Lignocellulose is the most plentiful non-food biomass and one of the most inexhaustible
renewable resources on the planet, which is an alternative sustainable energy source for the …

Second generation biofuel development is increasingly reliant on the recombinant
expression of cellulases. Designing or identifying successful expression systems is thus of …

Highlights•Consolidated bioprocessing is a promising technology to enable cellulose
utilization.•Yeast, filamentous fungi and bacteria have been engineered as CBP organisms.• …

The gradually increasing need for fossil fuels demands renewable biofuel substitutes. This
has fascinated an increasing investigation to design innovative energy fuels that have …

The most abundant biopolymer accessible on earth is lignocellulose. The hydrolysis of
lignocelluloses is completed through enzyme groups such as ligninases, hemicelluloses …

A major hurdle in the production of bioethanol with second-generation feedstocks is the high
cost of the enzymes for saccharification of the lignocellulosic biomass into fermentable …

Selected strains of Saccharomyces cerevisiae are used for commercial bioethanol
production from cellulose and starch, but the high cost of exogenous enzymes for substrate …

Saccharomyces cerevisiae is widely used as a producer of heterologous proteins of medical
and industrial interest. Numerous efforts have been made to overcome bottlenecks in protein …

Saccharomyces cerevisiae has gained much attention as a potential host for cellulosic
bioethanol production using consolidated bioprocessing (CBP) methodologies, due to its …

Aspergillus niger is a primary cell factory for food-grade protein (enzyme) production due to
its strong protein secretion capacity and unique safety characteristics. The bottleneck issue …