4.2.1.121: colneleate synthase
This is an abbreviated version!
For detailed information about colneleate synthase, go to the full flat file.
Word Map on EC 4.2.1.121
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4.2.1.121
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hydroperoxide
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linoleic
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oxylipins
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allene
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13-hydroperoxide
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colneleic
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9-hydroperoxides
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epoxyalcohols
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flax
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phytophthora
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9-lipoxygenase
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infestans
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13-hpot
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ranunculus
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cyp74c
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selaginella
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9-hydroperoxy
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spikemoss
- 4.2.1.121
- hydroperoxide
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linoleic
- oxylipins
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allene
-
13-hydroperoxide
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colneleic
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9-hydroperoxides
- epoxyalcohols
- flax
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phytophthora
- 9-lipoxygenase
- infestans
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13-hpot
- ranunculus
- cyp74c
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selaginella
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9-hydroperoxy
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spikemoss
Reaction
Synonyms
9-DES, 9-divinyl ether synthase, CYP74 cytochrome P-450, CYP74D, CYP74D1, DES, DES1, divinyl ether synthase, DVE synthase, LeDES, NtDES1
ECTree
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Source Tissue
Source Tissue on EC 4.2.1.121 - colneleate synthase
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preferential stimulation of the 9-lipoxygenase pathway in elicitor-treated potato cells
accumulation of divinyl ether synthase transcripts both upon infiltration of potato leaves with Pseudomonas syringae and after infection with Phytophthora infestans
LeDES transcripts are most abundant in roots. A low level of LeDES mRNA is observed in stem tissue, but no accumulation is detected in flower buds, petioles, cotyledons, or leaves. Extracts from roots of young plants, but not extracts from stem or leaf tissue, catalyze efficient formation of colneleate from the hydroperoxide precursor
LeDES transcripts are most abundant in roots. A low level of LeDES mRNA is observed in stem tissue, but no accumulation is detected in flower buds, petioles, cotyledons, or leaves. Extracts from roots of young plants, but not extracts from stem or leaf tissue, catalyze efficient formation of colneleate from the hydroperoxide precursor