1.13.11.58: linoleate 9S-lipoxygenase
This is an abbreviated version!
For detailed information about linoleate 9S-lipoxygenase, go to the full flat file.
Word Map on EC 1.13.11.58
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1.13.11.58
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linoleic
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oxylipins
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9-loxs
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lipoxygenases
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9s-hydroperoxide
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13-lipoxygenase
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divinyl
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colneleic
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trihydroxy
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alpha-ketols
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epoxyalcohols
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12r-lox
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9s-hydroperoxy-10e,12z-octadecadienoic
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synthesis
- 1.13.11.58
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linoleic
- oxylipins
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9-loxs
- lipoxygenases
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9s-hydroperoxide
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13-lipoxygenase
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divinyl
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colneleic
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trihydroxy
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alpha-ketols
- epoxyalcohols
- 12r-lox
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9s-hydroperoxy-10e,12z-octadecadienoic
- synthesis
Reaction
Synonyms
15-LOX, 9-lipoxygenase, 9-LO, 9-LOX, 9LOX, 9S-lipoxygenase, arachidonate 9S-LOX, AtLOX-1, AtLOX-5, AtLOX1, AtLOX5, CaLOX1, eLOX3, epidermal lipoxygenase-3, GhLOX1, L-2, linoleate 9-lipoxygenase, linoleate 9S-lipoxygenase, linoleate 9S-lipoxygenase 1, linoleate 9S-lipoxygenase 2, linoleate 9S-lipoxygenase 3, linoleate oxygen oxidoreductase, lipoxygenase, LOX, LOX1, LOX1.1, LOX1.3, LOX12, LOX13, LOX14, LOX1:Md:1c, LOX1c, LOX2, LOX3, LOX4, LOX5, LOX6, LOX7, LOX8, LOX9, LoxA, Nb-9-LOX, Osr9-LOX1, plant LOX-1, POTLX-1, r9-LOX1, seed linoleate 9S-lipoxygenase-3, StLOX1, tuberization protein, type-1 9-LOX, ZmLOX3, ZmLOX5
ECTree
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Source Tissue
Source Tissue on EC 1.13.11.58 - linoleate 9S-lipoxygenase
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Lox1 transcripts are predominantly detected in tubers and roots and to a much lesser extent in buds and leaves
additional information
expression of CaLOX1 is differentially induced in pepper leaves not only during Xanthomonas campestris pv. vesicatoria infection but also after exposure to abiotic elicitors. Transient expression of CaLOX1 in pepper leaves induces the cell death phenotype and defense responses
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expression of CaLOX1 is differentially induced in pepper leaves not only during Xanthomonas campestris pv. vesicatoria infection but also after exposure to abiotic elicitors. Transient expression of CaLOX1 in pepper leaves induces the cell death phenotype and defense responses
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Lox1 transcripts are predominantly detected in tubers and roots and to a much lesser extent in buds and leaves
not expressed in untreated leaves, but displays differential induction by defense-related hormones
Lox1 transcripts are predominantly detected in tubers and roots and to a much lesser extent in buds and leaves
the expression level of the r9-LOX1 gene is higher in imbibed seeds rather than developing seeds
ZmLOX5 is strongly inducible in leaves and stems by wounding but not in roots
Lox1 transcripts are predominantly detected in tubers and roots and to a much lesser extent in buds and leaves. along tuber formation, Lox1 class transcripts are detected at the stolon stage, and their steady state levels increases during the early stages of tuber development
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enzyme production and activity level gradually increases with temperature, peaking at 30-35°C after both two and three weeks
additional information
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enzyme production and activity level gradually increases with temperature, peaking at 30-35°C after both two and three weeks
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additional information
no visible PCR bands from isozymes MdLOX1d, MdLOX4a, MdLOX5d, MdLOX5e and MdLOX9a during fruit development
additional information
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no visible PCR bands from isozymes MdLOX1d, MdLOX4a, MdLOX5d, MdLOX5e and MdLOX9a during fruit development
additional information
cultivar/tissue specific expression of L-2, the expression is generally much higher in active bran/seed than in stabilized bran, mature seeds, and regenerated plants
additional information
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cultivar/tissue specific expression of L-2, the expression is generally much higher in active bran/seed than in stabilized bran, mature seeds, and regenerated plants
additional information
cultivar/tissue specific expression of r9-LOX1, the expression is generally much higher in active bran/seed than in stabilized bran, mature seeds, and regenerated plants
additional information
low constitutive expression of Osr9-LOX1 in rice leaves, stems, and spikelets, but high constitutive expression in roots, expression analysis
additional information
accumulation of LOX 1 class transcript is restricted to developing tubers, stolons, and roots correlating mRNA accumulation positively with tuber initiation and growth