1.3.1.6: fumarate reductase (NADH)
This is an abbreviated version!
For detailed information about fumarate reductase (NADH), go to the full flat file.
Word Map on EC 1.3.1.6
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1.3.1.6
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nitrate
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malate
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shewanella
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fad
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flavoproteins
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fumarase
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iron-sulfur
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succinogenes
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ascaris
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flavocytochrome
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helminth
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oneidensis
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wolinella
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viologen
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anthelmintic
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frigidimarina
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succinate-ubiquinone
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tetraheme
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menaquinol
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narghji
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thiabendazole
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sdhcdab
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c4-dicarboxylate
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geobacter
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flavinylation
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succinate:quinone
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dmsabc
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hymenolepis
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cyma
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putrefaciens
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medicine
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drug development
- 1.3.1.6
- nitrate
- malate
- shewanella
- fad
- flavoproteins
- fumarase
-
iron-sulfur
- succinogenes
- ascaris
-
flavocytochrome
-
helminth
- oneidensis
-
wolinella
- viologen
-
anthelmintic
- frigidimarina
-
succinate-ubiquinone
-
tetraheme
- menaquinol
-
narghji
- thiabendazole
- sdhcdab
-
c4-dicarboxylate
- geobacter
-
flavinylation
-
succinate:quinone
- dmsabc
-
hymenolepis
-
cyma
- putrefaciens
- medicine
- drug development
Reaction
Synonyms
ABB37_00293, FRD, FRdABCD, FRDg, FRDm1, FRDm2, FRDS, Frds1p, fumarate reductase, KPA86010, KPK_2907, mitochondrial rhodoquinol-fumarate reductase, NADH-dependent fumarate reductase, NADH-FR, NADH-FRD, NADH-fumarate reductase, NFRD, QFR
ECTree
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Natural Substrates Products
Natural Substrates Products on EC 1.3.1.6 - fumarate reductase (NADH)
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REACTION DIAGRAM
fumarate + NADH + H+
succinate + NAD+
enzyme is required for optimal growth in presence of heme, enzyme plays a role in the generation of metabolic energy
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?
fumarate + NADH + H+
succinate + NAD+
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may replace oxygen as terminal elecron acceptor
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?
fumarate + NADH + H+
succinate + NAD+
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realizes formation of succinate from oxalacetate
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?
fumarate + NADH + H+
succinate + NAD+
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component of respiratory chain
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?
fumarate + NADH + H+
succinate + NAD+
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component of respiratory chain
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?
fumarate + NADH + H+
succinate + NAD+
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realizes formation of succinate from oxalacetate
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?
fumarate + NADH + H+
succinate + NAD+
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physiological role in redox balancing during anaerobiosis, both isozymes are required for reoxidation of intracellular NADH
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-
?
fumarate + NADH + H+
succinate + NAD+
involved in energy metabolism by maintaining the NAD+/NADH balance in glyoxysomes, main source of succinate production
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?
fumarate + NADH + H+
succinate + NAD+
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parasite-specific enzyme, succinate is one of the main respiratory substrates and is therefore required by the parasite for energy production
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?
succinate + NAD+
fumarate + NADH + H+
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r