EC Number |
Natural Substrates |
---|
7.2.2.7 | ATP + H2O + Fe3+/out |
- |
7.2.2.7 | ATP + H2O + Fe3+/out |
proteins YbtP and YbtQ are members of the ABC transporter family and probably function as a heterodimer in the transport of ferri-yersiniabactin |
7.2.2.7 | ATP + H2O + Fe3+/out |
cells with mutations in protein YbtP or protein YbtQ still produce yersiniabactin but are impaired in their ability to grow at 37°C under iron-deficient conditions |
7.2.2.7 | ATP + H2O + Fe3+/out |
crucial role in periplasmic transport of iron derived from human transferrin, human lactoferrin, and iron chelates |
7.2.2.7 | ATP + H2O + Fe3+/out |
may be involved in either siderophore-mediated or transferrin-mediated iron uptake |
7.2.2.7 | ATP + H2O + Fe3+/out |
SitABCD may play a major role in iron aquisition during infection, the sitABCD operon is induced under iron-deficient conditions in vitro |
7.2.2.7 | ATP + H2O + Fe3+/out |
involved in aquisition of organic iron. Mn2+-repression of the transcription from the yfeABCD promoter is Fur dependent |
7.2.2.7 | ATP + H2O + Fe3+/out |
ABC7 is the causal gene of X-linked siderolastic anemia and ataxia |
7.2.2.7 | ATP + H2O + Fe3+/out |
shuttling of free Fe3+ through the periplasm |
7.2.2.7 | ATP + H2O + Fe3+/out |
transport of iron(III)-hydroxamates |