Enzymatic hydrolysis of aspen biomass into fermentable sugars by using lignocellulases from Armillaria gemina

[Display omitted] ► It reports saccharification of biomasses using lignocellulase from Armillaria gemina. ► Among the biomasses tested, aspen biomass produces maximum reducing sugar. ► Response surface methodology is used to optimize the hydrolysis of aspen biomass. ► A. gemina can be a good option for reducing sugar production from woody biomasses. A white rot fungus, identified as Armillaria gemina SKU2114 on the basis of morphological and phylogenetic analyses, was found to secrete efficient lignocellulose-degrading enzymes. The strain showed maximum endoglucanase, cellobiohydrolase, and β-glucosidase activities of 146, 34, and 15U/mL, respectively, and also secreted xylanase, laccase, mannanase, and lignin peroxidase with activities of 1270, 0.16, 57, and 0.31U/mL, respectively, when grown with rice straw as a carbon source. Among various plant biomasses tested for saccharification, aspen biomass produced the maximum amount of reducing sugar. Response surface methodology was used to optimize the hydrolysis of aspen biomass to achieve the highest level of sugar production. A maximum saccharification yield of 62% (429mg/g-substrate) was obtained using Populus tomentiglandulosa biomass after 48h of hydrolysis. A. gemina was shown to be a good option for use in the production of reducing sugars from lignocellulosic biomass.