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Enzymatic degradation of sulfite-pulped softwoods and the role of LPMOs
Piotr Chylenski
, Dejan M. Petrovic
, Gerdt Müller
, Marie Dahlström
, Oskar Bengtsson
, Martin Lersch
, Matti Siika-aho
, Svein Jarle Horn
, Vincent G. H. Eijsink
Norwegian University of Life Sciences
Borregaard AS
Research output
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Contribution to journal
›
Article
›
Scientific
›
peer-review
64
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Keyphrases
Softwood
100%
Lytic Polysaccharide Monooxygenase
100%
Enzymatic Degradation
100%
Sulfite
100%
Cellulase
38%
Lignosulfonate
15%
Sulfite Pretreatment
15%
Spruce
7%
Norway Spruce
7%
Lignin
7%
Design Process
7%
Process Conditions
7%
Biorefinery
7%
Incubation
7%
Mono-component
7%
Lignocellulosic Biomass
7%
Small Molecules
7%
Process Yield
7%
Enzymatic Hydrolysis
7%
Recent Advances
7%
Process Optimization
7%
Full Potential
7%
Softwood Biomass
7%
Saccharification Yield
7%
Preparation Conditions
7%
Sulfite Ion
7%
Glucan Conversion
7%
Sulfite Pulping
7%
Glucan
7%
Reducing Power
7%
Efficient Degradation
7%
Reducing Equivalents
7%
Abundant Resources
7%
Cellulase Cocktail
7%
Hydrolysis Efficiency
7%
Loblolly pine
7%
Pre-treatment Step
7%
Celluclast
7%
Molecular Oxygen
7%
Scandinavia
7%
Enzyme Cocktail
7%
Enzyme Loading
7%
Negative Effects
7%
Spruce pine
7%
Biochemistry, Genetics and Molecular Biology
Polysaccharide
100%
Enzymatic Degradation
100%
Unspecific Monooxygenase
100%
Sulfite
100%
Cellulase
46%
Enzymatic Hydrolysis
15%
Enzyme
15%
Glucan
15%
Small Molecule
7%
Reducing Equivalent
7%
Saccharification
7%
Process Design
7%
Loblolly Pine
7%
Spruce
7%
Norway Spruce
7%
Process Optimization
7%
Pulping
7%
INIS
polysaccharides
100%
sulfites
100%
cellulase
38%
spruces
15%
efficiency
15%
enzymes
15%
substrates
15%
biomass
15%
yields
15%
oxygen
15%
pines
7%
norway
7%
levels
7%
resources
7%
design
7%
cost
7%
optimization
7%
processing
7%
hydrolysis
7%
molecules
7%
power
7%
removal
7%
lignin
7%
conversion
7%
loading
7%
ions
7%
cellulases
7%
saccharification
7%
scandinavia
7%
incubation
7%
enzymatic hydrolysis
7%
Engineering
Pretreatment
100%
Enzymatic Degradation
100%
Lignosulfonate
40%
Reductants
40%
Process Design
20%
Process Condition
20%
Biorefineries
20%
Lignocellulosic Biomass
20%
Process Yield
20%
Enzyme Cocktail
20%
Reducing Power
20%
Related Cost
20%
Negative Effect
20%
Enzymatic Hydrolysis
20%
Saccharification
20%
Material Science
Monooxygenase
100%
Cellulase
46%
Enzymatic Hydrolysis
15%
Lignin
7%
Chemical Engineering
Polysaccharide
100%
Molecular Oxygen
7%
Enzymatic Hydrolysis
7%
Efficient Degradation
7%