Impact of scaffoldin mechanostability on cellulosomal activity

Keyphrases

• Scaffoldin 100%
• Cohesin 100%
• Mechanostability 100%
• Cellulosome 85%
• Mechanical Stability 57%
• Cellulosic Substrate 28%
• Scaffold Protein 14%
• Biotechnology 14%
• Enzymatic Activity 14%
• Hydrolysis 14%
• Non-catalytic 14%
• Industrial Application 14%
• Cellulose 14%
• Cell Surface 14%
• Specific Binding 14%
• Mechanical Force 14%
• Biosphere 14%
• Designer Cellulosomes 14%
• Anaerobic Bacteria 14%
• Enzyme Complex 14%
• Natural Complex 14%
• Lignocellulose 14%
• Anchoring Point 14%
• High Mechanical Stability 14%
• Mechanical Resistance 14%
• Lignocellulosic Materials 14%
• Functional Modules 14%
• Renewable Carbon 14%
• Second-generation Biofuels 14%
• Industrial Interest 14%
• Saccharification 14%
• Fermentable Sugars 14%
• Artificial Cellulosome 14%

Biochemistry, Genetics and Molecular Biology

• Cellulosome 100%
• Cohesin 87%
• Scaffold Protein 12%
• Enzyme 12%
• Enzyme Activity 12%
• Enzymatic Hydrolysis 12%
• Surface Property 12%
• Cellulose 12%
• Multienzyme Complex 12%
• Anaerobic Bacterium 12%
• Saccharification 12%

Material Science

• Mechanical Stability 100%
• Biofuel 20%