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IUBMB Comments Isolated from Malus X domestica (apple). Involved in dihydrochalcone biosynthesis.
The expected taxonomic range for this enzyme is: Malus domestica
Synonyms hydroxycinnamoyl-coa double bond reductase, more
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hydroxycinnamoyl-CoA double bond reductase
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dihydro-4-coumaroyl-CoA + NADP+ = trans-4-coumaroyl-CoA + NADPH + H+
(1)
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dihydroferuloyl-CoA + NADP+ = trans-feruloyl-CoA + NADPH + H+
(2)
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MetaCyc
flavonoid di-C-glucosylation, phloridzin biosynthesis
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dihydro-4-coumaroyl-CoA:NADP+ 2,3-oxidoreductase
Isolated from Malus X domestica (apple). Involved in dihydrochalcone biosynthesis.
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trans-4-coumaroyl-CoA + NADPH + H+
dihydro-4-coumaroyl-CoA + NADP+
trans-feruloyl-CoA + NADPH + H+
dihydroferuloyl-CoA + NADP+
trans-4-coumaroyl-CoA + NADPH + H+
dihydro-4-coumaroyl-CoA + NADP+
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Substrates: - Products: -
?
trans-4-coumaroyl-CoA + NADPH + H+
dihydro-4-coumaroyl-CoA + NADP+
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Substrates: enzyme prefers feruloyl-CoA to p-coumaroyl-CoA by a factor of 2.1 Products: -
?
trans-feruloyl-CoA + NADPH + H+
dihydroferuloyl-CoA + NADP+
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Substrates: - Products: -
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trans-feruloyl-CoA + NADPH + H+
dihydroferuloyl-CoA + NADP+
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Substrates: enzyme prefers feruloyl-CoA to p-coumaroyl-CoA by a factor of 2.1 Products: -
?
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trans-4-coumaroyl-CoA + NADPH + H+
dihydro-4-coumaroyl-CoA + NADP+
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Substrates: enzyme prefers feruloyl-CoA to p-coumaroyl-CoA by a factor of 2.1 Products: -
?
trans-feruloyl-CoA + NADPH + H+
dihydroferuloyl-CoA + NADP+
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Substrates: enzyme prefers feruloyl-CoA to p-coumaroyl-CoA by a factor of 2.1 Products: -
?
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0.101
NADPH
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pH 50, 35°C
0.097
trans-4-coumaroyl-CoA
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pH 50, 35°C
0.093
trans-feruloyl-CoA
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pH 50, 35°C
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0.0023
NADPH
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pH 50, 35°C
0.0019
trans-4-coumaroyl-CoA
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pH 50, 35°C
0.0042
trans-feruloyl-CoA
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pH 50, 35°C
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6.9
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calculated from sequence
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brenda
Highest Expressing Human Cell Lines
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x * 38400, SDS-PAGE and calculated from sequence
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expression in Escherichia coli
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Ibdah, M.; Berim, A.; Martens, S.; Valderrama, A.L.; Palmieri, L.; Lewinsohn, E.; Gang, D.R.
Identification and cloning of an NADPH-dependent hydroxycinnamoyl-CoA double bond reductase involved in dihydrochalcone formation in Malus x domestica Borkh
Phytochemistry
107
24-31
2014
Malus domestica
brenda
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