Lignocellulosic biomass has enormous potential to contribute to worldwide energy,
chemical, and material demands in a renewable, sustainable manner. In the United States …

Enzymatic degradation of plant polysaccharides has many industrial applications, such as
within the paper, food, and feed industry and for sustainable production of fuels and …

Degradation of plant cell wall polysaccharides is of major importance in the food and feed,
beverage, textile, and paper and pulp industries, as well as in several other industrial …

The objective of this study was to evaluate the effect of sugarcane bagasse (SCB) and
brewery spent grain (BSG) on xylanase and cellulase enzymes production using different …

Plant biomass degradation by fungi requires a diverse set of secreted enzymes and
significantly contributes to the global carbon cycle. Recent advances in genomic and …

Plant cell wall consists mainly of the large biopolymers cellulose, hemicellulose, lignin and
pectin. These biopolymers are degraded by many microorganisms, in particular filamentous …

Fungi play a major role in the global carbon cycle because of their ability to utilize plant
biomass (polysaccharides, proteins, and lignin) as carbon source. Due to the complexity and …

Rational engineering of filamentous fungi for improved cellulase production is hampered by
our incomplete knowledge of transcriptional regulatory networks. We therefore used the …

Cellulases are enzymes that are attracting worldwide attention because of their ability to
degrade cellulose in the lignocellulosic biomass and transform it into highly demanded …

To expand the range of natural resources researchers have been re-directing their interests
in biomass based bio-fuels, which can be obtained from lignocellulosic biomass. Sugarcane …