EC Number   |
Substrates |
Organism  |
Products |
Reversibility |
|---|
   7.6.2.5 | ATP + H2O + heme/in |
- |
Arabidopsis thaliana |
ADP + phosphate + heme/out |
- |
? |
| 7.6.2.5 | ATP + H2O + heme/in |
- |
Bacillus subtilis |
ADP + phosphate + heme/out |
- |
? |
| 7.6.2.5 | ATP + H2O + heme/in |
- |
Bradyrhizobium japonicum |
ADP + phosphate + heme/out |
- |
? |
| 7.6.2.5 | ATP + H2O + heme/in |
may be involved in transport process essential for the biogenesis of c-type cytochrome |
Bradyrhizobium japonicum |
ADP + phosphate + heme/out |
- |
? |
| 7.6.2.5 | ATP + H2O + heme[side 1] |
- |
Corynebacterium glutamicum |
ADP + phosphate + heme[side 2] |
- |
? |
| 7.6.2.5 | more |
there is a cleft between the N- and C-terminal domains, in which one heme molecule is accommodated with His141 and Tyr240 as axial ligands that are located at the loop regions in the N- and C-terminal domains, respectively. The Fe-N and Fe-O bond distances are 2.2 and 2.1 A, respectively. Heme is accommodated in the heme-binding site of CgHmuT with two different orientations |
Corynebacterium glutamicum |
? |
- |
? |
| 7.6.2.5 | ATP + H2O + heme/in |
- |
Daucus carota |
ADP + phosphate + heme/out |
- |
? |
| 7.6.2.5 | ATP + H2O + heme/in |
- |
Escherichia coli |
ADP + phosphate + heme/out |
- |
? |
| 7.6.2.5 | ATP + H2O + heme/in |
the HelABC transporter is specifically involved in heme export for ligation |
Escherichia coli |
ADP + phosphate + heme/out |
- |
? |
| 7.6.2.5 | ATP + H2O + heme/in |
- |
Haemophilus influenzae |
ADP + phosphate + heme/out |
- |
? |
