Add to ORKGPlant cell walls are composed of cellulose, nature's most abundant macromolecule, and therefore represent a renewable resource of special technical importance. Cellulose degrading enzymes involved in plant cell wall loosening (expansins), or produced by plant pathogenic microorganisms (cellulases), share similarities favouring the degradation of this highly crystalline substrate. Most of the cellulases and cell wall loosening expansins share a multi-domain structure, which includes a cellulose-binding domain (CBD). CBDs possess the intrinsic ability to strongly and specifically bind to cellulose. CBDs may be applied to engineer hybrid enzymes able to bind to cellulose on one end, and to display enzymatic or chemical reactivity on the other,...
Most cellulose degrading enzymes have a two-domain structure consisting of a catalytic domain and a ...
Most cellulose degrading enzymes have a two-domain structure consisting of a catalytic domain and a ...
The wall is the last frontier of a plant cell involved in modulating growth, development and defense...
The interactions between cellulose and hemicellulose in the cell walls are important in the industri...
The interactions between cellulose and hemicellulose in the cell walls are important in the industri...
Most cellulolytic enzymes consist of distinct catalytic and cellulose-binding domains (CBDs). Simila...
Most cellulolytic enzymes consist of distinct catalytic and cellulose-binding domains (CBDs). Simila...
Cellulose binding domains (CBDs) are found in cellulolytic microorganisms as discrete domains in fre...
Conversion of inedible lignocellulosic plant biomass, composed primarily of carbohydrate polymers li...
ABSTRACT: Endoglucanase C (CenC), a 1,4 glucanase from the soil bacterium Cellulomonas fimi, binds t...
Most cellulose-degrading enzymes have a two-domain structure that consists of a catalytic and a cell...
The enzymatic degradation of cellulose, the major organic carbon source in the biosphere, is essenti...
Most cellulose-degrading enzymes have a two-domain structure that consists of a catalytic and a cell...
The enzymatic degradation of cellulose, the major organic carbon source in the biosphere, is essenti...
Plant cell wall polysaccharides are predominant components of fibres. Natural fibres have a wide ran...
Most cellulose degrading enzymes have a two-domain structure consisting of a catalytic domain and a ...
Most cellulose degrading enzymes have a two-domain structure consisting of a catalytic domain and a ...
The wall is the last frontier of a plant cell involved in modulating growth, development and defense...
The interactions between cellulose and hemicellulose in the cell walls are important in the industri...
The interactions between cellulose and hemicellulose in the cell walls are important in the industri...
Most cellulolytic enzymes consist of distinct catalytic and cellulose-binding domains (CBDs). Simila...
Most cellulolytic enzymes consist of distinct catalytic and cellulose-binding domains (CBDs). Simila...
Cellulose binding domains (CBDs) are found in cellulolytic microorganisms as discrete domains in fre...
Conversion of inedible lignocellulosic plant biomass, composed primarily of carbohydrate polymers li...
ABSTRACT: Endoglucanase C (CenC), a 1,4 glucanase from the soil bacterium Cellulomonas fimi, binds t...
Most cellulose-degrading enzymes have a two-domain structure that consists of a catalytic and a cell...
The enzymatic degradation of cellulose, the major organic carbon source in the biosphere, is essenti...
Most cellulose-degrading enzymes have a two-domain structure that consists of a catalytic and a cell...
The enzymatic degradation of cellulose, the major organic carbon source in the biosphere, is essenti...
Plant cell wall polysaccharides are predominant components of fibres. Natural fibres have a wide ran...
Most cellulose degrading enzymes have a two-domain structure consisting of a catalytic domain and a ...
Most cellulose degrading enzymes have a two-domain structure consisting of a catalytic domain and a ...
The wall is the last frontier of a plant cell involved in modulating growth, development and defense...