Abstract
BackgroundThermotolerant lignocellulolytic enzymes have become a subject of interest in industrial processes due to their ability to degrade lignocellulosic polysaccharides. Development of cost-effective, large-scale screening for production of desirable enzymes by thermophilic fungi is a challenge. The present investigation focused on isolating, screening, and identifying industrially relevant thermophilic producers of lignocellulolytic enzymes from various locations in the Warangal district, Telangana, India.ResultsFifteen thermophilic fungi were isolated from soil on their ability to grow at 50 °C and were screened for their activity of cellulase, hemicellulase, and lignin degradation based on holo zone around colonies. The appearance of the black color zone of diffusion in esculin agar is a positive indication for the β-glucosidases activity test. Out of fifteen isolates, Aspergillus fumigatus JCM 10253 have shown as a potential producer of extracellular enzymes for lignocelluloses degradation showing higher activity for cellulase (EI 1.50) as well as β-glucosidase (4 mg/mL), simultaneously for xylanase (EI 1.18) by plate assay methods. A. fumigatus JCM 10253 was selected for extracellular hydrolytic enzymes production under solid-state fermentation. Maximum CMCase (26.2 IU/mL), FPase (18.2 IU/mL), β-glucosidase (0.87 IU/mL), and xylanase (2.6 IU/mL) activities were obtained after incubation time of 144 h at 50 °C. The thermostability of crude cellulase showed the optimum activity at 60 °C and for FPase, β-glucosidase, and xylanase at 50 °C which recommended that the enzymes have a potentially significant role in the biofuel industries.ConclusionThe high titer production of active enzymes that cleave different β-1,4-glycosidic bonds still remains a challenge and is the major bottleneck for the lignocellulosic conversion. In particular, the finding of thermostable enzymes which would allow the development of more robust processes is a major goal in this field.
Highlights
Thermotolerant lignocellulolytic enzymes have become a subject of interest in industrial processes due to their ability to degrade lignocellulosic polysaccharides
In the current study, fifteen thermophilic fungi were isolated from soil based on their ability to grow at high temperatures
Screening of cellulase and xylanase activity Fifteen thermophilic fungal isolates from soil samples were screened for cellulase and xylanase activity on Czapek-Dox medium containing carboxymethyl cellulose (CMC) or beechwood as a substrate
Summary
Thermotolerant lignocellulolytic enzymes have become a subject of interest in industrial processes due to their ability to degrade lignocellulosic polysaccharides. Development of cost-effective, large-scale screening for production of desirable enzymes by thermophilic fungi is a challenge. The present investigation focused on isolating, screening, and identifying industrially relevant thermophilic producers of lignocellulolytic enzymes from various locations in the Warangal district, Telangana, India. Increasing global energy needs and greenhouse gas emissions have had a significant impact on ecosystem stability and the environment. There is a need to find alternative sources of energy to replace existing fossil fuel resources. (2018) 5:31 of the production process (Behera et al 2014). Microbes are known to produce enzyme complexes that degrade plant biomass, offering an efficient and cost-effective alternative (Behera et al 2013)
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