5.3.99.7: styrene-oxide isomerase
This is an abbreviated version!
For detailed information about styrene-oxide isomerase, go to the full flat file.
Word Map on EC 5.3.99.7
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5.3.99.7
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silicon-on-insulator
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fabric
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silicon
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waveguide
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photon
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wafer
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grate
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coupler
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grating
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spin-orbit
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bandwidth
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etch
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homeless
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semiconductor
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lithography
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nanowire
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monolith
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mach-zehnder
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transistor
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bragg
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interferometer
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on-chip
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toronto
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nanophotonic
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reflector
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adiabatic
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phenylacetaldehyde
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metal-oxide-semiconductor
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photodetectors
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splitter
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microring
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clad
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single-mode
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field-effect
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epitaxial
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heater
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diagnosis-related
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micromachined
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piezoresistive
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sub-wavelength
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winnipeg
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finite-difference
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foundry
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synthesis
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c-band
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telecommunication
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heterostructures
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low-loss
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lasing
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germanium
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all-optical
- 5.3.99.7
-
silicon-on-insulator
-
fabric
-
silicon
-
waveguide
-
photon
-
wafer
-
grate
-
coupler
-
grating
-
spin-orbit
-
bandwidth
-
etch
-
homeless
-
semiconductor
-
lithography
-
nanowire
-
monolith
-
mach-zehnder
-
transistor
-
bragg
-
interferometer
-
on-chip
-
toronto
-
nanophotonic
-
reflector
-
adiabatic
- phenylacetaldehyde
-
metal-oxide-semiconductor
-
photodetectors
-
splitter
-
microring
-
clad
-
single-mode
-
field-effect
-
epitaxial
-
heater
-
diagnosis-related
-
micromachined
-
piezoresistive
-
sub-wavelength
-
winnipeg
-
finite-difference
-
foundry
- synthesis
-
c-band
-
telecommunication
-
heterostructures
-
low-loss
-
lasing
-
germanium
-
all-optical
Reaction
Synonyms
isomerase, styrene oxide, SOI, SOOI, StyC, styrene oxide isomerase
ECTree
Advanced search results
Substrates Products
Substrates Products on EC 5.3.99.7 - styrene-oxide isomerase
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REACTION DIAGRAM
(R,S)-4-chlorostyrene oxide
4-chlorophenylacetaldehyde
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low activity
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?
6,6a-dihydro-1aH-indeno[1,2-b]oxirene
1,3-dihydro-2H-inden-2-one
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45% of the activity with 2-phenyloxirane
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?
phenylacetaldehyde
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45% of activity compared to (S)-styrene oxide and (R,S)-styrene oxide
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?
(R)-styrene oxide
phenylacetaldehyde
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45% of activity compared to (S)-styrene oxide and (R,S)-styrene oxide
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-
?
(R,S)-4-bromostyrene oxide
4-bromophenylacetaldehyde
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low activity
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?
3,4-dihydronaphthalen-2(1H)-one
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0.5% of the activity with 2-phenyloxirane
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?
1a,2,3,7b-tetrahydronaphtho[1,2-b]oxirene
3,4-dihydronaphthalen-2(1H)-one
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0.5% of the activity with 2-phenyloxirane
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?
(4-chlorophenyl)acetaldehyde
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3.7% of the activity with 2-phenyloxirane
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?
2-(4-chlorophenyl)oxirane
(4-chlorophenyl)acetaldehyde
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3.7% of the activity with 2-phenyloxirane
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?
(4-methylphenyl)acetaldehyde
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113% of the activity with 2-phenyloxirane
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?
2-(4-methylphenyl)oxirane
(4-methylphenyl)acetaldehyde
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113% of the activity with 2-phenyloxirane
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2-phenylbutanal
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7.6% of the activity with 2-phenyloxirane
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?
2-ethyl-2-phenyloxirane
2-phenylbutanal
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7.6% of the activity with 2-phenyloxirane
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?
hydratropaldehyde
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15% of the activity with 2-phenyloxirane
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?
2-methyl-2-phenyloxirane
hydratropaldehyde
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15% of the activity with 2-phenyloxirane
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?
styrene oxide + H2O
phenylacetaldehyde
aerobic bacterium (strain S5)
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enzyme is involved in the pathway of styrene degradation
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?
styrene oxide + H2O
phenylacetaldehyde
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compared with the (R)-isomer, the relative activity of the enzyme towards (R)-styrene oxide is 51% of that for the (S)-isomer
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?
styrene oxide + H2O
phenylacetaldehyde
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key enzyme of styrene and styrene oxide metabolism
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ir
styrene oxide + H2O
phenylacetaldehyde
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compared with the (R)-isomer, the relative activity of the enzyme towards (R)-styrene oxide is 51% of that for the (S)-isomer
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?
styrene oxide + H2O
phenylacetaldehyde
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key enzyme of styrene and styrene oxide metabolism
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ir
styrene oxide + H2O
phenylacetaldehyde
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enzyme is involved in the pathway of styrene degradation
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?
styrene oxide + H2O
phenylacetaldehyde
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styrene, styrene oxide, and phenylacetaldehyde induce the enzymes involved in the degradation of styrene to phenylacetic acid, glucose has no effect
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?
styrene oxide + H2O
phenylacetaldehyde
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enzyme is involved in the pathway of styrene degradation
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?
styrene oxide + H2O
phenylacetaldehyde
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styrene, styrene oxide, and phenylacetaldehyde induce the enzymes involved in the degradation of styrene to phenylacetic acid, glucose has no effect
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?
styrene oxide + H2O
phenylacetaldehyde
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equilibrium constant favors phenylacetaldehyde formation
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r
styrene oxide + H2O
phenylacetaldehyde
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equilibrium constant favors phenylacetaldehyde formation
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r
?
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the enzyme shows the ability to convert a spectrum of substituted styrene oxides
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additional information
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the enzyme shows the ability to convert a spectrum of substituted styrene oxides
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?