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1-methylphenylacetaldehyde + NAD+ + H2O
1-methylphenylacetate + NADH + 2 H+
1-naphthaldehyde + NAD+ + H2O
1-naphthoate + NADH + H+
-
24% activity relative to phenylacetaldehyde
-
-
?
3,4-dihydroxyphenylacetaldehyde + NAD+ + H2O
3,4-dihydroxyphenylacetate + NADH + H+
-
-
-
-
?
3-phenylpropionaldehyde + NAD+ + H2O
3-phenylpropionate + NADH + H+
-
34% activity relative to phenylacetaldehyde
-
-
?
4-chlorophenylacetaldehyde + NAD+ + H2O
4-chlorophenylacetate + NADH + 2 H+
4-fluorophenylacetaldehyde + NAD+ + H2O
4-fluorophenylacetate + NADH + 2 H+
4-hydroxyphenylacetaldehyde + NAD+ + H2O
4-hydroxyphenylacetate + NADH + H+
acetaldehyde + NAD+ + H2O
acetate + NADH + H+
-
-
-
-
?
benzaldehyde + NAD+ + H2O
benzoate + NADH + H+
decanal + NAD+ + H2O
decanoate + NADH + H+
-
17% activity relative to phenylacetaldehyde
-
-
?
heptanal + NAD+ + H2O
heptanoate + NADH
-
-
-
-
?
hexanal + NAD+ + H2O
hexanoate + NADH + H+
indoleacetaldehyde + NAD+ + H2O
indoleacetate + NADH
Achromobacter eurydice
-
slow reaction
-
-
?
n-butyraldehyde + NAD+ + H2O
n-butyrate + NADH
Achromobacter eurydice
-
slow reaction
-
-
?
octanal + NAD+ + H2O
octanoate + NADH + H+
phenylacetaldehyde + NAD+ + H2O
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
phenylacetaldehyde + NAD+ + H2O
phenylacetic acid + NADH + H+
-
-
-
?
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + H+
-
-
-
-
?
propionaldehyde + NAD+ + H2O
propionate + NADH
additional information
?
-
1-methylphenylacetaldehyde + NAD+ + H2O
1-methylphenylacetate + NADH + 2 H+
lowest activity
-
-
?
1-methylphenylacetaldehyde + NAD+ + H2O
1-methylphenylacetate + NADH + 2 H+
-
lowest activity
-
-
?
1-methylphenylacetaldehyde + NAD+ + H2O
1-methylphenylacetate + NADH + 2 H+
-
lowest activity
-
-
?
1-methylphenylacetaldehyde + NAD+ + H2O
1-methylphenylacetate + NADH + 2 H+
-
lowest activity
-
-
?
1-methylphenylacetaldehyde + NAD+ + H2O
1-methylphenylacetate + NADH + 2 H+
-
lowest activity
-
-
?
1-methylphenylacetaldehyde + NAD+ + H2O
1-methylphenylacetate + NADH + 2 H+
lowest activity
-
-
?
1-methylphenylacetaldehyde + NAD+ + H2O
1-methylphenylacetate + NADH + 2 H+
lowest activity
-
-
?
4-chlorophenylacetaldehyde + NAD+ + H2O
4-chlorophenylacetate + NADH + 2 H+
-
-
-
?
4-chlorophenylacetaldehyde + NAD+ + H2O
4-chlorophenylacetate + NADH + 2 H+
high activity
-
-
?
4-chlorophenylacetaldehyde + NAD+ + H2O
4-chlorophenylacetate + NADH + 2 H+
-
-
-
-
?
4-chlorophenylacetaldehyde + NAD+ + H2O
4-chlorophenylacetate + NADH + 2 H+
-
-
-
-
?
4-chlorophenylacetaldehyde + NAD+ + H2O
4-chlorophenylacetate + NADH + 2 H+
-
-
-
-
?
4-chlorophenylacetaldehyde + NAD+ + H2O
4-chlorophenylacetate + NADH + 2 H+
-
-
-
-
?
4-chlorophenylacetaldehyde + NAD+ + H2O
4-chlorophenylacetate + NADH + 2 H+
highest activity
-
-
?
4-fluorophenylacetaldehyde + NAD+ + H2O
4-fluorophenylacetate + NADH + 2 H+
-
-
-
?
4-fluorophenylacetaldehyde + NAD+ + H2O
4-fluorophenylacetate + NADH + 2 H+
high activity
-
-
?
4-fluorophenylacetaldehyde + NAD+ + H2O
4-fluorophenylacetate + NADH + 2 H+
-
highest activity
-
-
?
4-fluorophenylacetaldehyde + NAD+ + H2O
4-fluorophenylacetate + NADH + 2 H+
-
highest activity
-
-
?
4-fluorophenylacetaldehyde + NAD+ + H2O
4-fluorophenylacetate + NADH + 2 H+
-
-
-
-
?
4-fluorophenylacetaldehyde + NAD+ + H2O
4-fluorophenylacetate + NADH + 2 H+
high activity
-
-
?
4-hydroxyphenylacetaldehyde + NAD+ + H2O
4-hydroxyphenylacetate + NADH + H+
-
-
-
-
?
4-hydroxyphenylacetaldehyde + NAD+ + H2O
4-hydroxyphenylacetate + NADH + H+
-
-
-
?
benzaldehyde + NAD+ + H2O
benzoate + NADH + H+
-
54% activity relative to phenylacetaldehyde
-
-
?
benzaldehyde + NAD+ + H2O
benzoate + NADH + H+
-
54% activity relative to phenylacetaldehyde
-
-
?
benzaldehyde + NAD+ + H2O
benzoate + NADH + H+
-
-
-
-
?
hexanal + NAD+ + H2O
hexanoate + NADH + H+
-
21% activity relative to phenylacetaldehyde
-
-
?
hexanal + NAD+ + H2O
hexanoate + NADH + H+
-
21% activity relative to phenylacetaldehyde
-
-
?
hexanal + NAD+ + H2O
hexanoate + NADH + H+
-
-
-
-
?
octanal + NAD+ + H2O
octanoate + NADH + H+
-
31% activity relative to phenylacetaldehyde
-
-
?
octanal + NAD+ + H2O
octanoate + NADH + H+
-
31% activity relative to phenylacetaldehyde
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
Achromobacter eurydice
-
inducible enzyme appears when cells are grown on L-phenylalanine or on L-tryptophan as sole source of carbon
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
involved in degradation of styrene
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
Bacteria S5
-
involved in degradation of styrene
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
inducible enzyme of 2-phenylethylamine catabolism
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
a positive regulatory protein required for expression of phenylacetaldehyde dehydrogenase is located next to the PAD gene
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in the catabolism of 2-phenylethylamine
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
involved in DL-phenylacrylic acid and phenylacetic acid catabolism
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in degradation of styrene. Low constitutive levels of NAD+-dependent phenylacetaldehyde dehydrogenase
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in degradation of styrene. Low constitutive levels of NAD+-dependent phenylacetaldehyde dehydrogenase
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in metabolism of atropine
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in metabolism of atropine
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in the anaerobic metabolism of L-phenylalanine
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
inolved in degradation of styrene oxide and 2-phenylethanol
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
inolved in degradation of styrene oxide and 2-phenylethanol
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
r
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
r
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
highest activity
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
highest activity
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
highest activity
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
highest activity
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
highest activity
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
Achromobacter eurydice
-
highly specific for phenylacetaldehyde, NADP+ is about 1% as active as NAD+
-
ir
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
Bacteria S5
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
best substrate
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
best substrate
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
the enzyme participates in metabolism of phenylalanine
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
rate-limiting step is the hydride transfer
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
-
-
-
r
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
-
-
-
r
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
10.6% activity compared to NAD+
-
-
?
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
11% activity compared to NAD+
-
-
?
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
-
31.7% activity compared to NAD+
-
-
?
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
-
31.7% activity compared to NAD+
-
-
?
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
-
29.5% activity compared to NAD+
-
-
?
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
-
29.5% activity compared to NAD+
-
-
?
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
4% activity compared to NAD+
-
-
?
phenylacetaldehyde + NADP+ + H2O
phenylacetate + NADPH + 2 H+
4% activity compared to NAD+
-
-
?
propionaldehyde + NAD+ + H2O
propionate + NADH
Achromobacter eurydice
-
slow reaction
-
-
?
propionaldehyde + NAD+ + H2O
propionate + NADH
-
-
-
-
?
additional information
?
-
enzyme is highly specific for phenylacetaldehyde, has cooperative kinetics toward the substrate, and shows considerable substrate inhibition. No activity with benzaldehyde and indole-3-carbaldehyde, substrate specificity, overview
-
-
?
additional information
?
-
-
enzyme is highly specific for phenylacetaldehyde, has cooperative kinetics toward the substrate, and shows considerable substrate inhibition. No activity with benzaldehyde and indole-3-carbaldehyde, substrate specificity, overview
-
-
?
additional information
?
-
enzyme is highly specific for phenylacetaldehyde, has cooperative kinetics toward the substrate, and shows considerable substrate inhibition. No activity with benzaldehyde and indole-3-carbaldehyde, substrate specificity, overview
-
-
?
additional information
?
-
no activity with phenazine methosulfate
-
-
-
additional information
?
-
no activity with phenazine methosulfate
-
-
-
additional information
?
-
no activity with phenazine methosulfate
-
-
-
additional information
?
-
no activity with phenazine methosulfate
-
-
-
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4-hydroxyphenylacetaldehyde + NAD+ + H2O
4-hydroxyphenylacetate + NADH + H+
phenylacetaldehyde + NAD+ + H2O
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
phenylacetaldehyde + NAD+ + H2O
phenylacetic acid + NADH + H+
-
-
-
?
4-hydroxyphenylacetaldehyde + NAD+ + H2O
4-hydroxyphenylacetate + NADH + H+
-
-
-
-
?
4-hydroxyphenylacetaldehyde + NAD+ + H2O
4-hydroxyphenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
Achromobacter eurydice
-
inducible enzyme appears when cells are grown on L-phenylalanine or on L-tryptophan as sole source of carbon
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
involved in degradation of styrene
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
Bacteria S5
-
involved in degradation of styrene
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
inducible enzyme of 2-phenylethylamine catabolism
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
a positive regulatory protein required for expression of phenylacetaldehyde dehydrogenase is located next to the PAD gene
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in the catabolism of 2-phenylethylamine
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
involved in DL-phenylacrylic acid and phenylacetic acid catabolism
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in degradation of styrene. Low constitutive levels of NAD+-dependent phenylacetaldehyde dehydrogenase
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in degradation of styrene. Low constitutive levels of NAD+-dependent phenylacetaldehyde dehydrogenase
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in metabolism of atropine
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in metabolism of atropine
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
enzyme is involved in the anaerobic metabolism of L-phenylalanine
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
inolved in degradation of styrene oxide and 2-phenylethanol
-
-
?
phenylacetaldehyde + NAD+ + H2O
?
-
inolved in degradation of styrene oxide and 2-phenylethanol
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
r
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
r
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + 2 H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
the enzyme participates in metabolism of phenylalanine
-
-
?
phenylacetaldehyde + NAD+ + H2O
phenylacetate + NADH + H+
-
-
-
?
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Schneider, S.; Mohamed, M.E.S.; Fuchs, G.
Anaerobic metabolism of L-phenylalanine via benzoyl-CoA in the denitrifying bacterium Thauera aromatica
Arch. Microbiol.
168
310-320
1997
Thauera aromatica
brenda
Van den Tweel, W.J.J.; Smits, J.P.; de Bont, J.A.M.
Catabolism of DL-alpha-phenylhydracrylic, phenylacetic and 3- and 4-hydroxyphenylacetic acid via homogentisic acid in a Flavobacterium sp.
Arch. Microbiol.
149
207-213
1988
Flavobacterium sp.
-
brenda
Fujioka, M.; Morino, Y.; Wada, H.
Metabolism of phenylalanine (Achromobacter eurydice)
Methods Enzymol.
17A
585-596
1970
Achromobacter eurydice
-
brenda
Hartmans, S.; van der Werf, M.J.; de Bont, J.A.M.
Bacterial degradation of styrene involving a novel flavin adenine dinucleotide-dependent styrene monooxygenase
Appl. Environ. Microbiol.
56
1347-1351
1990
Bacteria, Bacteria S5
brenda
Hartmans, S.; Smits, J.P.; van der Werf, M.J.; Volkering, F.; de Bont, J.A.M.
Metabolism of styrene oxide and 2-phenylethanol in the styrene-degrading Xanthobacter strain 124X
Appl. Environ. Microbiol.
55
2850-2855
1989
Xanthobacter sp., Xanthobacter sp. 124X
brenda
Parrott, S.; Jones, S.; Cooper, R.A.
2-Phenylethylamine catabolism by Escherichia coli K12
J. Gen. Microbiol.
133
347-351
1987
Escherichia coli
brenda
Long, M.T.; Bartholomew, B.A.; Smith, M.J.; Trudgill, P.W.; Hopper, D.J.
Enzymology of oxidation of tropic acid to phenylacetic acid in metabolism of atropine by Pseudomonas sp. strain AT3
J. Bacteriol.
179
1044-1050
1997
Pseudomonas sp., Pseudomonas sp. AT3
brenda
Ferrandez, A.; Prieto, M.A.; Garcia, J.L.; Diaz, E.
Molecular characterization of PadA, a phenylacetaldehyde dehydrogenase from Escherichia coli
FEBS Lett.
406
23-27
1997
Escherichia coli
brenda
Hanlon, S.P.; Hill, T.K.; Flavell, M.A.; Stringfellow, J.M.; Cooper, R.A.
2-Phenylethylamine catabolism by Escherichia coli K-12: gene organization and expression
Microbiology
143
513-518
1997
Escherichia coli
brenda
O'Connor, K.; Duetz, W.; Wind, B.; Dobson, A.D.W.
The effect of nutrient limitation on styrene metabolism in Pseudomonas putida CA-3
Appl. Environ. Microbiol.
62
3594-3599
1996
Pseudomonas putida, Pseudomonas putida CA-3
brenda
Rodriguez-Zavala, J.S.; Allali-Hassani, A.; Weiner, H.
Characterization of E. coli tetrameric aldehyde dehydrogenases with atypical properties compared to other aldehyde dehydrogenases
Protein Sci.
15
1387-1396
2006
Escherichia coli
brenda
Arias, S.; Olivera, E.R.; Arcos, M.; Naharro, G.; Luengo, J.M.
Genetic analyses and molecular characterization of the pathways involved in the conversion of 2-phenylethylamine and 2-phenylethanol into phenylacetic acid in Pseudomonas putida U
Environ. Microbiol.
10
413-432
2008
Pseudomonas putida, Pseudomonas putida (B1N7H3)
brenda
Hirano, J.; Miyamoto, K.; Ohta, H.
Purification and characterization of aldehyde dehydrogenase with a broad substrate specificity originated from 2-phenylethanol-assimilating Brevibacterium sp. KU1309
Appl. Microbiol. Biotechnol.
76
357-363
2007
Brevibacterium sp., Brevibacterium sp. KU1309
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Koma, D.; Yamanaka, H.; Moriyoshi, K.; Ohmoto, T.; Sakai, K.
Production of aromatic compounds by metabolically engineered Escherichia coli with an expanded shikimate pathway
Appl. Environ. Microbiol.
78
6203-6216
2012
Escherichia coli (P80668), Escherichia coli
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Satoh, Y.; Tajima, K.; Munekata, M.; Keasling, J.D.; Lee, T.S.
Engineering of a tyrosol-producing pathway, utilizing simple sugar and the central metabolic tyrosine, in Escherichia coli
J. Agric. Food Chem.
60
979-984
2012
Escherichia coli
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Crabo, A.G.; Singh, B.; Nguyen, T.; Emami, S.; Gassner, G.T.; Sazinsky, M.H.
Structure and biochemistry of phenylacetaldehyde dehydrogenase from the Pseudomonas putida S12 styrene catabolic pathway
Arch. Biochem. Biophys.
616
47-58
2017
Pseudomonas putida (V4GH04), Pseudomonas putida, Pseudomonas putida S12 (V4GH04), Pseudomonas putida S12
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Debnar-Daumler, C.; Seubert, A.; Schmitt, G.; Heider, J.
Simultaneous involvement of a tungsten-containing aldehyde ferredoxin oxidoreductase and a phenylacetaldehyde dehydrogenase in anaerobic phenylalanine metabolism
J. Bacteriol.
196
483-492
2014
Aromatoleum aromaticum (Q5P171), Aromatoleum aromaticum, Aromatoleum aromaticum EbN1 (Q5P171)
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Zimmerling, J.; Tischler, D.; Grossmann, C.; Schloemann, M.; Oelschlaegel, M.
Characterization of aldehyde dehydrogenases applying an enzyme assay with in situ formation of phenylacetaldehydes
Appl. Biochem. Biotechnol.
182
1095-1107
2017
Escherichia coli (P80668)
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Zimmerling, J.; Oelschlaegel, M.; Grossmann, C.; Voitel, M.; Schloemann, M.; Tischler, D.
Biochemical characterization of phenylacetaldehyde dehydrogenases from styrene-degrading soil bacteria
Appl. Biochem. Biotechnol.
193
650-667
2021
Gordonia rubripertincta, Rhodococcus opacus, Sphingopyxis fribergensis (A0A0A7PB40), Escherichia coli (P80668), Gordonia rubripertincta CWB2, Rhodococcus opacus 1CP, Sphingopyxis fribergensis Kp5.2 (A0A0A7PB40)
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