1.3.1.86: crotonyl-CoA reductase
This is an abbreviated version!
For detailed information about crotonyl-CoA reductase, go to the full flat file.
Word Map on EC 1.3.1.86
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1.3.1.86
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polyketide
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butyryl-coa
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ethylmalonyl-coas
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macrolide
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collinus
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cinnamonensis
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streptomycetes
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monensin
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icl
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acetoacetyl-coa
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straight-chain
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salinomycin
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tylactone
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poly3-hydroxybutyrate
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oil-based
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poly3-hydroxybutyrate-co-3-hydroxyhexanoate
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avermitilis
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tylosin
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fradiae
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mycaminose
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enoyl-coa
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3-hydroxyhexanoate
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isobutyryl-coa
- 1.3.1.86
- polyketide
- butyryl-coa
- ethylmalonyl-coas
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macrolide
- collinus
- cinnamonensis
- streptomycetes
- monensin
- icl
- acetoacetyl-coa
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straight-chain
- salinomycin
- tylactone
-
poly3-hydroxybutyrate
-
oil-based
-
poly3-hydroxybutyrate-co-3-hydroxyhexanoate
- avermitilis
- tylosin
- fradiae
-
mycaminose
- enoyl-coa
- 3-hydroxyhexanoate
- isobutyryl-coa
Reaction
Synonyms
3-hydroxyacyl CoA reductase, acyl-CoA:NADP+ trans-2-oxidoreductase, bcd2, butanoyl-CoA:(acceptor) 2,3-oxidoreductase, butyryl coenzyme A dehydrogenase, butyryl dehydrogenase, butyryl-CoA dehydrogenase, butyryl-CoA dehydrogenase complex, CCR, CD1054, crotonyl CoA reductase, crotonyl coenzyme A reductase, crotonyl-CoA reductase, crotonyl-coenzyme A reductase, EgTER1, enoyl-coenzyme A reductase, ethylene reductase, short-chain acyl CoA dehydrogenase, short-chain acyl-coenzyme A dehydrogenase, trans-crotonyl CoA reductase, unsaturated acyl coenzyme A reductase, unsaturated acyl-CoA reductase
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General Information
General Information on EC 1.3.1.86 - crotonyl-CoA reductase
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malfunction
metabolism
physiological function
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loss of ccr leads to lower levels of the monensin precursor methymalonyl-CoA, relative to coenzyme A
malfunction
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loss of ccr leads to lower levels of the monensin precursor methymalonyl-CoA, relative to coenzyme A
malfunction
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the ability of the ccr deletion mutant of Streptomyces collinus to grow on acetate is dramatically reduced
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butyryl-CoA dehydrogenase from C. difficile belongs to the subfamily of bifurcating enzymes capable of coupling the exergonic reduction of crotonyl-CoA by NAD Hwith the endergonic reduction of ferredoxin by NADH
metabolism
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the genes necessary for butyrate formation from the genome of Clostridium difficile are expressed in Escherichia coli. The individual genes are assembled in a single plasmid vector into an artificial operon , which allows functional coexpression of the required genes and confers butyrate-forming capability to the host
metabolism
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butyryl-CoA dehydrogenase from C. difficile belongs to the subfamily of bifurcating enzymes capable of coupling the exergonic reduction of crotonyl-CoA by NAD Hwith the endergonic reduction of ferredoxin by NADH
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metabolism
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the genes necessary for butyrate formation from the genome of Clostridium difficile are expressed in Escherichia coli. The individual genes are assembled in a single plasmid vector into an artificial operon , which allows functional coexpression of the required genes and confers butyrate-forming capability to the host
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CCR and the butyryl-CoA pathway provide the majority of methylmalonyl-CoA and ethylmalonyl-CoA for monensin A biosynthesis
physiological function
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CCR plays a significant role in providing methylmalonyl-CoA for monensin biosynthesis in oil-based 10-day fermentations of Streptomyces cinnamonensis
physiological function
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CCR plays a significant role in providing methylmalonyl-CoA for monensin biosynthesis in oil-based 10-day fermentations of Streptomyces cinnamonensis
physiological function
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CCR provides butyryl-CoA precursor for monensin A biosynthesis
physiological function
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in streptomycetes, Ccr catalyzes the last step in the reductive biosynthesis of butyryl-CoA from two molecules of acetyl-CoA
physiological function
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the ccr gene is involved in a novel butytryl-CoA pathway for the growth of Streptomyces collinus when acetate is its sole carbon source
physiological function
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the enzyme plays a role in providing butyryl-CoA as a starter unit for straight-chain fatty acid biosynthesis
physiological function
the enzyme (EgTER1) is involved in the greening process. It is dispensable for wax ester production under anaerobic conditions