Table 3.
Predicted role of the catalytic residues from 4LNN (GSI), 4HPP (GGL), and FluG.
| Residues |
Predicted role | ||
|---|---|---|---|
| 4LNN | 4HPP | FluG | |
| D53 | V42 | S481 | Removes a proton from the ammonium ion to create ammonia |
| E132 | E131 | E564 | Binds Mβ |
| E134 | E133 | E566 | Binds Mα; susceptible to interact with inhibitors |
| E189 | E180 | E626 | Binds Mα and the NH3 molecule |
| E196 | E187 | E633 | Binds Mα |
| H245 | H236 | H682 | Binds Mβ, via pros nitrogen |
| N247 | H238 | H684 | Interacts with ATP γ-phosphate |
| R298 | R290 | R720 | Interacts with the amide group of the glutamate |
| E304 | W296 | W726 | Abstracts a proton from the transition state to form glutamine and ADP |
| R316 | R308 | R739 | Polarizes the bound ATP γ-phosphate that forms the γ-glutamyl phosphate |
| R321 | R313 | R744 | Contacts with the ATP in the transition state |
| E333 | E332 | E752 | Binds Mβ |
Metals labeled as Mα and Mβ correspond to the first and the second Mg2+ atoms. Mα and Mβ are located in the first and the second catalytic domain, respectively.