The ability of Thermotoga spp. to degrade cellulose is limited due to a lack of
exoglucanases. To address this deficiency, cellulase genes Csac_1076 (celA) and …

Cellulose is the world's most ubiquitous organic compound and has an abundant potential
to be transformed into a renewable source of energy and other industrial products. To break …

Cellulose is a rich natural biopolymer on earth, found as a chief component of plant cell wall
in lignocellulosic form. Unlike other compounds cellulose is not easily soluble in water; …

Lignocellulosic biomass is a potential source for biofuel production. Cost-intensive physical,
chemical, biological pretreatment operations and slow enzymatic hydrolysis makes the …

It is envisaged that the utilization of lignocellulosic biomass for ethanol production for
transport sector, would make cellulases the most demanded industrial enzyme. The greatest …

Cellulose is the most abundant fibrous component in plant biomass. This polymer
component presents a high biotechnological potential mainly for biogas and ethanol …

Cellulose is the main structural component of lignocellulosic wastes that can be converted to
sugars and biofuels by cellulase. Due to wide applications of this enzyme in various …

Our society produces a lot of voluminous waste of biomass every day, which are mainly
lignocellulose in origin. It is the most abundant plant cell wall component of the biosphere …

Lignocellulosic biomass is extensively present as cheap-cost recyclable resource on the
globe. Lignocellulosic biomass transformation toward value-added biomolecules is the most …

Background Thermophilic cellulases are essential for effectively degrading cellulose, which
is a significant part of lignocellulosic waste. In this study, we focused on a cellulase gene …