EC Number |
Reaction |
Reference |
---|
3.3.2.10 | an epoxide + H2O = a glycol |
- |
- |
3.3.2.10 | an epoxide + H2O = a glycol |
catalytic reaction mechanism involving Tyr465, Tyr381, Asp495, His523, and Asp333, overview |
708266 |
3.3.2.10 | an epoxide + H2O = a glycol |
detailed reaction mechanism, molecular dynamics simulations, detailed analysis of substrate binding to the active site and determination of the preferred conformation, involving Tyr381, Tyr465, and His523 |
661922 |
3.3.2.10 | an epoxide + H2O = a glycol |
reaction mechanism, catalytic triad |
654503 |
3.3.2.10 | an epoxide + H2O = a glycol |
the C-terminal part harbors the epoxide hydrolase activity, the phosphatase activity of the enzyme is located at the N-terminal part of EC 3.1.3.76, both catalytic sites act independently |
657156, 661168, 662565, 663199 |
3.3.2.10 | an epoxide + H2O = a glycol |
the C-terminal part harbors the epoxide hydrolase activity, the phosphatase activity of the enzyme is located at the N-terminal part of EC 3.1.3.76, both catalytic sites act independently, the epoxide hydrolase reaction proceeds though an alkyl-enzyme intermediate involving the catalytic Asp333, and hydrogen bonds with Tyr381 and Tyr465, reaction mechanism, structure-mechanism relationship |
654749 |
3.3.2.10 | an epoxide + H2O = a glycol |
the catalytic mechanism involves two step processes, overview |
708022 |
3.3.2.10 | an epoxide + H2O = a glycol |
the catalytic triad is Asp333-His523-Asp495 |
661476 |
3.3.2.10 | an epoxide + H2O = a glycol |
the catalytic triad is Asp334-His523-Asp495 |
663193 |
3.3.2.10 | an epoxide + H2O = a glycol |
the catalytic triad is formed by Asp126, Asp285, and His320 |
661622 |