Effect of lime pre-treatment on the synergistic hydrolysis of sugarcane bagasse by hemicellulases

Autor:	Brett I. Pletschke, Natasha Beukes
Rok vydání:	2009
Předmět:	Environmental Engineering Time Factors Glycoside Hydrolases Bioengineering engineering.material complex mixtures Hydrolysis chemistry.chemical_compound Enzymatic hydrolysis Food science Biomass Cellulose Sugar Waste Management and Disposal Lime Enzyme Assays chemistry.chemical_classification biology Renewable Energy Sustainability and the Environment Oxides General Medicine Calcium Compounds Enzyme assay Recombinant Proteins Reducing sugar Saccharum Biodegradation Environmental chemistry Biochemistry engineering biology.protein Electrophoresis Polyacrylamide Gel Bagasse
Zdroj:	Bioresource technology. 101(12)
ISSN:	1873-2976
Popis:	Agricultural crop wastes are typically lignocellulosic in composition and thus partially recalcitrant to enzymatic degradation. The recalcitrant nature of plant biomass and the inability to obtain complete enzymatic hydrolysis has led to the establishment of various pre-treatment strategies. Alkaline pre-treatments increase the accessibility of the exposed surface to enzymatic hydrolysis through the removal of acetyl and uronic acid substituents on hemicelluloses. Unlike the use of steam and acid pre-treatments, alkaline pre-treatments (e.g. lime) solubilise lignin and a small percentage of the hemicelluloses. The most common alkaline pre-treatments that are employed make use of sodium hydroxide and lime. This study compared the synergistic degradation of un-treated and lime pre-treated sugarcane bagasse using cellulosomal and non-cellulosomal hemicellulases as free enzymes. The enzyme combination of 37.5% ArfA and 62.5% ManA produced the highest amount of reducing sugar of 91.834 micromol/min for the degradation of un-treated bagasse. This enzyme combination produced a degree of synergy of 1.87. The free enzymes displayed an approximately 6-fold increase in the enzyme activity, i.e. the total amount of reducing sugar released (593.65 micromol/min) with the enzyme combination of 37.5% ArfA, 25% ManA and 37.5% XynA for the lime pre-treated substrate and a degree of synergy of 2.14. To conclude, this study indicated that pre-treating the sugarcane bagasse is essential, in order to increase the efficiency of lignocellulose enzymatic hydrolysis by disruption of the lignin sheath, that the lime pre-treatment did not have any dramatic effect on the synergistic relationship between the free enzymes, and that time may play an important role in the establishment of synergistic relationships between enzymes.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::6bf0ff8dfb789c93d5ab77b0f9d93a73 https://pubmed.ncbi.nlm.nih.gov/20156678 Zobrazit plný text záznamu Full Text from ScienceDirect