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Knowledge-based modeling of a bacterial dichloromethane dehalogenase
Amanda Marsh,
David M Ferguson
Medicinal Chemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
25
Scopus citations
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Keyphrases
Glutathione S-transferase
100%
Dichloromethane Dehalogenase
100%
Knowledge Modeling
100%
Glutathione
28%
Dichloromethane
28%
Hybrid Method
14%
Hydrogen Bonding Interaction
14%
Sequence Identity
14%
Substrate Binding
14%
Negative Charge
14%
Thiol Groups
14%
Root Mean Square Deviation
14%
Nucleophilic Attack
14%
Chlorine
14%
Aromatic Residues
14%
Three-dimensional Structural Model
14%
Methylophilus
14%
Suitable Location
14%
Sheep Blowfly
14%
Hydrogen Bonds (H-bonds)
14%
Single-point mutation
14%
Hydrophobic Binding Sites
14%
Biochemistry, Genetics and Molecular Biology
Glutathione S-Transferase
100%
Dichloromethane
100%
Hydrogen Bond
28%
Glutathione
28%
Nucleophilicity
14%
DNA Template
14%
Point Mutation
14%
Methylophilus
14%
Calliphoridae
14%
Thiol
14%
Pharmacology, Toxicology and Pharmaceutical Science
Dichloromethane
100%
Glutathione
100%
Transferase
77%
Hydrogen Bond
22%
Thiol Group
11%
Methylophilus
11%
Calliphoridae
11%
Chemistry
Dichloromethane
100%
Glutathione
100%
Hydrogen Bonding
22%
Thiol Group
11%
Material Science
Glutathione
100%
Catalysis
22%
Hydrogen Bonding
22%
Earth and Planetary Sciences
Topology
11%