1.11.2.3: plant seed peroxygenase
This is an abbreviated version!
For detailed information about plant seed peroxygenase, go to the full flat file.
Word Map on EC 1.11.2.3
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1.11.2.3
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arachidonic
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epoxyeicosatrienoic
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epoxide
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artery
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cyclooxygenase
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lipoxygenase
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vasodilation
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cyp2j2
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eicosanoids
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indomethacin
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hyperpolarizing
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miconazole
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endothelium-derived
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20-hete
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dihydroxyeicosatrienoic
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20-hydroxyeicosatetraenoic
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ms-ppoh
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cyp-derived
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edhfs
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arteriolar
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endothelium-dependent
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oleosins
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nordihydroguaiaretic
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vasodilatory
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dhets
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preglomerular
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5,6-epoxyeicosatrienoic
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large-conductance
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oxylipins
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17-octadecynoic
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eicosatetraynoic
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cyp-dependent
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sulfaphenazole
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hydroxyeicosatetraenoic
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p450-derived
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cross-recognition
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skf525a
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regioisomeric
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omega-hydroxylase
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p450-dependent
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14,15-epoxyeicosa-5z-enoic
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11,12-epoxyeicosatrienoic
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edhf-mediated
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epoxygenation
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5,8,11,14-eicosatetraynoic
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laser-doppler
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cyp2c11
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aacocf3
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iberiotoxin
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17-odya
- 1.11.2.3
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arachidonic
-
epoxyeicosatrienoic
- epoxide
- artery
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cyclooxygenase
- lipoxygenase
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vasodilation
- cyp2j2
-
eicosanoids
- indomethacin
-
hyperpolarizing
- miconazole
-
endothelium-derived
- 20-hete
-
dihydroxyeicosatrienoic
-
20-hydroxyeicosatetraenoic
-
ms-ppoh
-
cyp-derived
-
edhfs
-
arteriolar
-
endothelium-dependent
-
oleosins
-
nordihydroguaiaretic
-
vasodilatory
-
dhets
-
preglomerular
-
5,6-epoxyeicosatrienoic
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large-conductance
- oxylipins
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17-octadecynoic
-
eicosatetraynoic
-
cyp-dependent
- sulfaphenazole
-
hydroxyeicosatetraenoic
-
p450-derived
-
cross-recognition
- skf525a
-
regioisomeric
-
omega-hydroxylase
-
p450-dependent
-
14,15-epoxyeicosa-5z-enoic
-
11,12-epoxyeicosatrienoic
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edhf-mediated
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epoxygenation
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5,8,11,14-eicosatetraynoic
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laser-doppler
- cyp2c11
- aacocf3
-
iberiotoxin
-
17-odya
Reaction
Synonyms
9-hydroperoxide fatty acid reductase, caleosin, caleosin-like protein, caleosin/peroxygenase, Clo-1, Clo-3, CLO/PXG, CLO3, CYP77B1, epoxygenase, fatty acid epoxygenase, hydrogen peroxide-reducible hemoprotein, hydroperoxide-dependent peroxygenase, peroxygenase RD20, peroxygenase, hydroperoxide-dependent hydroxylase, plant peroxygenase, PXG, PXG1, PXG2, PXG4, RD20, RD20/CLO3, soybean peroxygenase
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General Information
General Information on EC 1.11.2.3 - plant seed peroxygenase
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malfunction
metabolism
peroxygenase CLO3 and alpha-dioxygenase together catalyze a coupling reaction to produce the antifungal compound 2-hydroxyoctadecanoic acid from alpha-linolenic acid
physiological function
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inactivation of peroxygenase results in a dramatic decrease of cuticular epoxide content accompanied by a reduced thickness of the cuticle
malfunction
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inactivation of peroxygenase results in a dramatic decrease of cuticular epoxide content accompanied by a reduced thickness of the cuticle
malfunction
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inactivation of peroxygenase results in a dramatic decrease of cuticular epoxide content accompanied by a reduced thickness of the cuticle
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peroxygenase is able to catalyze in vitro the epoxidation step required for the biosynthesis of C18 cutin monomers
physiological function
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peroxygenase is able to catalyze in vitro the epoxidation step required for the biosynthesis of C18 cutin monomers
physiological function
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peroxygenase is able to catalyze in vitro the epoxidation step required for the biosynthesis of C18 cutin monomers
physiological function
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the membrane-bound isoform of caleosin plays a putative role as a peroxygenase involved in oxylipin metabolism during biotic and abiotic stress responses in Arabidopsis. Clo-3 is involved in the generation of oxidised fatty acids in stress-related signalling pathways involving both ABA and salicylic acid. Clo-3 is part of an oxylipin pathway induced by multiple stresses and may also generate fatty acid derived anti-fungal compounds for plant defence
physiological function
at the seed germination stage, a loss-of-function mutant is hypersensitive to abscisic acid, salt and mannitol stresses, whereas isoform CLO4-overexpressing lines are more hyposensitive to those stresses than the wild type. In adult stage, loss-of-function mutant and overexpressing plants show enhanced and decreased drought tolerance, respectively. Following exposure to exogenous abscisic acid, the expression of key abscisic acid-dependent regulatory genes, such as ABF3 and ABF4, is up-regulated in the loss-of-function mutant, while it is down-regulated in overexpressing lines
physiological function
the enzyme is involved in the control of cell death during Arabidopsis responses to pathogens. Plants overexpressing the enzyme exhibit an alteration of their leaf cuticle wax components and an increased resistance to the pathogens Alternaria brassicicola or Pseudomonas syringae
physiological function
the enzyme mediates gibberellin-dependent flowering time, abscisic acid sensitivity, and tolerance to oxidative stress. The enzyme also confers tolerance against stress induced by Paraquat, Rose Bengal, heavy metal, and the synthetic auxins 1-naphthaleneacetic acid and 2,4-dichlorophenoxyacetic acid
physiological function
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the enzyme has specific functions in sporulation and aflatoxin production as well as playing roles in lipid droplet function
physiological function
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the enzyme interacts with the alpha subunit of the heterotrimeric G-protein complex in Arabidopsis and affects etiolation and leaf morphology. The enzyme plays a key role in the signaling pathway controlling hypocotyl length in dark grown seedlings and in leaf morphology
physiological function
the enzyme is implicated in the establishment of a dioxin-specific oxylipin signature in date palm leaves soon after their exposure to these pollutants
physiological function
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the enzyme has specific functions in sporulation and aflatoxin production as well as playing roles in lipid droplet function
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