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-Arg |
- |
Lucilia cuprina |
ATP + L-Arg |
- |
r |
2.7.3.3 | ADP + Nomega-phospho-L-arginine |
- |
Limulus polyphemus |
ATP + L-arginine |
- |
? |
2.7.3.3 | ADP + Nomega-phospho-L-arginine |
- |
Manduca sexta |
ATP + L-arginine |
- |
r |
2.7.3.3 | ADP + Nomega-phospho-L-arginine |
- |
Tribolium castaneum |
ATP + L-arginine |
- |
r |
2.7.3.3 | ADP + Nomega-phospho-L-arginine |
- |
Periplaneta americana |
ATP + L-arginine |
- |
r |
2.7.3.3 | ADP + Nomega-phospho-L-arginine |
- |
Polybetes pythagoricus |
ATP + L-arginine |
- |
r |
2.7.3.3 | ADP + omega-N-phospho-L-Arg |
function: five residues predicted to interact with the substrate arginine (S77, Y82, E239, C285 and E328), and five residues predicted to interact with the substrate ADP (R138, R140, R243, R294 and R323). Arginine (or phosphagen) and MgATP (or MgADP), typically exhibit synergistic binding to arginine kinase |
Cissites cephalotes |
ATP + L-arginine |
- |
r |
2.7.3.3 | ATP + 4-guanidinebutanoic acid |
8% of the activity with L-Arg |
Sabella pavonina |
ADP + N-phospho-4-guanidinobutanoic acid |
- |
? |