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Laccase-derived lignin compounds boost cellulose oxidative enzymes AA9
Livia Brenelli, Fabio M. Squina, Claus Felby, David Cannella
Forest, Nature and Biomass
47
Citations (Scopus)
77
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Dive into the research topics of 'Laccase-derived lignin compounds boost cellulose oxidative enzymes AA9'. Together they form a unique fingerprint.
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Medicine & Life Sciences
2,2'-azino-di-(3-ethylbenzothiazoline)-6-sulfonic acid
9%
bagasse
11%
Biomass
7%
Carbohydrates
5%
Cell Wall
6%
Cellulases
9%
Cellulose
75%
Electrons
15%
Enzyme Activators
9%
Enzymes
34%
Hand
4%
Hydrolysis
5%
Laccase
100%
Lignin
97%
lignocellulose
20%
Mixed Function Oxygenases
50%
Molecular Weight
10%
Monophenol Monooxygenase
8%
Oxidation-Reduction
6%
Oxidoreductases
11%
Oxygen
9%
Polysaccharides
47%
Saccharum
10%
Triticum
7%
Engineering & Materials Science
Bagasse
8%
Carbohydrates
8%
Cellulose
69%
Chemical activation
5%
Degradation
4%
Electrons
19%
Enzymatic hydrolysis
9%
Enzymes
72%
Lignin
78%
Lignocellulosic biomass
8%
Molecular weight
14%
Molecules
12%
Oxidation
5%
Oxidation-Reduction
8%
Oxidoreductases
28%
Oxygen
10%
Phenols
7%
Polysaccharides
73%
Saccharification
9%
Straw
7%
Substrates
4%
Earth & Environmental Sciences
biomass
3%
carbohydrate
6%
cell
3%
cellulose
60%
consumption
4%
degradation
4%
electron
13%
enzyme
50%
hydrolysis
5%
incubation
5%
lignin
67%
material
2%
organism
4%
oxidation
4%
oxygen
8%
phenol
5%
polysaccharide
53%
rate
2%
straw
6%
substrate
4%
test
2%
wheat
5%