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Convergent evolution of processivity in bacterial and fungal cellulases
Taku Uchiyama
*
, Takayuki Uchihashi
, Akihiko Nakamura
, Hiroki Watanabe
, Satoshi Kaneko
, Masahiro Samejima
, Kiyohiko Igarashi
*
Corresponding author for this work
BA5304 Enzyme and material biotechnology
University of Tokyo
Nagoya University
National Institutes of Natural Sciences
National Institutes of Natural Sciences - Institute for Molecular Science
University of the Ryukyus
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
49
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Citations (Scopus)
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Keyphrases
Cellulase
100%
Processivity
100%
Fungal Cellulase
100%
Convergent Evolution
100%
Fungi
42%
Processive
42%
Cellulose
28%
Microcrystalline Cellulose
28%
Atomic Force Microscopic
28%
Microorganisms
14%
Trichoderma Reesei
14%
Microscopic Observation
14%
Crystalline Region
14%
Amorphous Region
14%
Microscopic Image
14%
Energy Sources
14%
Efficient Degradation
14%
Reducing End
14%
Cel7A
14%
Traffic Accidents
14%
Protein Folding
14%
Degradative Enzymes
14%
Insoluble Cellulose
14%
Cellulomonas Fimi
14%
Non-reducing
14%
Natural Degradation
14%
Continuous Hydrolysis
14%
Cellulolytic Bacteria
14%
Cellulose Substrate
14%
INIS
cellulases
100%
cellulose
71%
substrates
57%
enzymes
42%
bacteria
42%
fungi
42%
speed
28%
microorganisms
14%
accidents
14%
proteins
14%
images
14%
energy
14%
biomass
14%
hydrolysis
14%
cellulase
14%
trichoderma reesei
14%
Engineering
Convergent
100%
Highway Accidents
50%
Amorphous Region
50%
Crystalline Region
50%
Cellulolytic Bacteria
50%
Immunology and Microbiology
Convergent Evolution
100%
Cellulase
100%
Hypocrea jecorina
12%
Protein Folding
12%
Microorganism
12%
Pharmacology, Toxicology and Pharmaceutical Science
Cellulase
100%
Trichoderma reesei
12%
Microorganism
12%
Cellulomonas
12%
Material Science
Cellulase
100%
Enzymatic Hydrolysis
12%
Protein Folding
12%
Chemical Engineering
Efficient Degradation
100%