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Title: Substrate-Related Factors Affecting Enzymatic Saccharification of Lignocelluloses: Our Recent Understanding

Source: Bioenerg. Res. Volume 6, 2013; pp. 405-415.

Author(s)Leu, Shao-Yuan; Zhu, J.Y.

Publication Year: 2013  View PDF »

Category: Journal Articles
Associated Research Project(s):   FPL-4709-1B

Abstract: Enzymatic saccharification of cellulose is a key step in conversion of plant biomass to advanced biofuel and chemicals. Many substrate-related factors affect saccharification. Rather than examining the role of each individual factor on overall saccharification efficiency, this study examined how each factor affects the three basic processes of a heterogeneous biochemistry reaction: (1) substrate accessibility to cellulose-the roles of component removal and size reduction by pretreatments, (2) substrate and cellulase reactivity limited by component inhibition, and (3) reaction conditions-substrate-specific optimization. Our in-depth analysis of published literature work, especially those published in the last 5 years, explained and reconciled some of the conflicting results in literature, especially the relative importance of hemicellulose vs. lignin removal and substrate size reduction on enzymatic saccharification of lignocelluloses. We concluded that hemicellulose removal is more important than lignin removal for creating cellulase accessible pores. Lignin removal is important when alkaline-based pretreatment is used with limited hemicellulose removal. Partial delignification is needed to achieve satisfactory saccharification of lignocelluloses with high lignin content, such as softwood species. Rather than using passive approaches, such as washing and additives, controlling pretreatment or hydrolysis conditions, such as pH, to modify lignin surface properties can be more efficient for reducing or eliminating lignin inhibition to cellulase, leading to improved lignocellulose Saccharification.

Keywords: Enzymatic hydrolysis/saccharification; Pretreatment; Biofuel and biorefinery; Lignocelluloses Cellulase enzymes; Lignin; Accessibility

Publication Review Process: Formally Refereed

File size: 336 kb(s)

Date posted: 09/10/2013

This publication is also viewable on Treesearch:  view
RITS Product ID: 65148
Current FPL Scientist associated with this product
Zhu, JunYong
Research General Engineer

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