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There are several matches for 'Rubredoxin 2'.
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101 matches
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organism
protein
1)
Escherichia coli K12
norV - Anaerobic nitric oxide reductase flavorubredoxin; Anaerobic nitric oxide reductase; uses NADH to detoxify nitric oxide (NO), protecting several 4Fe-4S NO-sensitive enzymes. Has at least
2
reductase partners, only one of which (NorW, flavorubredoxin reductase) has been identified. NO probably binds to the di-iron center; electrons enter from the reductase at
rubredoxin
and are transferred sequentially to the FMN center and the di-iron center. Also able to function as an aerobic oxygen reductase; In the N-terminal section; belongs to the zinc metallo- hydrolase group 3 family.
[a.k.a. AAC75752.1, b2710, NORV_ECOLI]
2)
Hydrocarboniphaga effusa
WQQ_18750 -
Rubredoxin
2
.
[a.k.a. EIT71738.1, WP_007184824.1,
Rubredoxin 2
]
3)
Pseudomonas aeruginosa
rubA2 -
Rubredoxin
2
; Involved in the hydrocarbon hydroxylating system, which transfers electrons from NADH to
rubredoxin
reductase and then through
rubredoxin
to alkane 1 monooxygenase.
[a.k.a. PA5350, AAG08735.1, NZ_QZGE01000020.1,
Rubredoxin 2
]
4)
Desulfonispora thiosulfatigenes
SMB87120.1 -
Rubredoxin
; InterPro IPR001052:IPR004039; COGs: COG1773
Rubredoxin
; KEGG: lip:LI0697
rubredoxin
2
(Rd-2); SPTR: Q93PP8
Rubredoxin
2
; PFAM:
Rubredoxin
-type Fe(Cys)4 protein; Belongs to the
rubredoxin
family.
[a.k.a. SAMN00017405_1237, SMB87120, A0A1W1V1C7_DESTI]
5)
Mycobacterium marinum
alkB - Transmembrane alkane 1-monooxygenase AlkB; Thought to be involved in fatty acid metabolism. generates octanol and oxidized
rubredoxin
from octane and reduced
rubredoxin
. also hydroxylates fatty acids in the omega-position [catalytic activity: octane + reduced
rubredoxin
+ (O)
2
= 1-octanol + oxidized
rubredoxin
+ H(
2
)O].
[a.k.a. ACC39749.1, MMAR_1291, transmembrane alkane 1-monooxygenase AlkB]
6)
Mycobacterium marinum
alkB_1 - Transmembrane alkane 1-monooxygenase AlkB_1; Thought to be involved in fatty acid metabolism. generates octanol and oxidized
rubredoxin
from octane and reduced
rubredoxin
. also hydroxylates fatty acids in the omega-position [catalytic activity: octane + reduced
rubredoxin
+ (O)
2
= 1-octanol + oxidized
rubredoxin
+ H(
2
)O].
[a.k.a. MMAR_3516, ACC41935.1, NC_010612.1]
7)
Clostridium acetobutylicum
rbr3A - Rubrerythrin; Functions as the terminal component of an NADH peroxidase (NADH:H(
2
)O(
2
) oxidoreductase) when using NADH:
rubredoxin
oxidoreductase (NROR) and
rubredoxin
(Rd) as electron transport intermediaries from NADH to revRbr 1. Plays an important role in the oxidative stress defense system in C.acetobutylicum, an obligate anaerobic bacterium. Also exhibits NADH oxidase (NADH:O(
2
) oxidoreductase) activity in vitro, which is 100-fold lesser than that of FprA1/2 using the same electron transfer components. Therefore, its predominant function is most likely as a scavenger of its prefer [...]
[a.k.a. CA_C3598, AAK81521.1, 1.11.1.1]
8)
Nitrosomonas sp. Is79A3
AEJ00454.1 -
Rubredoxin
-type Fe(Cys)4 protein; KEGG: pag:PLES_57451
rubredoxin
2
; manually curated; PFAM:
Rubredoxin
-type Fe(Cys)4 protein.
[a.k.a. Nit79A3_0575, Rubredoxin-type Fe(Cys)4 protein, F8GJ30]
9)
Nocardia cyriacigeorgica
alkG -
Rubredoxin
2
(Two-iron
rubredoxin
); Function of strongly homologous gene; carrier; Belongs to the
rubredoxin
family.
[a.k.a. NOCYR_2726, CCF63495.1, H6R6Y2_NOCCG]
10)
Nocardia cyriacigeorgica
CCF63496.1 -
Rubredoxin
2
(Two-iron
rubredoxin
); Function of strongly homologous gene; carrier; Belongs to the
rubredoxin
family.
[a.k.a. NOCYR_2727, IPR018527, H6R6Y3_NOCCG]
11)
Methanocaldococcus jannaschii
MJ_0740 -
Rubredoxin
2
(rd2);
Rubredoxin
is a small nonheme, iron protein lacking acid- labile sulfide. Its single Fe, chelated to 4 Cys, functions as an electron acceptor and may also stabilize the conformation of the molecule (By similarity).
[a.k.a. AAB98734.1, Rubredoxin 2 (rd2), AAB98734]
12)
Methanobacterium congolense
dfx - Desulfoferrodoxin; Catalyzes the one-electron reduction of superoxide anion radical to hydrogen peroxide at a nonheme ferrous iron center. Plays a fundamental role in case of oxidative stress via its superoxide detoxification activity (By similarity). oxidized
rubredoxin
+ H(
2
)O(
2
). Name=Fe(3+); Xref=ChEBI:CHEBI:29034; Evidence=; Note=Binds 1 Fe(3+) ion per subunit. The iron ion 1 is coordinated via 4 cysteine residues; Name=Cu(
2
+); Xref=ChEBI:CHEBI:29036; Evidence=; Note=Binds 1 Fe(
2
+) ion per subunit. The iron ion
2
is coordinated via four histidines and one cysteine residue.; has a [...]
[a.k.a. MCBB_1262, SCG85820.1, 1.15.1.2]
13)
Clostridium acetobutylicum
rbr3B - Rubrerythrin; Functions as the terminal component of an NADH peroxidase (NADH:H(
2
)O(
2
) oxidoreductase) when using NADH:
rubredoxin
oxidoreductase (NROR) as the electron transport intermediary from NADH to revRbr
2
. Plays an important role in the oxidative stress defense system in C.acetobutylicum, an obligate anaerobic bacterium. Also exhibits NADH oxidase (NADH:O(
2
) oxidoreductase) activity in vitro, which is 100-fold lesser than that of FprA1/2 using the same electron transfer components. Therefore, its predominant function is most likely as a scavenger of its preferred substrate, H(
2
)O(
2
).
[a.k.a. CA_C3597, AAK81520.1, 1.11.1.1]
14)
Clostridium acetobutylicum
rubY - Rubrerythrin; Functions as the terminal component of an NADH peroxidase (NADH:H(
2
)O(
2
) oxidoreductase) when using NADH:
rubredoxin
oxidoreductase (NROR) as the electron transport intermediary from NADH to RubY.
[a.k.a. CA_C2575, AAK80524.1, cac:CA_C2575]
15)
Clostridium acetobutylicum
rbr2 - Rubrerythrin; Functions as the terminal component of an NADH peroxidase (NADH:H(
2
)O(
2
) oxidoreductase) when using NADH:
rubredoxin
oxidoreductase (NROR) as the electron transport intermediary from NADH to Rbr2.
[a.k.a. CA_C3018, AAK80959.1, 1.11.1.1]
16)
Methanobacterium congolense
rbr2 - Rubrerythrin-2; Functions as the terminal component of an NADH peroxidase (NADH:H(
2
)O(
2
) oxidoreductase) when using NADH:
rubredoxin
oxidoreductase (NROR) as the electron transport intermediary from NADH to Rbr2. Name=Fe(3+); Xref=ChEBI:CHEBI:29034; Evidence=; Note=Binds 3 Fe(3+) ions per subunit; rate by serving as an intermediary electron-transfer shuttle between NROR and Rbr2. stress (exposure to H(
2
)O(
2
)) and other stress factors such as salt, increased pH, high concentration of solvents or cold shock, do not lead to increased transcript levels of this gene. However, shows that rbr2 [...]
[a.k.a. SCG85291.1, MCBB_0720, NZ_LT607756.1]
17)
Methanothermobacter wolfeii
rbr2 - Rubrerythrin-2; Functions as the terminal component of an NADH peroxidase (NADH:H(
2
)O(
2
) oxidoreductase) when using NADH:
rubredoxin
oxidoreductase (NROR) as the electron transport intermediary from NADH to Rbr2. Name=Fe(3+); Xref=ChEBI:CHEBI:29034; Evidence=; Note=Binds 3 Fe(3+) ions per subunit; rate by serving as an intermediary electron-transfer shuttle between NROR and Rbr2. stress (exposure to H(
2
)O(
2
)) and other stress factors such as salt, increased pH, high concentration of solvents or cold shock, do not lead to increased transcript levels of this gene. However, shows that rbr2 [...]
[a.k.a. MWSIV6_1198, SCM57677.1, A0A1M4MSR4_METWO]
18)
Clostridium acetobutylicum
fprA1 - Flavoprotein; Catalyzes the four-electron reduction of molecular oxygen to water. In fact, functions as the terminal component of an NADH oxidase (NADH:O(
2
) oxidoreductase) when using NADH:
rubredoxin
oxidoreductase (NROR) and
rubredoxin
(Rd) as electron transport intermediaries between NADH and FDP. Is thus able to reductively scavenge intracellular dioxygen and is part of an oxidative stress defense system in C.acetobutylicum, an obligate anaerobic bacterium.
[a.k.a. AAK79003.1, CA_C1027, Flavoprotein]
19)
Clostridium acetobutylicum
fprA2 - Predicted flavoprotein; Catalyzes the four-electron reduction of molecular oxygen to water. In fact, functions as the terminal component of an NADH oxidase (NADH:O(
2
) oxidoreductase) when using NADH:
rubredoxin
oxidoreductase (NROR) and
rubredoxin
(Rd) as electron transport intermediaries between NADH and FDP. Is thus able to reductively scavenge intracellular dioxygen and is part of an oxidative stress defense system in C.acetobutylicum, an obligate anaerobic bacterium. Can also serve as the terminal component of an NADH:nitric oxide oxidoreductase (NOR) with a catalytic efficiency com [...]
[a.k.a. CA_C2449, AAK80403.1, FPRA2_CLOAB]
20)
Petrimonas mucosa
fprA1 - Flavo-diiron protein FprA1; Catalyzes the four-electron reduction of molecular oxygen to water. In fact, functions as the terminal component of an NADH oxidase (NADH:O(
2
) oxidoreductase) when using NADH:
rubredoxin
oxidoreductase (NROR) and
rubredoxin
(Rd) as electron transport intermediaries between NADH and FDP. Is thus able to reductively scavenge intracellular dioxygen and is part of an oxidative stress defense system in C.acetobutylicum, an obligate anaerobic bacterium. Name=FMN; Xref=ChEBI:CHEBI:58210; Evidence=; Note=Binds 1 FMN per subunit; Name=Fe cation; Xref=ChEBI:CHEBI:24875 [...]
[a.k.a. ING2E5A_1341, SCM57447.1, A0A1G4G6S6_9PORP]
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