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Home >> Lipids >> Octadecanoids

Octadecanoids

Products for  Octadecanoids

  1. Cat.No. Product Name Information
  2. GC40816 α-Linolenoyl Ethanolamide α-Linolenoyl ethanolamide is an endocannabinoid containing α-linolenic acid in place of the arachidonate moiety of AEA. α-Linolenoyl Ethanolamide Chemical Structure
  3. GC40817 γ-Linolenoyl Ethanolamide γ-Linolenoyl ethanolamide is a member of the family of fatty N-acyl ethanolamines collectively called endocannabinoids. γ-Linolenoyl Ethanolamide Chemical Structure
  4. GC49510 (±)-Tuberonic Acid A derivative of jasmonic acid (±)-Tuberonic Acid Chemical Structure
  5. GC40802 (±)12(13)-DiHOME

    (±)12(13)-DiHOME is the diol form of (±)12(13)-EpOME, a cytochrome P450-derived epoxide of linoleic acid also known as isoleukotoxin.

     (±)12(13)-DiHOME Chemical Structure
  6. GC40355 (±)13-HpODE

    (±)13-HpODE is a racemic mixture of hydroperoxides derived non-enzymatically from linoleic acid through the action of reactive oxygen species.

     (±)13-HpODE Chemical Structure
  7. GC40801 (±)9(10)-DiHOME Leukotoxin is the 9(10) epoxide of linoleic acid, generated by neutrophils during the oxidative burst. (±)9(10)-DiHOME Chemical Structure
  8. GC40541 (±)9-HODE

    (±)9-HODE is one of the two racemic monohydroxy fatty acids resulting from the non-enzymatic oxidation of linoleic acid.

     (±)9-HODE Chemical Structure
  9. GC40356 (±)9-HpODE (±)9-HpODE is a racemic mixture of the fatty acid hydroperoxide product (9(S)-HpODE) formed from lipoxygenase action on linoleic acid. (±)9-HpODE Chemical Structure
  10. GC41711 (R)-(+)-Linoleyl-1'-Hydroxy-2'-Propylamide N-Acyl ethanolamines have diverse biological actions that are strongly affected by the associated acyl group. (R)-(+)-Linoleyl-1'-Hydroxy-2'-Propylamide Chemical Structure
  11. GC41741 (S)-α-Methylbenzyl Ricinoleamide (S)-α-Methylbenzyl ricinoleamide is a fatty acid amide derived from ricinoleic acid and methyl benzylamine. (S)-α-Methylbenzyl Ricinoleamide Chemical Structure
  12. GC19461 (±)13-HODE

    (±)13-HODE is one of the two racemic monohydroxy fatty acids resulting from the non-enzymatic oxidation of linoleic acid.

     (±)13-HODE Chemical Structure
  13. GC41862 10(E),12(Z)-Conjugated Linoleic Acid methyl ester 10(E),12(Z)-Conjugated linoleic acid methyl ester has been used as a standard in the quantification of 10(E),12(Z)-conjugated linoleic acid from L. 10(E),12(Z)-Conjugated Linoleic Acid methyl ester Chemical Structure
  14. GC48802 10(S)-HOME An oxylipin 10(S)-HOME Chemical Structure
  15. GC41889 12-oxo Stearic Acid methyl ester 12-oxo Stearic Acid methyl ester Chemical Structure
  16. GC46418 12-oxo-13-HOME An oxylipin 12-oxo-13-HOME Chemical Structure
  17. GC19462 13(R)-HODE 13(R)-HODE is the opposite enantiomer of the 13(S)-HODE produced when linoleic acid is incubated with soybean lipoxygenase. 13(R)-HODE Chemical Structure
  18. GC19463 13(S)-HODE 13(S)-HODE (13(S)-HODE), the product of 15-lipoxygenase (15-LOX) metabolism of linoleic acid, functions as the endogenous ligand to activate PPARγ. 13(S)-HODE Chemical Structure
  19. GC41220 13(S)-HODE methyl ester 13(S)-hydroxyoctadecadienoic acid (13(S)-HODE) is a 15-lipoxygenase metabolite of linoleic acid produced in endothelial cells, leukocytes, and tumor cells. 13(S)-HODE methyl ester Chemical Structure
  20. GC41897 13(S)-HOTrE 13(S)-HOTrE is the 15-lipoxygenase (15-LO) product of linolenic acid. 13(S)-HOTrE Chemical Structure
  21. GC41898 13(S)-HOTrE(γ) 13(S)-HOTrE(γ) is the 15-LO product of γ-linolenic acid. 13(S)-HOTrE(γ) Chemical Structure
  22. GC19474 13(S)-HpODE 13(S)-HpODE is produced by the oxidation of linoleic acid by lipoxygenase-1 (LO-1) in many plants including soybean, flaxseed, apples, and tea leaves,1,2 and by 15-LO in mammals. 13(S)-HpODE Chemical Structure
  23. GC41899 13(S)-HpOTrE

    13(S)-HpOTrE is a monohydroperoxy polyunsaturated fatty acid produced in soybeans by the action of soybean LO-2 on esterified α-linolenic acid.

     13(S)-HpOTrE Chemical Structure
  24. GC41911 13-epi-12-oxo Phytodienoic Acid 13-epi-12-oxo Phytodienoic acid (13-epi-12-oxo PDA) is a lipoxygenase metabolite of α-linolenic acid in the leaves of green plants such as corn. 13-epi-12-oxo Phytodienoic Acid Chemical Structure
  25. GC41914 13-OxoODE

    13-oxoODE is produced from 13-HODE by a NAD+-dependent dehydrogenase present in rat colonic mucosa.

     13-OxoODE Chemical Structure
  26. GC41376 17-methyl Stearic Acid methyl ester 17-methyl Stearic acid methyl ester is a methylated fatty acid methyl ester that has been found in mutton tallow. 17-methyl Stearic Acid methyl ester Chemical Structure
  27. GC42170 2-hydroxy Stearic Acid 2-hydroxy Stearic acid is a naturally occurring hydroxylated fatty acid that has been found in humans and U. 2-hydroxy Stearic Acid Chemical Structure
  28. GC42171 2-hydroxy Stearic Acid methyl ester 2-hydroxy Stearic acid is a hydroxylated fatty acid methyl ester that broadens phase transition in dimyristoylphosphatidylcholine (DMPC) lipid membranes. 2-hydroxy Stearic Acid methyl ester Chemical Structure
  29. GC42286 3-hydroxy Stearic Acid 3-hydroxy Stearic acid is a long-chain saturated fatty acid and intermediate in the production of 3-hydroxy octadecanedioic acid from stearic acid. 3-hydroxy Stearic Acid Chemical Structure
  30. GC42287 3-hydroxy Stearic Acid methyl ester 3-hydroxy Stearic acid methyl ester is a hydroxylated fatty acid methyl ester that has been found in methyl-branched poly(3-hydroxyalkanoate) (PHA) polymers produced by Streptomyces sp. 3-hydroxy Stearic Acid methyl ester Chemical Structure
  31. GC45746 8(R),11(S)-DiHODE A fungal oxylipin 8(R),11(S)-DiHODE Chemical Structure
  32. GC42632 9(E),11(E)-Conjugated Linoleic Acid methyl ester 9(E),11(E)-Conjugated linoleic acid methyl ester has been found in thermally stressed cooking oils and may be used as a marker of adulteration of olive oils with lower quality oils. 9(E),11(E)-Conjugated Linoleic Acid methyl ester Chemical Structure
  33. GC40542 9(R)-HODE 9(R)-HODE is one of several monohydroxylated products of linoleic acid. 9(R)-HODE Chemical Structure
  34. GC40029 9(S),10(S),13(S)-TriHOME 9(S),10(S),13(S)-TriHOME is an oxylipin derived from linoleic acid. 9(S),10(S),13(S)-TriHOME Chemical Structure
  35. GC46753 9(S),12(S),13(S)-TriHOME An oxylipin 9(S),12(S),13(S)-TriHOME Chemical Structure
  36. GC19460 9(S)-HODE 9(S)-HODE is produced by the lipoxygenation of linoleic acid in both plants and animals. 9(S)-HODE Chemical Structure
  37. GC42636 9(S)-HOTrE 9(S)-HOTrE is a monohydroxy polyunsaturated fatty acid produced by the action of 5-lipoxygenase on α-linolenic acid. 9(S)-HOTrE Chemical Structure
  38. GC40357 9(S)-HpODE 9(S)-HpODE is produced by the action of arachidonate 5-LO on linoleic acid. 9(S)-HpODE Chemical Structure
  39. GC42637 9(S)-HpOTrE 9(S)-HpOTrE is a monohydroperoxy polyunsaturated fatty acid produced by the action of 5-lipoxygenase (5-LO) on α-linolenic acid. 9(S)-HpOTrE Chemical Structure
  40. GC40711 9(Z),11(E),13(Z)-Octadecatrienoic Acid methyl ester 9(Z),11(E),13(Z)-Octadecatrienoic acid methyl ester is an isomer of 9(Z),11(E),13(E)-octadecatrienoic acid methyl ester and the methyl ester form of 9(Z),11(E),13(Z)-octadecatrienoic acid. 9(Z),11(E),13(Z)-Octadecatrienoic Acid methyl ester Chemical Structure
  41. GC42638 9(Z),11(E)-Conjugated Linoleic Acid methyl ester 9(Z),11(E)-Conjugated linoleic acid methyl ester has been found in lemon grass (C. 9(Z),11(E)-Conjugated Linoleic Acid methyl ester Chemical Structure
  42. GC42639 9(Z),11(Z)-Conjugated Linoleic Acid methyl ester 9(Z),11(Z)-Conjugated linoleic acid methyl ester has been used as a standard for the quantification of conjugated linoleic acid methyl esters by GC-MS. 9(Z),11(Z)-Conjugated Linoleic Acid methyl ester Chemical Structure
  43. GC48986 9-hydroxy Stearic Acid A hydroxy fatty acid 9-hydroxy Stearic Acid Chemical Structure
  44. GC42651 9-oxo-10(E),12(E)-Octadecadienoic Acid 9-oxo-10(E),12(E)-Octadecadienoic acid (9-oxoODA) is a natural agonist, abundant in tomatoes, that activates PPARα at 10-20 μM. 9-oxo-10(E),12(E)-Octadecadienoic Acid Chemical Structure
  45. GC42652 9-OxoODE 9-OxoODE results from oxidation of the allylic hydroxyl of either 9(S)- or 9(R)-HODE. 9-OxoODE Chemical Structure
  46. GC42653 9-OxoOTrE 9-OxoOTrE is produced by the oxidation of 9-HpOTrE. 9-OxoOTrE Chemical Structure
  47. GC45401 CAY10696   CAY10696 Chemical Structure
  48. GC43271 cis,cis-Octadeca-9,12-dienol cis,cis-Octadeca-9,12-dienol, a structural analog of Linoleic acid with no a-carboxyl group, is a fatty alcohol. cis,cis-Octadeca-9,12-dienol Chemical Structure
  49. GC40342 cis-12-Octadecenoic Acid methyl ester cis-12-Octadecenoic acid is a monounsaturated C-18 fatty acid. cis-12-Octadecenoic Acid methyl ester Chemical Structure
  50. GC18640 cis-9,10-Methyleneoctadecanoic Acid methyl ester cis-9,10-Methyleneoctadecanoic acid methyl ester is a cyclopropane fatty acid methyl ester. cis-9,10-Methyleneoctadecanoic Acid methyl ester Chemical Structure
  51. GC40344 cis-Vaccenic Acid methyl ester cis-Vaccenic acid methyl ester is a methyl ester form of the monounsaturated fatty acid cis-vaccenic acid. cis-Vaccenic Acid methyl ester Chemical Structure
  52. GC43471 dinor-12-oxo Phytodienoic Acid In plants, certain unsaturated fatty acids are oxygenated and then further modified along the jasmonate pathway to produce plant hormones that are involved in senescence, flower development, mechanotransduction, and the response to herbivory. dinor-12-oxo Phytodienoic Acid Chemical Structure
  53. GC40345 Elaidic Acid methyl ester Elaidic acid methyl ester is an esterified form of elaidic acid that has been found in biodiesel produced by the microalga Botryococcus. Elaidic Acid methyl ester Chemical Structure
  54. GC44067 Linoelaidic Acid methyl ester Linoelaidic acid methyl ester is an esterified form of linoelaidic acid. Linoelaidic Acid methyl ester Chemical Structure
  55. GC44069 Linoleic Acid Amide

    Linoleic acid amide is a primary fatty acid amide derived from linoleic acid.

     Linoleic Acid Amide Chemical Structure
  56. GC44074 Linoleoyl Glycine Arachidonyl glycine, the conjugate of arachidonic acid and glycine produced in mammalian brain, skin, and spinal cord, is a structural analog of anandamide (AEA) that is reported to have analgesic activities in whole animal experiments. Linoleoyl Glycine Chemical Structure
  57. GC41363 Linoleoyl Phenylalanine N-Linoleoyl phenylalanine is an endogenous N-acyl amine found in D. Linoleoyl Phenylalanine Chemical Structure
  58. GC44270 N-(α-Linolenoyl) Tyrosine Certain chronic neurologic disorders, such as Parkinson's disease, are caused by an insufficiency of the neurotransmitter dopamine secondary to the degeneration of substantia nigra dopaminergic neurons. N-(α-Linolenoyl) Tyrosine Chemical Structure
  59. GC41361 N-(1-(3,4-Dihydroxyphenyl)propan-2-yl)oleamide N-(1-(3,4-Dihydroxyphenyl)propan-2-yl)oleamide binds to the cannabinoid 1 (CB1) receptor with a Ki value of 365 nM in a radioligand binding assay using rat brain homogenate. N-(1-(3,4-Dihydroxyphenyl)propan-2-yl)oleamide Chemical Structure
  60. GC44440 N-Oleoyl Alanine N-Oleoyl alanine is a natural N-acyl amide that has been detected in insect and animal tissues. N-Oleoyl Alanine Chemical Structure
  61. GC44442 N-Oleoyl Proline N-Oleoyl proline is an N-acyl amine that has been detected in bovine brain extracts and D. N-Oleoyl Proline Chemical Structure
  62. GC44443 N-Oleoyl Taurine Several different arachidonoyl amino acids, including N-arachidonoyl dopamine and N-arachidonoyl serine, have been isolated and characterized from bovine brain. N-Oleoyl Taurine Chemical Structure
  63. GC44445 N-Oleoyl-L-Serine Bone mass and shape is continuously remodeled by the concerted and balanced action of osteoblasts (bone forming cells) and osteoclasts (bone-resorbing cells). N-Oleoyl-L-Serine Chemical Structure
  64. GC44502 Oleoyl Serinol Oleoyl serinol is an analog of ceramide and an agonist of the cannabinoid receptor GPR119 that has an EC50 value of 12 μM for stimulating secretion of GLP-1 in mouse endocrine GLUTag cells. Oleoyl Serinol Chemical Structure
  65. GC41257 Palmitoleoyl Ethanolamide N-acylethanolamines (NAEs) are lipid-derived signaling compounds. Palmitoleoyl Ethanolamide Chemical Structure
  66. GC40788 Pinolenic Acid ethyl ester Pinolenic acid is a polyunsaturated fatty acid found in Korean pine (Pinus orientalis) and maritime pine (Pinus pinaster) seed oils. Pinolenic Acid ethyl ester Chemical Structure
  67. GC40713 Pinolenic Acid methyl ester Pinolenic acid is a polyunsaturated fatty acid found in Korean pine (Pinus orientalis) and maritime pine (Pinus pinaster) seed oils. Pinolenic Acid methyl ester Chemical Structure
  68. GC44791 Pyrrolidine Linoleamide Linoleic acid is an essential fatty acid and one of the most abundant polyunsaturated fatty acids in the western diet. Pyrrolidine Linoleamide Chemical Structure
  69. GC44792 Pyrrolidine Ricinoleamide Ricinoleic acid is a naturally occurring 12-hydroxy fatty acid. Pyrrolidine Ricinoleamide Chemical Structure
  70. GC44837 Ricinoleic Acid ethyl ester Ricinoleic acid is a naturally occurring 12-hydroxy fatty acid and constitutes about 90% of the fatty acids in castor oil. Ricinoleic Acid ethyl ester Chemical Structure
  71. GC10883 Stearamide A primary fatty acid amide Stearamide Chemical Structure
  72. GC41378 Stearic Acid ethyl ester Stearic acid is a saturated fatty acid commonly found in animal and vegetable fats that is frequently used in cosmetics, candles, soaps, plastics, oil pastels, and for softening rubber. Stearic Acid ethyl ester Chemical Structure
  73. GC18576 Stearidonic Acid ethyl ester Stearidonic acid (18:4ω-3) is a rare polyunsaturated fatty acid of the ω-3 series. Stearidonic Acid ethyl ester Chemical Structure
  74. GC18664 Stearidonic Acid methyl ester

    Stearidonic Acid (18:4ω-3) is a rare polyunsaturated fatty acid of the ω-3 series.

     Stearidonic Acid methyl ester Chemical Structure
  75. GC44950 Stearidonoyl Glycine The ω-3 polyunsaturated fatty acids (PUFAs) found in fish oils provide cardiovascular benefits. Stearidonoyl Glycine Chemical Structure
  76. GC45071 trans-EKODE-(E)-Ib During oxidative stress, the abundant unsaturated fatty acid linoleic acid undergoes lipid peroxidation to produce α,β-unsaturated epoxy-keto-octadecenoic acids (EKODEs). trans-EKODE-(E)-Ib Chemical Structure
  77. GC40348 trans-Vaccenic Acid methyl ester trans-Vaccenic acid methyl ester is an esterified form of trans-vaccenic acid. trans-Vaccenic Acid methyl ester Chemical Structure

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