1.9.6.1: nitrate reductase (cytochrome)
This is an abbreviated version!
For detailed information about nitrate reductase (cytochrome), go to the full flat file.
Word Map on EC 1.9.6.1
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1.9.6.1
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nitrite
-
denitrification
-
denitrify
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molybdenum
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paracoccus
-
dissimilatory
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denitrificans
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n2o
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pantotrophus
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napf
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nitrate-reducing
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desulfuricans
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molybdoenzymes
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thiosphaera
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cyma
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fixk2
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menaquinol
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di-haem
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bismolybdopterin
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wolinella
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high-g
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narghi
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norcbqd
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nitrate-dependent
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mo-containing
- 1.9.6.1
- nitrite
-
denitrification
-
denitrify
- molybdenum
- paracoccus
-
dissimilatory
- denitrificans
- n2o
- pantotrophus
- napf
-
nitrate-reducing
- desulfuricans
-
molybdoenzymes
-
thiosphaera
-
cyma
- fixk2
- menaquinol
-
di-haem
-
bismolybdopterin
-
wolinella
-
high-g
- narghi
-
norcbqd
-
nitrate-dependent
-
mo-containing
Reaction
2 ferrocytochrome + 2 H+ + = 2 ferricytochrome + +
Synonyms
benzyl viologen-nitrate reductase, EC 1.7.99.4, mmol_1648, More, NAP, NAP enzyme, Nap-alpha, NAP-beta, NapA, napA-beta, NapAB, NapABC, NapDAGHB, NapEDABC, nitrate reductase, periplasmic, periplasmic nitrate reductase, periplasmic nitrate reductases, reductase, nitrate (cytochrome), respiratory nitrate reductase, single subunit Nap-type periplasmic nitrate reductase
ECTree
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Molecular Weight
Molecular Weight on EC 1.9.6.1 - nitrate reductase (cytochrome)
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16000
17000
90000
P33937; P0ABL3
1 * 90000 (NapA) + 1 * 16000 (NapB), Nap activity is lost rapidly during the separation of NapA from NapB by anion exchange chromatography, SDS-PAGE
16000
-
x * 90000 + x * 16000, two-subunit complex, NapA is an 90000 Da catalytic subunit which binds a bis-molybdenum guanosine dinucleoside cofactor and a [4Fe4S] cluster. NapB is an 16000 Da electron-transfer subunit, which in other bacteria binds two c-type haems
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1 * 17000 (NapB) + 1 * 90000 (NapA), the NapA holoenzyme associates with a di-heme c-type cytochrome redox partner (NapB). NapA and NapB proteins purify independently and not as a tight heterodimeric complex. Dissociation constants of 0.015 mM and 0.032 mM are determined for oxidized and reduced NapAB complexes, respectively
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1 * 17000 (NapB) + 1 * 90000 (NapA), the NapA holoenzyme associates with a di-heme c-type cytochrome redox partner (NapB). NapA and NapB proteins purify independently and not as a tight heterodimeric complex. Dissociation constants of 0.015 mM and 0.032 mM are determined for oxidized and reduced NapAB complexes, respectively
90000
P33937; P0ABL3
1 * 90000 (NapA) + 1 * 16000 (NapB), Nap activity is lost rapidly during the separation of NapA from NapB by anion exchange chromatography, SDS-PAGE
90000
-
x * 90000 + x * 16000, two-subunit complex, NapA is an 90000 Da catalytic subunit which binds a bis-molybdenum guanosine dinucleoside cofactor and a [4Fe4S] cluster. NapB is an 16000 Da electron-transfer subunit, which in other bacteria binds two c-type haems