EC Number |
Substrates |
Organism |
Products |
Reversibility |
---|
7.2.2.7 | ATP + H2O + Fe3+/out |
- |
Arabidopsis thaliana |
ADP + phosphate + Fe3+/in |
- |
? |
7.2.2.7 | ATP + H2O + Fe3+/out |
the ferrisiderophore permease system allows internalization of Fe(III) when supplied to bacterial cells as 59FeCl3 or 59Fe dicitrate via complexation to a second siderophore |
Dickeya chrysanthemi |
ADP + phosphate + Fe3+/in |
- |
? |
7.2.2.7 | ATP + H2O + Fe3+/out |
the ferrisiderophore permease system allows internalization of Fe(III) when supplied to bacterial cells as 59FeCl3 or 59Fe dicitrate via complexation to a second siderophore |
Dickeya chrysanthemi 3937 |
ADP + phosphate + Fe3+/in |
- |
? |
7.2.2.7 | ATP + H2O + Fe3+/out |
high specificity for Fe3+ |
Haemophilus influenzae |
ADP + phosphate + Fe3+/in |
- |
? |
7.2.2.7 | ATP + H2O + Fe3+/out |
shuttling of free Fe3+ through the periplasm |
Haemophilus influenzae |
ADP + phosphate + Fe3+/in |
- |
? |
7.2.2.7 | more |
enzyme has high selectivity for trivalent metals, including Ga3+ and Al3+, over divalent metals |
Haemophilus influenzae |
? |
- |
? |
7.2.2.7 | ATP + H2O + Fe3+/out |
- |
Homo sapiens |
ADP + phosphate + Fe3+/in |
- |
? |
7.2.2.7 | ATP + H2O + Fe3+/out |
ABC7 is the causal gene of X-linked siderolastic anemia and ataxia |
Homo sapiens |
ADP + phosphate + Fe3+/in |
- |
? |
7.2.2.7 | ATP + H2O + Fe3+/out |
- |
Neisseria gonorrhoeae |
ADP + phosphate + Fe3+/in |
- |
? |
7.2.2.7 | ATP + H2O + Fe3+/out |
shuttling of free Fe3+ through the periplasm |
Neisseria gonorrhoeae |
ADP + phosphate + Fe3+/in |
- |
? |