EC Number   |
Substrates |
Organism |
Products |
Reversibility  |
|---|
   2.7.3.3 | ADP + Nomega-phospho-L-Arg |
the enzyme is a modulator of energetic reserves under starvation stress conditions, activity is post-transcriptionally regulated |
Trypanosoma cruzi |
ATP + L-arginine |
- |
? |
| 2.7.3.3 | ADP + Nomega-phospho-L-Arg |
the enzyme is an important component of the energy releasing mechanism in the visual system that has high and fluctuating energy demands |
Apis mellifera |
ATP + L-arginine |
- |
? |
| 2.7.3.3 | ADP + Nomega-phospho-L-arginine |
- |
Limulus polyphemus |
ATP + L-arginine |
- |
? |
| 2.7.3.3 | ATP + 4-guanidinebutanoic acid |
8% of the activity with L-Arg |
Sabella pavonina |
ADP + N-phospho-4-guanidinobutanoic acid |
- |
? |
| 2.7.3.3 | ATP + 5-guanidinopentanoic acid |
10% of the activity with L-Arg |
Sabella pavonina |
ADP + N-phospho-5-guanidinopentanoic acid |
- |
? |
| 2.7.3.3 | ATP + CtsR-L-Arg |
McsB specifically phosphorylates arginine residues in the DNA binding domain of CtsR, thereby impairing its function as a repressor of stress response genes, phosphorylation of CtsR by McsB is sufficient to inhibit the repressor function of CtsR |
Bacillus subtilis |
ADP + CtsR-N-phospho-L-Arg |
- |
? |
| 2.7.3.3 | ATP + D-Arg |
no activity |
Musca domestica |
ADP + Nomega-phospho-D-Arg |
- |
? |
| 2.7.3.3 | ATP + D-Arg |
no activity |
Homarus gammarus |
ADP + Nomega-phospho-D-Arg |
- |
? |
| 2.7.3.3 | ATP + D-Arg |
D-Arg is as active as L-Arg |
Sabella pavonina |
ADP + Nomega-phospho-D-Arg |
- |
? |
| 2.7.3.3 | ATP + D-Arg |
D-Arg is phosphorylated to a lesser degree |
Phormia regina |
ADP + Nomega-phospho-D-Arg |
- |
? |
