated sugarcane bagasse. It was found that adding hydrogen peroxide at the beginning of hydrolysis increased glucose and xylose concentrations, while the addition of hemicellulase increased glucose and xylose production. These findings suggest that using an appropriate enzymatic cocktail supplemented with additives can enhance sugar extraction from lignocellulosic biomass and contribute to the development of a more sustainable and competitive process.