• Title of article

    Evaluation of novel fungal cellulase preparations for ability to hydrolyze softwood substrates – evidence for the role of accessory enzymes

  • Author/Authors

    Alex Berlin، نويسنده , , Neil Gilkes، نويسنده , , Douglas Kilburn، نويسنده , , Renata Bura، نويسنده , , Alexander Markov، نويسنده , , Anton Skomarovsky، نويسنده , , Oleg Okunev، نويسنده , , Alexander Gusakov، نويسنده , , Vera Maximenko، نويسنده , , David Gregg، نويسنده , , Arkady Sinitsyn، نويسنده , , John Saddler، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2005
  • Pages
    10
  • From page
    175
  • To page
    184
  • Abstract
    Seven fungal cellulase preparations from Trichoderma and Penicillium spp. were evaluated for their ability to hydrolyze the cellulose component of lignocellulose samples prepared from softwoods by steam explosion or organosolv pretreatment. Hydrolysis was quantified using two indices: mean specific rate and specific conversion. The activities of the cellulase preparations on model cellulosic substrates (filter paper, carboxymethylcellulose and Avicel) were also determined, together with their β-glucosidase, xylanase, pectinase, galactomannanase and β-glucanase activities. The ability of a cellulase preparation to hydrolyze pretreated softwood showed little correlation with its activity on filter paper, carboxymethylcellulose and Avicel; however, there was a significant correlation with its level of endogenous β-glucosidase and xylanase activity. Differences in the performance of the various cellulase preparations were substantially reduced following supplementation with a commercial β-glucosidase preparation from Aspergillus niger. In addition to β-glucosidase, this preparation was shown to contain significant levels of endogenous xylanase activity. It appears that the levels of endogenous β-glucosidase and xylanase are important factors in determining the ability of a cellulase preparation to hydrolyze pretreated softwood and that deficiencies in the levels of both enzymes can be compensated by supplementation with corresponding activities present in the β-glucosidase preparation. Presumably, β-glucosidase improves cellulose hydrolysis by reducing end-product inhibition by cellobiose, while xylanase activity increases the accessibility of cellulose to cellulases.
  • Keywords
    Hemicellulose , ?-Glucosidase , Cellulase , Softwood , Lignocellulose , Xylanase
  • Journal title
    Enzyme and Microbial Technology
  • Serial Year
    2005
  • Journal title
    Enzyme and Microbial Technology
  • Record number

    1174353