Biological Nitrogen Removal Database

A manually curated data resource for microbial nitrogen removal


Reaction Stage
Encoding Gene
Enzyme Name
Microorganism
Clone
Nuc_GenBank ID
Organism
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-425S-2-01

KP001599.1

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-425S-2-02

KP001600.1

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-425S-2-03

KP001601.1

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-425S-2-04

KP001602.1

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-425S-2-05

KP001603.1

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-425S-2-06

KP001604.1

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-425S-2-07

KP001605.1

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-425S-2-08

KP001606.1

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-425S-2-09

KP001607.1

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-425S-2-10

KP001608.1

Bacteria

Link