1.14.14.96: 5-O-(4-coumaroyl)-D-quinate 3'-monooxygenase
This is an abbreviated version!
For detailed information about 5-O-(4-coumaroyl)-D-quinate 3'-monooxygenase, go to the full flat file.
Word Map on EC 1.14.14.96
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1.14.14.96
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prostaglandin
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cyclooxygenase
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celecoxib
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nsaid
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nonsteroidal
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arachidonic
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nf-kappab
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rofecoxib
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lipopolysaccharide
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prostanoids
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indomethacin
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il-1beta
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lps-induced
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nonselective
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thromboxane
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chemoprevention
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aspirin
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prostacyclin
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ibuprofen
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eicosanoids
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interleukin-1beta
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lps-stimulated
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signal-regulated
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naproxen
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analgesic
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diclofenac
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placebo
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rheumatoid
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microvessels
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meloxicam
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coxibs
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nimesulide
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factor-kappab
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osteoarthritis
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polyp
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adenomatous
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6-keto-prostaglandin
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synthase-1
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hyperalgesia
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piroxicam
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5-lipoxygenase
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polyposis
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macula
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ulcerogenic
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gastroprotective
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densa
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carrageenan-induced
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cyclo-oxygenase-2
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il-1beta-induced
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biofuel production
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mpges-1
- 1.14.14.96
- prostaglandin
-
cyclooxygenase
- celecoxib
-
nsaid
-
nonsteroidal
-
arachidonic
-
nf-kappab
- rofecoxib
- lipopolysaccharide
-
prostanoids
- indomethacin
-
il-1beta
-
lps-induced
-
nonselective
-
thromboxane
-
chemoprevention
- aspirin
- prostacyclin
- ibuprofen
-
eicosanoids
-
interleukin-1beta
-
lps-stimulated
-
signal-regulated
- naproxen
-
analgesic
- diclofenac
-
placebo
-
rheumatoid
-
microvessels
- meloxicam
-
coxibs
- nimesulide
-
factor-kappab
-
osteoarthritis
-
polyp
-
adenomatous
-
6-keto-prostaglandin
-
synthase-1
-
hyperalgesia
- piroxicam
-
5-lipoxygenase
-
polyposis
-
macula
-
ulcerogenic
-
gastroprotective
-
densa
-
carrageenan-induced
-
cyclo-oxygenase-2
-
il-1beta-induced
- biofuel production
- mpges-1
Reaction
Synonyms
5-O-(4-coumaroyl)-D-quinate/shikimate 3'-hydroxylase, coumaroylquinate (coumaroylshikimate) 3'-monooxygenase, EC 1.14.13.36, p-coumaroyl quinate/shikimate 3'-hydroxylase
ECTree
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Application
Application on EC 1.14.14.96 - 5-O-(4-coumaroyl)-D-quinate 3'-monooxygenase
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biofuel production
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lignocellulosic materials provide an attractive replacement for food-based crops used to produce ethanol. Understanding the interactions within the cell wall is vital to overcome the highly recalcitrant nature of biomass. One factor imparting plant cell wall recalcitrance is lignin, which can be manipulated by making changes in the lignin biosynthetic pathway. Eucalyptus trees with down-regulated cinnamate 4-hydroxylase (C4H) or p-coumaroyl quinate/shikimate 3'-hydroxylase (C3'H) expression display lowered overall lignin content. Lowering lignin content rather than altering sinapyl alcohol/coniferyl alcohol/4-coumaryl alcohol ratios is found to have the largest impact on reducing recalcitrance of the transgenic eucalyptus variants. The development of lower recalcitrance trees opens up the possibility of using alternative pretreatment strategies in biomass conversion processes that can reduce processing costs