Abstract
Objectives Identification of cellulolytic microorganisms is of great interest to the hydrolysis of cellulosic biomass. This study focuses on the identification of cellulolytic yeasts and the optimization of cellulase activities produced by the best performing isolate. Results 30 cellulolytic yeast isolates were selected. Enzymes produced by an isolate from the Trichosporon genus showed the property to hydrolyze different substrates: carboxymethyl cellulose (CMC), cellulose fiber, and filter paper (FP). The optimum measured temperature was 55°C for CMCase and 60°C for FPase. The optimal pH was 5 for CMCase and 4 to 6 for FPase. The effect of the substrates concentration showed that the best activities were obtained at 100 mg/mL CMC or FP. The highest activities were 0.52 for the CMCase and 0.56 for the cellulase fiber at 10 min incubation, 0.44 IU/mL at 15 min incubation, and 24 h FPase preincubation. Conclusion Cellulases produced by the studied yeast are capable of hydrolyzing soluble and insoluble substrates at elevated temperatures and at a wide pH range. They are considerable interest in the production of fermentable sugars from lignocellulosic substrates.
Highlights
Cellulose is the most important constituent of the plant cell wall [1]
An isolate with very high hydrolysis activity has been optimized for its CMCase and FPase activities
The DNA sequence analysis of the ITS region helped us to identify the isolate that was from the genus Trichosporon
Summary
Cellulose is the most important constituent of the plant cell wall [1]. This polymer is widely used in many industry sectors such as agrifood, paper mill, and bioethanol production [2]. Bioethanol production requires four major steps: biomass pretreatment, cellulose hydrolysis, fermentation, and distillation [3]. Enzymatic hydrolysis is the most used in the industry because of its high yields with fewer unwanted side products [4]. It is achieved by a simultaneous action of three enzymes: endo-β-glucanase (EC 3.2.1.4), exoβ-glucanase (EC 3.2.1.91), and β-glucosidase (EC 3.2.1.21)
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