Add to ORKGNitrite is widely used by bacteria as an electron acceptor under anaerobic conditions. In respiratory nitrite ammonification an electrochemical proton potential across the membrane is generated by electron transport from a non-fermentable substrate like formate or H(2) to nitrite. The corresponding electron transport chain minimally comprises formate dehydrogenase or hydrogenase, a respiratory quinone and cytochrome c nitrite reductase. The catalytic subunit of the latter enzyme (NrfA) catalyzes nitrite reduction to ammonia without liberating intermediate products. This review focuses on recent progress that has been made in understanding the enzymology and bioenergetics of respiratory nitrite ammonification. High-resolution structures of N...
AbstractThe two multiheme c-type cytochromes NrfH and NrfA form a membrane-bound complex that cataly...
Recent phylogenetic analyses have established that the Epsilonproteobacteria form a globally ubiquit...
Escherichia coli can reduce nitrite to ammonium via a 120-kDa decaheme homodimeric periplasmic nitri...
Wolinella succinogenes can grow by anaerobic respiration with nitrate or nitrite using formate as el...
Wolinella succinogenes can grow by anaerobic respiration with nitrate or nitrite using formate as el...
The electron-transport chain that catalyzes nitrite respiration with formate in Wolinella succinogen...
The electron-transport chain that catalyzes nitrite respiration with formate in Wolinella succinogen...
Nitrogen compounds serve as electron donor and electron acceptor substrates in several modes of micr...
Nitrogen compounds serve as electron donor and electron acceptor substrates in several modes of micr...
The cytochrome c nitrite reductase complex (NrfHA) is the terminal enzyme in the electron transport ...
In the bacterial metabolic pathway of nitrate ammonification, the eight-electron reduction of nitrat...
Nitrogen is an essential element of life that needs to be assimilated in its most reduced form, ammo...
AbstractNitrogen is an essential element of life that needs to be assimilated in its most reduced fo...
Cytochrome c nitrite reductase catalyzes the 6-electron reduction of nitrite to ammonia. This second...
Nitrogen is an essential element of life that needs to be assimilated in its most reduced form, ammo...
AbstractThe two multiheme c-type cytochromes NrfH and NrfA form a membrane-bound complex that cataly...
Recent phylogenetic analyses have established that the Epsilonproteobacteria form a globally ubiquit...
Escherichia coli can reduce nitrite to ammonium via a 120-kDa decaheme homodimeric periplasmic nitri...
Wolinella succinogenes can grow by anaerobic respiration with nitrate or nitrite using formate as el...
Wolinella succinogenes can grow by anaerobic respiration with nitrate or nitrite using formate as el...
The electron-transport chain that catalyzes nitrite respiration with formate in Wolinella succinogen...
The electron-transport chain that catalyzes nitrite respiration with formate in Wolinella succinogen...
Nitrogen compounds serve as electron donor and electron acceptor substrates in several modes of micr...
Nitrogen compounds serve as electron donor and electron acceptor substrates in several modes of micr...
The cytochrome c nitrite reductase complex (NrfHA) is the terminal enzyme in the electron transport ...
In the bacterial metabolic pathway of nitrate ammonification, the eight-electron reduction of nitrat...
Nitrogen is an essential element of life that needs to be assimilated in its most reduced form, ammo...
AbstractNitrogen is an essential element of life that needs to be assimilated in its most reduced fo...
Cytochrome c nitrite reductase catalyzes the 6-electron reduction of nitrite to ammonia. This second...
Nitrogen is an essential element of life that needs to be assimilated in its most reduced form, ammo...
AbstractThe two multiheme c-type cytochromes NrfH and NrfA form a membrane-bound complex that cataly...
Recent phylogenetic analyses have established that the Epsilonproteobacteria form a globally ubiquit...
Escherichia coli can reduce nitrite to ammonium via a 120-kDa decaheme homodimeric periplasmic nitri...