Exact Mass: 410.2569294
Exact Mass Matches: 410.2569294
Found 109 metabolites which its exact mass value is equals to given mass value 410.2569294,
within given mass tolerance error 0.01 dalton. Try search metabolite list with more accurate mass tolerance error
0.001 dalton.
MG(20:4(6Z,8E,10E,14Z)-2OH(5S,12R)/0:0/0:0)
MG(20:4(6Z,8E,10E,14Z)-2OH(5S,12R)/0:0/0:0) is an oxidized monoacyglycerol (MG). Oxidized monoacyglycerols are glycerolipids in which the fatty acyl chain has undergone oxidation. As all oxidized lipids, oxidized monoacyglycerols belong to a group of biomolecules that have a role as signaling molecules. The biosynthesis of oxidized lipids is mediated by several enzymatic families, including cyclooxygenases (COX), lipoxygenases (LOX) and cytochrome P450s (CYP). Non-enzymatically oxidized lipids are produced by uncontrolled oxidation through free radicals and are considered harmful to human health (PMID: 33329396). As is the case with other lipids, monoacyglycerols can be substituted by different fatty acids, with varying lengths, saturation and degrees of oxidation attached at the C-1, C-2 and C-3 positions. Lipids are ubiquitous in nature and are key components of the lipid bilayer of cells, as well as being involved in metabolism and signaling. Similarly to what occurs with lipids, the fatty acid distribution at the C-1 and C-2 positions of glycerol within oxidized lipids is continually in flux, owing to lipid degradation and the continuous lipid remodeling that occurs while these molecules are in membranes. Oxidized MGs can be synthesized via three different routes. In one route, the oxidized MG is synthetized de novo following the same mechanisms as for MGs but incorporating an oxidized acyl chain (PMID: 33329396). An alternative is the transacylation of the non-oxidized acyl chains with an oxidized acylCoA (PMID: 33329396). The third pathway results from the oxidation of the acyl chain while still attached to the MG backbone, mainly through the action of LOX (PMID: 33329396).
MG(20:4(6E,8Z,11Z,13E)-2OH(5S,15S)/0:0/0:0)
MG(20:4(6E,8Z,11Z,13E)-2OH(5S,15S)/0:0/0:0) is an oxidized monoacyglycerol (MG). Oxidized monoacyglycerols are glycerolipids in which the fatty acyl chain has undergone oxidation. As all oxidized lipids, oxidized monoacyglycerols belong to a group of biomolecules that have a role as signaling molecules. The biosynthesis of oxidized lipids is mediated by several enzymatic families, including cyclooxygenases (COX), lipoxygenases (LOX) and cytochrome P450s (CYP). Non-enzymatically oxidized lipids are produced by uncontrolled oxidation through free radicals and are considered harmful to human health (PMID: 33329396). As is the case with other lipids, monoacyglycerols can be substituted by different fatty acids, with varying lengths, saturation and degrees of oxidation attached at the C-1, C-2 and C-3 positions. Lipids are ubiquitous in nature and are key components of the lipid bilayer of cells, as well as being involved in metabolism and signaling. Similarly to what occurs with lipids, the fatty acid distribution at the C-1 and C-2 positions of glycerol within oxidized lipids is continually in flux, owing to lipid degradation and the continuous lipid remodeling that occurs while these molecules are in membranes. Oxidized MGs can be synthesized via three different routes. In one route, the oxidized MG is synthetized de novo following the same mechanisms as for MGs but incorporating an oxidized acyl chain (PMID: 33329396). An alternative is the transacylation of the non-oxidized acyl chains with an oxidized acylCoA (PMID: 33329396). The third pathway results from the oxidation of the acyl chain while still attached to the MG backbone, mainly through the action of LOX (PMID: 33329396).
MG(20:4(8Z,11Z,14Z,17Z)-2OH(5S,6R)/0:0/0:0)
MG(20:4(8Z,11Z,14Z,17Z)-2OH(5S,6R)/0:0/0:0) is an oxidized monoacyglycerol (MG). Oxidized monoacyglycerols are glycerolipids in which the fatty acyl chain has undergone oxidation. As all oxidized lipids, oxidized monoacyglycerols belong to a group of biomolecules that have a role as signaling molecules. The biosynthesis of oxidized lipids is mediated by several enzymatic families, including cyclooxygenases (COX), lipoxygenases (LOX) and cytochrome P450s (CYP). Non-enzymatically oxidized lipids are produced by uncontrolled oxidation through free radicals and are considered harmful to human health (PMID: 33329396). As is the case with other lipids, monoacyglycerols can be substituted by different fatty acids, with varying lengths, saturation and degrees of oxidation attached at the C-1, C-2 and C-3 positions. Lipids are ubiquitous in nature and are key components of the lipid bilayer of cells, as well as being involved in metabolism and signaling. Similarly to what occurs with lipids, the fatty acid distribution at the C-1 and C-2 positions of glycerol within oxidized lipids is continually in flux, owing to lipid degradation and the continuous lipid remodeling that occurs while these molecules are in membranes. Oxidized MGs can be synthesized via three different routes. In one route, the oxidized MG is synthetized de novo following the same mechanisms as for MGs but incorporating an oxidized acyl chain (PMID: 33329396). An alternative is the transacylation of the non-oxidized acyl chains with an oxidized acylCoA (PMID: 33329396). The third pathway results from the oxidation of the acyl chain while still attached to the MG backbone, mainly through the action of LOX (PMID: 33329396).
MG(0:0/20:4(6Z,8E,10E,14Z)-2OH(5S,12R)/0:0)
MG(0:0/20:4(6Z,8E,10E,14Z)-2OH(5S,12R)/0:0) is an oxidized monoacyglycerol (MG). Oxidized monoacyglycerols are glycerolipids in which the fatty acyl chain has undergone oxidation. As all oxidized lipids, oxidized monoacyglycerols belong to a group of biomolecules that have a role as signaling molecules. The biosynthesis of oxidized lipids is mediated by several enzymatic families, including cyclooxygenases (COX), lipoxygenases (LOX) and cytochrome P450s (CYP). Non-enzymatically oxidized lipids are produced by uncontrolled oxidation through free radicals and are considered harmful to human health (PMID: 33329396). As is the case with other lipids, monoacyglycerols can be substituted by different fatty acids, with varying lengths, saturation and degrees of oxidation attached at the C-1, C-2 and C-3 positions. Lipids are ubiquitous in nature and are key components of the lipid bilayer of cells, as well as being involved in metabolism and signaling. Similarly to what occurs with lipids, the fatty acid distribution at the C-1 and C-2 positions of glycerol within oxidized lipids is continually in flux, owing to lipid degradation and the continuous lipid remodeling that occurs while these molecules are in membranes. Oxidized MGs can be synthesized via three different routes. In one route, the oxidized MG is synthetized de novo following the same mechanisms as for MGs but incorporating an oxidized acyl chain (PMID: 33329396). An alternative is the transacylation of the non-oxidized acyl chains with an oxidized acylCoA (PMID: 33329396). The third pathway results from the oxidation of the acyl chain while still attached to the MG backbone, mainly through the action of LOX (PMID: 33329396).
MG(0:0/20:4(6E,8Z,11Z,13E)-2OH(5S,15S)/0:0)
MG(0:0/20:4(6E,8Z,11Z,13E)-2OH(5S,15S)/0:0) is an oxidized monoacyglycerol (MG). Oxidized monoacyglycerols are glycerolipids in which the fatty acyl chain has undergone oxidation. As all oxidized lipids, oxidized monoacyglycerols belong to a group of biomolecules that have a role as signaling molecules. The biosynthesis of oxidized lipids is mediated by several enzymatic families, including cyclooxygenases (COX), lipoxygenases (LOX) and cytochrome P450s (CYP). Non-enzymatically oxidized lipids are produced by uncontrolled oxidation through free radicals and are considered harmful to human health (PMID: 33329396). As is the case with other lipids, monoacyglycerols can be substituted by different fatty acids, with varying lengths, saturation and degrees of oxidation attached at the C-1, C-2 and C-3 positions. Lipids are ubiquitous in nature and are key components of the lipid bilayer of cells, as well as being involved in metabolism and signaling. Similarly to what occurs with lipids, the fatty acid distribution at the C-1 and C-2 positions of glycerol within oxidized lipids is continually in flux, owing to lipid degradation and the continuous lipid remodeling that occurs while these molecules are in membranes. Oxidized MGs can be synthesized via three different routes. In one route, the oxidized MG is synthetized de novo following the same mechanisms as for MGs but incorporating an oxidized acyl chain (PMID: 33329396). An alternative is the transacylation of the non-oxidized acyl chains with an oxidized acylCoA (PMID: 33329396). The third pathway results from the oxidation of the acyl chain while still attached to the MG backbone, mainly through the action of LOX (PMID: 33329396).
MG(0:0/20:4(8Z,11Z,14Z,17Z)-2OH(5S,6R)/0:0)
MG(0:0/20:4(8Z,11Z,14Z,17Z)-2OH(5S,6R)/0:0) is an oxidized monoacyglycerol (MG). Oxidized monoacyglycerols are glycerolipids in which the fatty acyl chain has undergone oxidation. As all oxidized lipids, oxidized monoacyglycerols belong to a group of biomolecules that have a role as signaling molecules. The biosynthesis of oxidized lipids is mediated by several enzymatic families, including cyclooxygenases (COX), lipoxygenases (LOX) and cytochrome P450s (CYP). Non-enzymatically oxidized lipids are produced by uncontrolled oxidation through free radicals and are considered harmful to human health (PMID: 33329396). As is the case with other lipids, monoacyglycerols can be substituted by different fatty acids, with varying lengths, saturation and degrees of oxidation attached at the C-1, C-2 and C-3 positions. Lipids are ubiquitous in nature and are key components of the lipid bilayer of cells, as well as being involved in metabolism and signaling. Similarly to what occurs with lipids, the fatty acid distribution at the C-1 and C-2 positions of glycerol within oxidized lipids is continually in flux, owing to lipid degradation and the continuous lipid remodeling that occurs while these molecules are in membranes. Oxidized MGs can be synthesized via three different routes. In one route, the oxidized MG is synthetized de novo following the same mechanisms as for MGs but incorporating an oxidized acyl chain (PMID: 33329396). An alternative is the transacylation of the non-oxidized acyl chains with an oxidized acylCoA (PMID: 33329396). The third pathway results from the oxidation of the acyl chain while still attached to the MG backbone, mainly through the action of LOX (PMID: 33329396).
DG(2:0/18:2(10E,12Z)+=O(9)/0:0)
DG(2:0/18:2(10E,12Z)+=O(9)/0:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. DG(2:0/18:2(10E,12Z)+=O(9)/0:0) is also a substrate of diacylglycerol kinase. It is involved in the phospholipid metabolic pathway.
DG(18:2(10E,12Z)+=O(9)/2:0/0:0)
DG(18:2(10E,12Z)+=O(9)/2:0/0:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. DG(18:2(10E,12Z)+=O(9)/2:0/0:0) is also a substrate of diacylglycerol kinase. It is involved in the phospholipid metabolic pathway.
DG(2:0/0:0/18:2(10E,12Z)+=O(9))
DG(2:0/0:0/18:2(10E,12Z)+=O(9)) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. It is involved in the phospholipid metabolic pathway.
DG(18:2(10E,12Z)+=O(9)/0:0/2:0)
DG(18:2(10E,12Z)+=O(9)/0:0/2:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. It is involved in the phospholipid metabolic pathway.
DG(2:0/18:2(9Z,11E)+=O(13)/0:0)
DG(2:0/18:2(9Z,11E)+=O(13)/0:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. DG(2:0/18:2(9Z,11E)+=O(13)/0:0) is also a substrate of diacylglycerol kinase. It is involved in the phospholipid metabolic pathway.
DG(18:2(9Z,11E)+=O(13)/2:0/0:0)
DG(18:2(9Z,11E)+=O(13)/2:0/0:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. DG(18:2(9Z,11E)+=O(13)/2:0/0:0) is also a substrate of diacylglycerol kinase. It is involved in the phospholipid metabolic pathway.
DG(2:0/0:0/18:2(9Z,11E)+=O(13))
DG(2:0/0:0/18:2(9Z,11E)+=O(13)) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. It is involved in the phospholipid metabolic pathway.
DG(18:2(9Z,11E)+=O(13)/0:0/2:0)
DG(18:2(9Z,11E)+=O(13)/0:0/2:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. It is involved in the phospholipid metabolic pathway.
DG(2:0/18:3(10,12,15)-OH(9)/0:0)
DG(2:0/18:3(10,12,15)-OH(9)/0:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. DG(2:0/18:3(10,12,15)-OH(9)/0:0) is also a substrate of diacylglycerol kinase. It is involved in the phospholipid metabolic pathway.
DG(18:3(10,12,15)-OH(9)/2:0/0:0)
DG(18:3(10,12,15)-OH(9)/2:0/0:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. DG(18:3(10,12,15)-OH(9)/2:0/0:0) is also a substrate of diacylglycerol kinase. It is involved in the phospholipid metabolic pathway.
DG(2:0/0:0/18:3(10,12,15)-OH(9))
DG(2:0/0:0/18:3(10,12,15)-OH(9)) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. It is involved in the phospholipid metabolic pathway.
DG(18:3(10,12,15)-OH(9)/0:0/2:0)
DG(18:3(10,12,15)-OH(9)/0:0/2:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. It is involved in the phospholipid metabolic pathway.
DG(2:0/18:3(9,11,15)-OH(13)/0:0)
DG(2:0/18:3(9,11,15)-OH(13)/0:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. DG(2:0/18:3(9,11,15)-OH(13)/0:0) is also a substrate of diacylglycerol kinase. It is involved in the phospholipid metabolic pathway.
DG(18:3(9,11,15)-OH(13)/2:0/0:0)
DG(18:3(9,11,15)-OH(13)/2:0/0:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. DG(18:3(9,11,15)-OH(13)/2:0/0:0) is also a substrate of diacylglycerol kinase. It is involved in the phospholipid metabolic pathway.
DG(2:0/0:0/18:3(9,11,15)-OH(13))
DG(2:0/0:0/18:3(9,11,15)-OH(13)) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. It is involved in the phospholipid metabolic pathway.
DG(18:3(9,11,15)-OH(13)/0:0/2:0)
DG(18:3(9,11,15)-OH(13)/0:0/2:0) belongs to the family of Diacylglycerols. These are glycerolipids lipids containing a common glycerol backbone to which at least one fatty acyl group is esterified. It is involved in the phospholipid metabolic pathway.
methyl-13S,15-dihydroxy-14R-acetoxy-1(10)-ent-halimen-18-oate
methyl-2alpha-acetoxy-3alpha,9beta-dihydroxy-9-epi-labd-13(E)-en-15-oate
(rel-3S,5S,8R,9R,10S,13S,15S,16R)-3-acetoxy-9,13; 15,16-diepoxy-15,16-dimethoxylabdane|vitextrifolin A
tilorone
J - Antiinfectives for systemic use > J05 - Antivirals for systemic use > J05A - Direct acting antivirals D007155 - Immunologic Factors > D007369 - Interferon Inducers D000890 - Anti-Infective Agents > D000998 - Antiviral Agents C254 - Anti-Infective Agent > C281 - Antiviral Agent D000893 - Anti-Inflammatory Agents D000970 - Antineoplastic Agents Tilorone is an orally active antiviral agent and interferon inducer that also has potential antineoplastic, immunomodulatory, and metabolic modulating effects. Tilorone induces an abnormally delayed interferon response and primarily stimulates interferon production in lymphoid tissue. Thus, Tilorone exerts antiviral effects and can be used as a chemotherapeutic agent. Tilorone has the potential to inhibit type 2 diabetes by increasing glucose uptake in vivo and in skeletal muscle cells by enhancing Akt2/AS160 signaling and glucose transporter levels[1][2][3][4][5].
Pro Pro Val Val
Pro Val Pro Val
Pro Val Val Pro
Val Pro Pro Val
Val Pro Val Pro
Val Val Pro Pro
trans-4-Pentylcyclohexanecarboxylic acid 2,3-dicyano-4-(pentyloxy)phenyl ester
(Z)-4-[3-(2-CHLORO-9H-THIOXANTHEN-9-YLIDENE)PROPYL]PIPERAZINE-1-ETHANOLDIHYDROCHLORIDE
[(2S)-1-acetyloxy-3-hydroxypropan-2-yl] (10E,12E,15E)-9-hydroxyoctadeca-10,12,15-trienoate
[(2S)-2-acetyloxy-3-hydroxypropyl] (10E,12E,15E)-9-hydroxyoctadeca-10,12,15-trienoate
[(2R)-3-acetyloxy-2-hydroxypropyl] (10E,12E,15E)-9-hydroxyoctadeca-10,12,15-trienoate
[(2S)-3-acetyloxy-2-hydroxypropyl] (10E,12E,15E)-9-hydroxyoctadeca-10,12,15-trienoate
[(2S)-1-acetyloxy-3-hydroxypropan-2-yl] (9E,11E,15E)-13-hydroxyoctadeca-9,11,15-trienoate
[(2S)-2-acetyloxy-3-hydroxypropyl] (9E,11E,15E)-13-hydroxyoctadeca-9,11,15-trienoate
[(2R)-3-acetyloxy-2-hydroxypropyl] (9E,11E,15E)-13-hydroxyoctadeca-9,11,15-trienoate
[(2S)-3-acetyloxy-2-hydroxypropyl] (9E,11E,15E)-13-hydroxyoctadeca-9,11,15-trienoate
[3-carboxy-2-[(3E,5E,11E)-14-carboxytetradeca-3,5,11-trienoyl]oxypropyl]-trimethylazanium
C22H36NO6+ (410.25424960000004)
[3-carboxy-2-[(9E,11E,13E)-14-carboxytetradeca-9,11,13-trienoyl]oxypropyl]-trimethylazanium
C22H36NO6+ (410.25424960000004)
[3-carboxy-2-[(3E,6E,9E)-14-carboxytetradeca-3,6,9-trienoyl]oxypropyl]-trimethylazanium
C22H36NO6+ (410.25424960000004)
[3-carboxy-2-[(7E,10E,13E)-14-carboxytetradeca-7,10,13-trienoyl]oxypropyl]-trimethylazanium
C22H36NO6+ (410.25424960000004)
[3-carboxy-2-[(4E,6E,8E)-14-carboxytetradeca-4,6,8-trienoyl]oxypropyl]-trimethylazanium
C22H36NO6+ (410.25424960000004)
[3-carboxy-2-[(5E,8E,11E)-14-carboxytetradeca-5,8,11-trienoyl]oxypropyl]-trimethylazanium
C22H36NO6+ (410.25424960000004)
[3-carboxy-2-[(2E,6E,10E)-14-carboxytetradeca-2,6,10-trienoyl]oxypropyl]-trimethylazanium
C22H36NO6+ (410.25424960000004)
[3-carboxy-2-[(5E,7E,9E)-14-carboxytetradeca-5,7,9-trienoyl]oxypropyl]-trimethylazanium
C22H36NO6+ (410.25424960000004)
[3-carboxy-2-[(3E,5E,7E)-14-carboxytetradeca-3,5,7-trienoyl]oxypropyl]-trimethylazanium
C22H36NO6+ (410.25424960000004)
N-[2-[4-(4-fluorophenyl)-1-piperazinyl]-2-(3-pyridinyl)ethyl]cyclohexanecarboxamide
C24H31FN4O (410.24817679999995)
5-tert-butyl-N-[2-(cyclopentylamino)-2-oxoethyl]-N-(2,5-dimethylphenyl)-3-methyl-2-furancarboxamide
1,3-dihydroxypropan-2-yl (5Z,8Z,11Z,13E,15S)-15-hydroperoxyicosa-5,8,11,13-tetraenoate
(E)-3-(((quinolin-8-ylmethylene)amino)oxy)butyl undec-10-enoate
[2-(Butanoylamino)-3-hydroxynonyl] 2-(trimethylazaniumyl)ethyl phosphate
C18H39N2O6P (410.25456040000006)
(2-Acetamido-3-hydroxyundecyl) 2-(trimethylazaniumyl)ethyl phosphate
C18H39N2O6P (410.25456040000006)
[3-Hydroxy-2-(propanoylamino)decyl] 2-(trimethylazaniumyl)ethyl phosphate
C18H39N2O6P (410.25456040000006)
[3-Hydroxy-2-(pentanoylamino)octyl] 2-(trimethylazaniumyl)ethyl phosphate
C18H39N2O6P (410.25456040000006)
TG(20:2)
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