Biological Nitrogen Removal Database
A manually curated data resource for microbial nitrogen removal
Biological Nitrogen Removal Database
A manually curated data resource for microbial nitrogen removal
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Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-706S-4-19 |
KP001859.1 |
Bacteria |
Link |
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Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-707S-7-20 |
KP001860.1 |
Bacteria |
Link |
|
Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-510S-3-22 |
KP001861.1 |
Bacteria |
Link |
|
Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-706S-4-17 |
KP001862.1 |
Bacteria |
Link |
|
Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-704S-6-10 |
KP001863.1 |
Bacteria |
Link |
|
Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-707S-7-07 |
KP001864.1 |
Bacteria |
Link |
|
Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-708S-8-03 |
KP001865.1 |
Bacteria |
Link |
|
Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-510S-3-37 |
KP001866.1 |
Bacteria |
Link |
|
Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-510S-3-20 |
KP001867.1 |
Bacteria |
Link |
|
Play a key role in the unique anammox metabolism in bacteria. The bacterial working model involves two transmembrane proteins (CcsAB), forming a channel entry, facilitate the heme transport and the maintenance of it in a reduced state at the p-side of the membrane. |
ccsA (ResC) |
Cytochrome c-type biogenesis protein |
Uncultured anaerobic ammonium-oxidizing bacterium |
ccsA-706S-4-35 |
KP001868.1 |
Bacteria |
Link |