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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
Chromatium sp.
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
catalytic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
mechanism, Fe protein cycle
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme complex dissociation and association kinetics
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
C2H2 inhibition mechanism, structure model
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
MgATP/MgADP-dependent electron and proton transfer kinetics
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
structure of V-containing enzyme form
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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440134, 440140, 440142, 440143, 440144, 440145, 440146, 440147, 440149, 440152, 440157, 440166, 440174
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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440134, 440142, 440143, 440144, 440145, 440146, 440147, 440153, 440159, 440164, 440174, 440180, 440186
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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440134, 440138, 440142, 440143, 440144, 440145, 440146, 440147, 440150, 440153, 440154, 440155, 440156, 440158, 440163, 440166, 440174, 440175, 440178, 440179, 440180, 440181, 440182, 440183, 440184, 440186, 440187, 440189
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
Chromatium sp.
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
Gloeocapsa sp.
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
Cyanobacterium sp.
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
Fe protein and MoFe protein are assumed to associate and dissociate to transfer a single electron to the substrates
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic electron flow from Fe protein to substrate via MoFe protein and MoFe protein-cofactor
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
iron-only enzyme is composed of 2 components: FeFe protein and Fe protein
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
Chromatium sp.
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
schematic mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
active site is located on the MoFe cofactor involving residues alphaR96, alphaG69, alphaV70, and alphaH195
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
active site location
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
overall catalytic mechanism, overview, structures of active site metal clusters, interactions of substrate and active site, active site relevant residues are Arg96, Val70, Gly69, and His195, substrate binding mechanism of complex components, mechanism of MgATP hydrolysis and electron transfer, overview
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
the active site is located on the MoFe protein, active site structure and substrate binding mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
theoretical mechanisms of substrate binding to molybdenum or iron in the FeMo cofactor, modeling
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
first introduction of H at the NFe7MoS9(homocitrate) active site is via a water chain terminating at water 679 to S3B of the my3-S atoms of the active site. Discussion of subsequent movement of the H atoms around the NFe7MoS9(homocitrate) preparatory to the binding and hydrogenation of N2 and other substrates. S2B has a modulatory function and is not an H-entry site
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
reaction mechanism, overview
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
SEPR1 intermediate formed during turnover of the nitrogenase alpha-195Gln MoFe protein with C2H2 in H2O buffers, is a product complex with C2H4 bound as a ferracycle to a single Fe of the FeMo-cofactor active site. CO bridges two Fe of lo-Co, while the C2H4 of SEPR1 binds to one of these. Correlation with Lowe-Thorneley En kinetic state
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
theoretical investigation of the binding of N2 to the Fe7MoS9N(homocitrate)(cysteine)(histidine) active site, calculation of reaction profiles and activation energies for the association and dissociation of N2. An endo-ny1-N2 coordination at Fe6 is most probable
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
reaction mechanism, determination of reaction intermediates, two-step relaxation of the nitrogenase H+/H+ intermediate during step-annealing,both steps show large solvent kinetic isotope effects, step A is the catalytically central state that is activated for N2 binding by the accumulation of 4 electrons, and step B accumulates 2 electrons, overview
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
NO2- reduction by nitrogenase begins with the generation of NO2H bound to a state in which the active-site FeMo-cofactor (M) has accumulated two [e-/H+] (E2), stored as a (bridging) hydride and proton. Proton transfer to NO2H and H2O loss leaves M-[NO+], transfer of the E2 hydride to the [NO+] directly to form HNO bound to FeMo-cofactor is one of two alternative means for avoiding formation of a terminal M-[NO] thermodynamic sink. Mechanism for N2 reduction, detailed overview. NO2- reduction by nitrogenase begins with the generation of NO2H bound to E2, E2 has accumulated two [e-/H+], stored in the form of a hydride bridging between two Fe atoms and a proton bound to sulfur. Transfer of the E2 proton to the -OH of NO2H followed by loss of H2O formally leaves M-[NO+]. Nitrogenase is able to transfer the E2 hydride to [NO+], directly forming HNO bound to FeMo-cofactor at its resting-state redox level and totally avoiding formation of an M-[NO] sink
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
active site is located on the MoFe cofactor involving residues alphaR96, alphaG69, alphaV70, and alphaH195
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-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
the active site is located on the MoFe protein, active site structure and substrate binding mechanism
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4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
iron-only enzyme is composed of 2 components: FeFe protein and Fe protein
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-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
-
-
4 reduced ferredoxin + 8 H+ + N2 + 16 ATP + 16 H2O = 4 oxidized ferredoxin + H2 + 2 NH3 + 16 ADP + 16 phosphate
enzyme is composed of 2 metalloproteins: component I MoFe protein and component II Fe protein
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