Cloned (Comment) | Organism |
---|---|
gene FAD2, DNA and amino acid sequence deterination and analysis, encoded motifs in comparison, sequence comparisons and phylogenetic analysis | Olea europaea |
gene FAD2, DNA and amino acid sequence deterination and analysis, encoded motifs in comparison, sequence comparisons and phylogenetic analysis | Vernicia fordii |
gene FAD2, DNA and amino acid sequence deterination and analysis, encoded motifs in comparison, sequence comparisons and phylogenetic analysis | Glycine max |
gene FAD2, DNA and amino acid sequence deterination and analysis, encoded motifs in comparison, sequence comparisons and phylogenetic analysis | Olea europaea subsp. europaea |
gene FAD2, DNA and amino acid sequence deterination and analysis, encoded motifs in comparison, sequence comparisons and phylogenetic analysis | Vitis labrusca |
gene FAD2, DNA and amino acid sequence deterination and analysis, encoded motifs in comparison, sequence comparisons and phylogenetic analysis | Arachis hypogaea |
gene FAD2, DNA and amino acid sequence deterination and analysis, encoded motifs in comparison, sequence comparisons and phylogenetic analysis | Brassica napus |
gene FAD2, DNA and amino acid sequence deterination and analysis, encoded motifs in comparison, sequence comparisons and phylogenetic analysis | Carthamus tinctorius |
gene FAD2, DNA and amino acid sequence deterination and analysis, encoded motifs in comparison, sequence comparisons and phylogenetic analysis | Cucurbita pepo |
Localization | Comment | Organism | GeneOntology No. | Textmining |
---|---|---|---|---|
endoplasmic reticulum | - |
Olea europaea | 5783 | - |
endoplasmic reticulum | - |
Vernicia fordii | 5783 | - |
endoplasmic reticulum | - |
Glycine max | 5783 | - |
endoplasmic reticulum | - |
Olea europaea subsp. europaea | 5783 | - |
endoplasmic reticulum | - |
Vitis labrusca | 5783 | - |
endoplasmic reticulum | - |
Arachis hypogaea | 5783 | - |
endoplasmic reticulum | - |
Brassica napus | 5783 | - |
endoplasmic reticulum | - |
Carthamus tinctorius | 5783 | - |
endoplasmic reticulum | - |
Cucurbita pepo | 5783 | - |
membrane | transmembrane enzyme | Olea europaea | 16020 | - |
membrane | transmembrane enzyme | Vernicia fordii | 16020 | - |
membrane | transmembrane enzyme | Glycine max | 16020 | - |
membrane | transmembrane enzyme | Olea europaea subsp. europaea | 16020 | - |
membrane | transmembrane enzyme | Vitis labrusca | 16020 | - |
membrane | transmembrane enzyme | Arachis hypogaea | 16020 | - |
membrane | transmembrane enzyme | Brassica napus | 16020 | - |
membrane | transmembrane enzyme | Carthamus tinctorius | 16020 | - |
membrane | transmembrane enzyme | Cucurbita pepo | 16020 | - |
microsome | - |
Olea europaea | - |
- |
microsome | - |
Vernicia fordii | - |
- |
microsome | - |
Glycine max | - |
- |
microsome | - |
Olea europaea subsp. europaea | - |
- |
microsome | - |
Vitis labrusca | - |
- |
microsome | - |
Arachis hypogaea | - |
- |
microsome | - |
Brassica napus | - |
- |
microsome | - |
Carthamus tinctorius | - |
- |
microsome | - |
Cucurbita pepo | - |
- |
Natural Substrates | Organism | Comment (Nat. Sub.) | Natural Products | Comment (Nat. Pro.) | Rev. | Reac. |
---|---|---|---|---|---|---|
oleoyl-CoA + 2 ferrocytochrome b5 + O2 + 2 H+ | Vernicia fordii | - |
linoleoyl-CoA + 2 ferricytochrome b5 + 2 H2O | - |
? | |
oleoyl-CoA + 2 ferrocytochrome b5 + O2 + 2 H+ | Glycine max | - |
linoleoyl-CoA + 2 ferricytochrome b5 + 2 H2O | - |
? | |
oleoyl-CoA + 2 reduced acceptor + O2 + 2 H+ | Arachis hypogaea | - |
linoleoyl-CoA + 2 acceptor + 2 H2O | - |
? | |
oleoyl-CoA + 2 reduced acceptor + O2 + 2 H+ | Brassica napus | - |
linoleoyl-CoA + 2 acceptor + 2 H2O | - |
? | |
palmitoleoyl-CoA + 2 ferrocytochrome b5 + O2 + 2 H+ | Vernicia fordii | - |
(9Z,12Z)-hexadeca-9,12-dienoyl-CoA + 2 ferricytochrome b5 + 2 H2O | - |
? |
Organism | UniProt | Comment | Textmining |
---|---|---|---|
Arachis hypogaea | E6Y9B0 | - |
- |
Brassica napus | C3W519 | - |
- |
Carthamus tinctorius | E9M2L7 | - |
- |
Cucurbita pepo | Q6QUM6 | - |
- |
Glycine max | P48631 | - |
- |
Olea europaea | Q4QWZ0 | - |
- |
Olea europaea subsp. europaea | F2YFG1 | - |
- |
Vernicia fordii | Q8GZC3 | - |
- |
Vitis labrusca | F8TVX9 | - |
- |
Source Tissue | Comment | Organism | Textmining |
---|---|---|---|
seed | seed-specific delta-12 fatty acid desaturase 2 | Olea europaea | - |
seed | seed-specific delta-12 fatty acid desaturase 2 | Vernicia fordii | - |
seed | seed-specific delta-12 fatty acid desaturase 2 | Glycine max | - |
seed | seed-specific delta-12 fatty acid desaturase 2 | Olea europaea subsp. europaea | - |
seed | seed-specific delta-12 fatty acid desaturase 2 | Vitis labrusca | - |
seed | seed-specific delta-12 fatty acid desaturase 2 | Arachis hypogaea | - |
seed | seed-specific delta-12 fatty acid desaturase 2 | Brassica napus | - |
seed | seed-specific delta-12 fatty acid desaturase 2 | Carthamus tinctorius | - |
seed | seed-specific delta-12 fatty acid desaturase 2 | Cucurbita pepo | - |
Substrates | Comment Substrates | Organism | Products | Comment (Products) | Rev. | Reac. |
---|---|---|---|---|---|---|
oleoyl-CoA + 2 ferrocytochrome b5 + O2 + 2 H+ | - |
Vernicia fordii | linoleoyl-CoA + 2 ferricytochrome b5 + 2 H2O | - |
? | |
oleoyl-CoA + 2 ferrocytochrome b5 + O2 + 2 H+ | - |
Glycine max | linoleoyl-CoA + 2 ferricytochrome b5 + 2 H2O | - |
? | |
oleoyl-CoA + 2 reduced acceptor + O2 + 2 H+ | - |
Arachis hypogaea | linoleoyl-CoA + 2 acceptor + 2 H2O | - |
? | |
oleoyl-CoA + 2 reduced acceptor + O2 + 2 H+ | - |
Brassica napus | linoleoyl-CoA + 2 acceptor + 2 H2O | - |
? | |
palmitoleoyl-CoA + 2 ferrocytochrome b5 + O2 + 2 H+ | - |
Vernicia fordii | (9Z,12Z)-hexadeca-9,12-dienoyl-CoA + 2 ferricytochrome b5 + 2 H2O | - |
? |
Subunits | Comment | Organism |
---|---|---|
More | enzyme motifs and domain organization, overview | Olea europaea |
More | enzyme motifs and domain organization, overview | Vernicia fordii |
More | enzyme motifs and domain organization, overview | Glycine max |
More | enzyme motifs and domain organization, overview | Olea europaea subsp. europaea |
More | enzyme motifs and domain organization, overview | Vitis labrusca |
More | enzyme motifs and domain organization, overview | Arachis hypogaea |
More | enzyme motifs and domain organization, overview | Brassica napus |
More | enzyme motifs and domain organization, overview | Carthamus tinctorius |
More | enzyme motifs and domain organization, overview | Cucurbita pepo |
Synonyms | Comment | Organism |
---|---|---|
delta-12 fatty acid desaturase 2 | - |
Olea europaea |
delta-12 fatty acid desaturase 2 | - |
Vernicia fordii |
delta-12 fatty acid desaturase 2 | - |
Glycine max |
delta-12 fatty acid desaturase 2 | - |
Olea europaea subsp. europaea |
delta-12 fatty acid desaturase 2 | - |
Vitis labrusca |
delta-12 fatty acid desaturase 2 | - |
Arachis hypogaea |
delta-12 fatty acid desaturase 2 | - |
Brassica napus |
delta-12 fatty acid desaturase 2 | - |
Carthamus tinctorius |
delta-12 fatty acid desaturase 2 | - |
Cucurbita pepo |
FAD2 | - |
Olea europaea |
FAD2 | - |
Vernicia fordii |
FAD2 | - |
Glycine max |
FAD2 | - |
Olea europaea subsp. europaea |
FAD2 | - |
Vitis labrusca |
FAD2 | - |
Arachis hypogaea |
FAD2 | - |
Brassica napus |
FAD2 | - |
Carthamus tinctorius |
FAD2 | - |
Cucurbita pepo |
FAD2-2 | - |
Olea europaea |
FAD2-2 | - |
Glycine max |
FAD2-2 | - |
Olea europaea subsp. europaea |
FAD2-2 | - |
Carthamus tinctorius |
microsomal Delta-12 fatty acid desaturase | - |
Olea europaea subsp. europaea |
microsomal delta-12 oleate desaturase | - |
Olea europaea |
microsomal delta-12 oleate desaturase | - |
Vitis labrusca |
microsomal oleate desaturase | - |
Carthamus tinctorius |
microsomal omega-6 fatty acid desaturase | - |
Olea europaea |
microsomal omega-6 fatty acid desaturase | - |
Vernicia fordii |
microsomal omega-6 fatty acid desaturase | - |
Glycine max |
microsomal omega-6 fatty acid desaturase | - |
Olea europaea subsp. europaea |
microsomal omega-6 fatty acid desaturase | - |
Vitis labrusca |
microsomal omega-6 fatty acid desaturase | - |
Arachis hypogaea |
microsomal omega-6 fatty acid desaturase | - |
Brassica napus |
microsomal omega-6 fatty acid desaturase | - |
Cucurbita pepo |
omega-6 fatty acid desaturase | - |
Cucurbita pepo |
seed-specific delta-12 fatty acid desaturase 2 | - |
Olea europaea |
seed-specific delta-12 fatty acid desaturase 2 | - |
Vernicia fordii |
seed-specific delta-12 fatty acid desaturase 2 | - |
Glycine max |
seed-specific delta-12 fatty acid desaturase 2 | - |
Olea europaea subsp. europaea |
seed-specific delta-12 fatty acid desaturase 2 | - |
Vitis labrusca |
seed-specific delta-12 fatty acid desaturase 2 | - |
Arachis hypogaea |
seed-specific delta-12 fatty acid desaturase 2 | - |
Brassica napus |
seed-specific delta-12 fatty acid desaturase 2 | - |
Carthamus tinctorius |
seed-specific delta-12 fatty acid desaturase 2 | - |
Cucurbita pepo |
Cofactor | Comment | Organism | Structure |
---|---|---|---|
cytochrome b5 | - |
Vernicia fordii | |
cytochrome b5 | - |
Glycine max |
General Information | Comment | Organism |
---|---|---|
evolution | in plants, membrane-bound fatty acid desaturases are present in the plastid and the endoplasmic reticulum. The electron donors for plastid desaturases are typically ferredoxins, while endoplasmic reticulum enzymes use cytochrome b5 (Cytb5) | Olea europaea |
evolution | in plants, membrane-bound fatty acid desaturases are present in the plastid and the endoplasmic reticulum. The electron donors for plastid desaturases are typically ferredoxins, while endoplasmic reticulum enzymes use cytochrome b5 (Cytb5) | Vernicia fordii |
evolution | in plants, membrane-bound fatty acid desaturases are present in the plastid and the endoplasmic reticulum. The electron donors for plastid desaturases are typically ferredoxins, while endoplasmic reticulum enzymes use cytochrome b5 (Cytb5) | Glycine max |
evolution | in plants, membrane-bound fatty acid desaturases are present in the plastid and the endoplasmic reticulum. The electron donors for plastid desaturases are typically ferredoxins, while endoplasmic reticulum enzymes use cytochrome b5 (Cytb5) | Olea europaea subsp. europaea |
evolution | in plants, membrane-bound fatty acid desaturases are present in the plastid and the endoplasmic reticulum. The electron donors for plastid desaturases are typically ferredoxins, while endoplasmic reticulum enzymes use cytochrome b5 (Cytb5) | Vitis labrusca |
evolution | in plants, membrane-bound fatty acid desaturases are present in the plastid and the endoplasmic reticulum. The electron donors for plastid desaturases are typically ferredoxins, while endoplasmic reticulum enzymes use cytochrome b5 (Cytb5) | Arachis hypogaea |
evolution | in plants, membrane-bound fatty acid desaturases are present in the plastid and the endoplasmic reticulum. The electron donors for plastid desaturases are typically ferredoxins, while endoplasmic reticulum enzymes use cytochrome b5 (Cytb5) | Brassica napus |
evolution | in plants, membrane-bound fatty acid desaturases are present in the plastid and the endoplasmic reticulum. The electron donors for plastid desaturases are typically ferredoxins, while endoplasmic reticulum enzymes use cytochrome b5 (Cytb5) | Carthamus tinctorius |
evolution | in plants, membrane-bound fatty acid desaturases are present in the plastid and the endoplasmic reticulum. The electron donors for plastid desaturases are typically ferredoxins, while endoplasmic reticulum enzymes use cytochrome b5 (Cytb5) | Cucurbita pepo |
physiological function | in plants, seed-specific delta-12 fatty acid desaturase 2 (FAD2) is responsible for the high content of linoleic acid by inserting a double bond at the delta-12 (omega-6) position of oleic acid. FAD2-2 genes encoding isoforms of the large and functionally diverse FAD2 gene family are detected in developing seeds suggesting their major roles in storage oil desaturation in seed | Olea europaea |
physiological function | in plants, seed-specific delta-12 fatty acid desaturase 2 (FAD2) is responsible for the high content of linoleic acid by inserting a double bond at the delta-12 (omega-6) position of oleic acid. FAD2-2 genes encoding isoforms of the large and functionally diverse FAD2 gene family are detected in developing seeds suggesting their major roles in storage oil desaturation in seed | Vernicia fordii |
physiological function | in plants, seed-specific delta-12 fatty acid desaturase 2 (FAD2) is responsible for the high content of linoleic acid by inserting a double bond at the delta-12 (omega-6) position of oleic acid. FAD2-2 genes encoding isoforms of the large and functionally diverse FAD2 gene family are detected in developing seeds suggesting their major roles in storage oil desaturation in seed | Glycine max |
physiological function | in plants, seed-specific delta-12 fatty acid desaturase 2 (FAD2) is responsible for the high content of linoleic acid by inserting a double bond at the delta-12 (omega-6) position of oleic acid. FAD2-2 genes encoding isoforms of the large and functionally diverse FAD2 gene family are detected in developing seeds suggesting their major roles in storage oil desaturation in seed | Olea europaea subsp. europaea |
physiological function | in plants, seed-specific delta-12 fatty acid desaturase 2 (FAD2) is responsible for the high content of linoleic acid by inserting a double bond at the delta-12 (omega-6) position of oleic acid. FAD2-2 genes encoding isoforms of the large and functionally diverse FAD2 gene family are detected in developing seeds suggesting their major roles in storage oil desaturation in seed | Vitis labrusca |
physiological function | in plants, seed-specific delta-12 fatty acid desaturase 2 (FAD2) is responsible for the high content of linoleic acid by inserting a double bond at the delta-12 (omega-6) position of oleic acid. FAD2-2 genes encoding isoforms of the large and functionally diverse FAD2 gene family are detected in developing seeds suggesting their major roles in storage oil desaturation in seed | Arachis hypogaea |
physiological function | in plants, seed-specific delta-12 fatty acid desaturase 2 (FAD2) is responsible for the high content of linoleic acid by inserting a double bond at the delta-12 (omega-6) position of oleic acid. FAD2-2 genes encoding isoforms of the large and functionally diverse FAD2 gene family are detected in developing seeds suggesting their major roles in storage oil desaturation in seed | Brassica napus |
physiological function | in plants, seed-specific delta-12 fatty acid desaturase 2 (FAD2) is responsible for the high content of linoleic acid by inserting a double bond at the delta-12 (omega-6) position of oleic acid. FAD2-2 genes encoding isoforms of the large and functionally diverse FAD2 gene family are detected in developing seeds suggesting their major roles in storage oil desaturation in seed | Carthamus tinctorius |
physiological function | in plants, seed-specific delta-12 fatty acid desaturase 2 (FAD2) is responsible for the high content of linoleic acid by inserting a double bond at the delta-12 (omega-6) position of oleic acid. FAD2-2 genes encoding isoforms of the large and functionally diverse FAD2 gene family are detected in developing seeds suggesting their major roles in storage oil desaturation in seed | Cucurbita pepo |