1.3.1.31: 2-enoate reductase
This is an abbreviated version!
For detailed information about 2-enoate reductase, go to the full flat file.
Word Map on EC 1.3.1.31
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1.3.1.31
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alpha,beta-unsaturated
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tyrobutyricum
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spec
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bioreduction
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kluyveri
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beta-unsaturated
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methylviologen
- 1.3.1.31
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alpha,beta-unsaturated
- tyrobutyricum
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spec
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bioreduction
- kluyveri
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beta-unsaturated
- methylviologen
Reaction
Synonyms
Achr-OYE3, Achr-OYE4, acylate:NAD+ DELTA2 oxidoreductase, Dbr1, enoate reductase, ER-BC, ER-CA, ERED, ERED xenobiotic reductase B, fldZ, KpnER, KYE1, LacER, NAD(P)H-dependent enoate reductase, NADH-dependent 2-enoate reductase, NADPH dehydrogenase 1, NCR, old yellow enzyme, OPR1, OPR3, OYE, reductase, 2-enoate, SYE-4, XenA, XenB, yellow enzyme, Yers-ER, YqjM
ECTree
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Application
Application on EC 1.3.1.31 - 2-enoate reductase
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biotechnology
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enoate reductase(ER)-functionalized poplar powder(FPP) and glucose-6-phosphate dehydrogenase(GDH)-FPP enable the continuous conversion of 4-(4-methoxyphenyl)-3-buten-2-one with NAD+ recycling. The immobilization strategy is simple and inexpensive and exploits a method for the immobilization and application of enoate reductase and its cofactor recycling system
synthesis
2-methylsuccinic acid is a C5 branched-chain dicarboxylate that serves as an attractive synthon for the synthesis of polymers with extensive applications in coatings, cosmetic solvents and bioplastics. A promising platform for 2-methylsuccinic acid bioproduction is established. Over-expression of codon-optimized citramalate synthase variant CimA from Methanococcus jannaschii, endogenous isopropylmalate isomerase EcLeuCD and enoate reductase YqjM from Bacillus subtilis allows the production of 2-methylsuccinic acid in Escherichia coli. Incorporation of the enzyme (KpnER) into the 2-methylsuccinic acid biosynthetic pathway leads to 2-methylsuccinic acid production improvement to a titer of 0.96 g/l in aerobic condition
synthesis
2-methylsuccinic acid is a C5 branched-chain dicarboxylate that serves as an attractive synthon for the synthesis of polymers with extensive applications in coatings, cosmetic solvents and bioplastics. A promising platform for 2-methylsuccinic acid bioproduction is established. Over-expression of codon-optimized citramalate synthase variant CimA from Methanococcus jannaschii, endogenous isopropylmalate isomerase EcLeuCD and enoate reductase YqjM from Bacillus subtilis allows the production of 2-methylsuccinic acid in Escherichia coli. Incorporation of the enzyme (KpnER) into the 2-methylsuccinic acid biosynthetic pathway leads to 2-methylsuccinic acid production improvement to a titer of 0.96 g/l in aerobic condition
synthesis
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Bacillus sp. FM18civ1 can be useful for resolving a racemic mixture of carvone. Biotransformation of (4R)-(-)-carvone with Mentha pulegium leaves
synthesis
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hydrogenation activity of enoate reductases can potentially replace the chemical hydrogenation step in current synthetic protocols creating a completely bio-based pathway for the greener production of adipic acid or other biochemicals e.g. 3-phenylpropanoic acid from renewable feedstocks
synthesis
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hydrogenation activity of enoate reductases can potentially replace the chemical hydrogenation step in current synthetic protocols creating a completely bio-based pathway for the greener production of adipic acid or other biochemicals e.g. 3-phenylpropanoic acid from renewable feedstocks. High oxygen tolerance and thermostability make the enzyme useful for in vivo and in vitro applications to overcome the limitations of chemical catalysts
synthesis
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2-methylsuccinic acid is a C5 branched-chain dicarboxylate that serves as an attractive synthon for the synthesis of polymers with extensive applications in coatings, cosmetic solvents and bioplastics. A promising platform for 2-methylsuccinic acid bioproduction is established. Over-expression of codon-optimized citramalate synthase variant CimA from Methanococcus jannaschii, endogenous isopropylmalate isomerase EcLeuCD and enoate reductase YqjM from Bacillus subtilis allows the production of 2-methylsuccinic acid in Escherichia coli. Incorporation of the enzyme (KpnER) into the 2-methylsuccinic acid biosynthetic pathway leads to 2-methylsuccinic acid production improvement to a titer of 0.96 g/l in aerobic condition
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synthesis
Bacillus sp. (in: Bacteria) FM18civ1
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Bacillus sp. FM18civ1 can be useful for resolving a racemic mixture of carvone. Biotransformation of (4R)-(-)-carvone with Mentha pulegium leaves
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