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Evaluation of bacterial expansin EXLX1 as a cellulase synergist for the saccharification of lignocellulosic Agro-industrial wastes.


ABSTRACT: Various types of lignocellulosic wastes extensively used in biofuel production were provided to assess the potential of EXLX1 as a cellulase synergist. Enzymatic hydrolysis of natural wheat straw showed that all the treatments using mixtures of cellulase and an optimized amount of EXLX1, released greater quantities of sugars than those using cellulase alone, regardless of cellulase dosage and incubation time. EXLX1 exhibited different synergism and binding characteristics for different wastes, but this can be related to their lignocellulosic components. The cellulose proportion could be one of the important factors. However, when the cellulose proportion of different biomass samples exhibited no remarkable differences, a higher synergism of EXLX1 is prone to occur on these materials, with a high proportion of hemicellulose and a low proportion of lignin. The information could be favorable to assess whether EXLX1 is effective as a cellulase synergist for the hydrolysis of the used materials. Binding assay experiments further suggested that EXLX1 bound preferentially to alkali pretreated materials, as opposed to acid pretreated materials under the assay condition and the binding preference would be affected by incubation temperature.

SUBMITTER: Lin H 

PROVIDER: S-EPMC3781039 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Evaluation of bacterial expansin EXLX1 as a cellulase synergist for the saccharification of lignocellulosic Agro-industrial wastes.

Lin Hui H   Shen Qi Q   Zhan Ju-Mei JM   Wang Qun Q   Zhao Yu-Hua YH  

PloS one 20130923 9


Various types of lignocellulosic wastes extensively used in biofuel production were provided to assess the potential of EXLX1 as a cellulase synergist. Enzymatic hydrolysis of natural wheat straw showed that all the treatments using mixtures of cellulase and an optimized amount of EXLX1, released greater quantities of sugars than those using cellulase alone, regardless of cellulase dosage and incubation time. EXLX1 exhibited different synergism and binding characteristics for different wastes, b  ...[more]

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