1.14.13.208: benzoyl-CoA 2,3-epoxidase
This is an abbreviated version!
For detailed information about benzoyl-CoA 2,3-epoxidase, go to the full flat file.
Word Map on EC 1.14.13.208
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1.14.13.208
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evansii
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benzoate
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azoarcus
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epoxidation
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diiron
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boxc
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thioesters
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protocatechuate
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enoyl-coa
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homodimeric
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non-aromatic
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oxygenases
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coa-dependent
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succinyl-coa
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dihydrodiol
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iron-sulfur
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semialdehyde
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phenylacetyl-coa
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benzoate-induced
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diferric
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benzoate-coa
- 1.14.13.208
- evansii
- benzoate
-
azoarcus
-
epoxidation
-
diiron
- boxc
- thioesters
- protocatechuate
- enoyl-coa
-
homodimeric
-
non-aromatic
- oxygenases
-
coa-dependent
- succinyl-coa
-
dihydrodiol
-
iron-sulfur
- semialdehyde
- phenylacetyl-coa
-
benzoate-induced
-
diferric
-
benzoate-coa
Reaction
Synonyms
benzoyl coenzyme A epoxidase, benzoyl-CoA 2,3-dioxygenase, benzoyl-CoA dioxygenase/reductase, benzoyl-CoA epoxidase, benzoyl-CoA oxygenase, benzoyl-coenzyme A epoxidase, BoxA, BoxA/BoxB system, BoxAB, BoxB, BoxBA, EC 1.14.12.21
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General Information
General Information on EC 1.14.13.208 - benzoyl-CoA 2,3-epoxidase
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additional information
benzoyl-CoA substrate forms two hydrogen bonds with Gln116, which in turn is hydrogen-bonded to Glu120. A number of other second-shell residues are also important for the orientation of the benzoyl moiety, including Thr119, Ser123, Phe193, Phe203, and Thr210. Optimized structure of the BoxB active site with the truncated benzoyl-CoA and O2 substrates bound, corresponding to the Michaelis complex, enzyme structure and reaction mechanism mechanics/molecular mechanics calculations and modeling, overview
additional information
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usage of PDB ID 3PM5 for enzyme structure modeling and simulation, quantum mechanics/molecular mechanics calculations, overview. Four general pathways for oxidizing aromatic rings are determined
additional information
Aromatoleum evansii KB 740
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usage of PDB ID 3PM5 for enzyme structure modeling and simulation, quantum mechanics/molecular mechanics calculations, overview. Four general pathways for oxidizing aromatic rings are determined
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