Structural Entry Filters:

Search Count: 6

1HV0 image
1HV0
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Dissecting Electrostatic Interactions And The Ph-Dependent Activity Of A Family 11 Glycosidase
Organism: Bacillus circulans
Method: X-RAY DIFFRACTION
Resolution:1.60 Å Release Date: 2001-09-14
Classification: HYDROLASE
1HV1 image
1HV1
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Dissecting Electrostatic Interactions And The Ph-Dependent Activity Of A Family 11 Glycosidase
Organism: Bacillus circulans
Method: X-RAY DIFFRACTION
Resolution:1.80 Å Release Date: 2001-09-14
Classification: HYDROLASE
1C5H image
1C5H
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Hydrogen Bonding And Catalysis: An Unexpected Explanation For How A Single Amino Acid Substitution Can Change The Ph Optimum Of A Glycosidase
Organism: Bacillus circulans
Method: X-RAY DIFFRACTION
Resolution:1.55 Å Release Date: 2000-05-12
Classification: HYDROLASE
1C5I image
1C5I
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Hydrogen Bonding And Catalysis: An Unexpected Explanation For How A Single Amino Acid Substitution Can Change The Ph Optimum Of A Glycosidase
Organism: Bacillus circulans
Method: X-RAY DIFFRACTION
Resolution:1.80 Å Release Date: 2000-05-12
Classification: HYDROLASE
1ULO image
1ULO
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N-Terminal Cellulose-Binding Domain From Cellulomonas Fimi Beta-1,4-Glucanase C, Nmr, Minimized Average Structure
Organism: Cellulomonas fimi
Method: SOLUTION NMR
Release Date: 1997-04-01
Classification: CELLULOSE DEGRADATION
1ULP image
1ULP
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N-Terminal Cellulose-Binding Domain From Cellulomonas Fimi Beta-1,4-Glucanase C, Nmr, 25 Structures
Organism: Cellulomonas fimi
Method: SOLUTION NMR
Release Date: 1997-04-01
Classification: CELLULOSE DEGRADATION
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