Exact Mass: 442.4286764
Exact Mass Matches: 442.4286764
Found 500 metabolites which its exact mass value is equals to given mass value 442.4286764
,
within given mass tolerance error 0.05 dalton. Try search metabolite list with more accurate mass tolerance error
0.01 dalton.
Erythrodiol
Erythrodiol is a pentacyclic triterpene, found in the non-glyceride fraction of olive pomace oil (Olive pomace oil, also known as "orujo" olive oil, is a blend of refined-pomace oil and virgin olive oil, fit for human consumption). Pentacyclic triterpenes are natural compounds which are widely distributed in plants. These natural products have been demonstrated to possess anti-inflammatory properties. Triterpenoids have been reported to possess antioxidant properties, since they prevent lipid peroxidation and suppress superoxide anion generation. The triterpenes have a history of medicinal use in many Asian countries. Erythrodiol exhibits both pro- and anti-inflammatory properties depending on chemical structure and dose and may be useful in modulating the immune response; further studies are required to confirm the immunomodulatory behaviour of this triterpenoid, and characterise the mechanisms underlying the biphasic nature of some aspects of the inflammatory response. (PMID: 17292619, 15522132). Erythrodiol is a pentacyclic triterpenoid that is beta-amyrin in which one of the hydrogens of the methyl group at position 28 has been replaced by a hydroxy group. It is a plant metabolite found in olive oil as well as in Rhododendron ferrugineum and other Rhododendron species. It has a role as a plant metabolite. It is a pentacyclic triterpenoid, a primary alcohol, a secondary alcohol and a diol. It is functionally related to a beta-amyrin. Erythrodiol is a natural product found in Salacia chinensis, Monteverdia ilicifolia, and other organisms with data available. See also: Calendula Officinalis Flower (part of); Centaurium erythraea whole (part of). A pentacyclic triterpenoid that is beta-amyrin in which one of the hydrogens of the methyl group at position 28 has been replaced by a hydroxy group. It is a plant metabolite found in olive oil as well as in Rhododendron ferrugineum and other Rhododendron species. Found in grapes, olives, pot marigold (Calendula officinalis) and other plants Erythrodiol is an olive oil component. Erythrodiol promotes Cholesterol efflux (ChE) by selectively inhibiting the degradation of ABCA1 protein. Erythrodiol is a good candidate to be further explored for therapeutic or preventive application in the context of atherosclerosis[1]. Erythrodiol is an olive oil component. Erythrodiol promotes Cholesterol efflux (ChE) by selectively inhibiting the degradation of ABCA1 protein. Erythrodiol is a good candidate to be further explored for therapeutic or preventive application in the context of atherosclerosis[1].
Betulin
Betulin is found in black elderberry. Betulin is a constituent of Corylus avellana (filbert) and Vicia faba. Betulin (lup-20(29)-ene-3 ,28-diol) is an abundant naturally occurring triterpene. It is commonly isolated from the bark of birch trees and forms up to 30\\\\\% of the dry weight of the extractive. The purpose of the compound in the bark is not known. It can be converted to betulinic acid (the alcohol group replaced by a carboxylic acid group), which is biologically more active than betulin itself. Chemically, betulin is a triterpenoid of lupane structure. It has a pentacyclic ring structure, and hydroxyl groups in positions C3 and C28 Betulin is a pentacyclic triterpenoid that is lupane having a double bond at position 20(29) as well as 3beta-hydroxy and 28-hydroxymethyl substituents. It has a role as a metabolite, an antiviral agent, an analgesic, an anti-inflammatory agent and an antineoplastic agent. It is a pentacyclic triterpenoid and a diol. It derives from a hydride of a lupane. Betulin is a natural product found in Diospyros morrisiana, Euonymus carnosus, and other organisms with data available. A pentacyclic triterpenoid that is lupane having a double bond at position 20(29) as well as 3beta-hydroxy and 28-hydroxymethyl substituents. Constituent of Corylus avellana (filbert) and Vicia faba Betulin (Trochol), is a sterol regulatory element-binding protein (SREBP) inhibitor with an IC50 of 14.5 μM in K562 cell line. Betulin (Trochol), is a sterol regulatory element-binding protein (SREBP) inhibitor with an IC50 of 14.5 μM in K562 cell line. Betulin (Trochol), is a sterol regulatory element-binding protein (SREBP) inhibitor with an IC50 of 14.5 μM in K562 cell line.
alpha-Onocerol
A triterpenoid that is ethane in which each carbon has been substituted by a (1R,4aR,6S,8aS)-6-hydroxy-5,5,8a-trimethyl-2-methylenedecahydronaphthalen-1-yl group.
Maniladiol
A pentacyclic triterpenoid that is olean-12-ene in which the hydrogens at the 3beta and 16beta positions have been replaced by hydroxy groups.
Daturadiol
A pentacyclic triterpenoid that is olean-12-ene in which the hydrogens at the 3beta and 6beta positions have been replaced by hydroxy groups. Found in the seeds of the downy thorn-apple, Datura innoxia.
(3S,9R,13R,14S)-4,4,9,13,14-pentamethyl-17-[(2R)-6-methylhept-5-en-2-yl]-2,3,7,8,10,11,12,15,16,17-decahydro-1H-cyclopenta[a]phenanthrene-3,11-diol
Uvaol
Uvaol is a pentacyclic triterpene, found in the non-glyceride fraction of olive pomace oil (Olive pomace oil, also known as "orujo" olive oil, is a blend of refined-pomace oil and virgin olive oil, fit for human consumption). Pentacyclic triterpenes are natural compounds which are widely distributed in plants. These natural products have been demonstrated to possess anti-inflammatory properties. Triterpenoids have been reported to possess antioxidant properties, since they prevent lipid peroxidation and suppress superoxide anion generation. The triterpenes have a history of medicinal use in many Asian countries. Uvaol exhibits both pro- and anti-inflammatory properties depending on chemical structure and dose and may be useful in modulating the immune response; further studies are required to confirm the immunomodulatory behaviour of this triterpenoid, and characterise the mechanisms underlying the biphasic nature of some aspects of the inflammatory response. (PMID:17292619). Uvaol is a triterpenoid. It has a role as a metabolite. Uvaol is a natural product found in Salacia chinensis, Debregeasia saeneb, and other organisms with data available. Constituent of olive oil and Osmanthus fragrans (sweet osmanthus) A natural product found in Rhododendron ferrugineum. Uvaol, a triterpene present in olives and virgin olive oil, possesses anti-inflammatory properties and antioxidant effects. Uvaol attenuates pleuritis and eosinophilic inflammation in ovalbumin-induced allergy in mice[1]. Uvaol, a triterpene present in olives and virgin olive oil, possesses anti-inflammatory properties and antioxidant effects. Uvaol attenuates pleuritis and eosinophilic inflammation in ovalbumin-induced allergy in mice[1].
Coflodiol
(3alpha,16alpha)-13(18)-Oleanene-3,16-diol is found in fruits. (3alpha,16alpha)-13(18)-Oleanene-3,16-diol is a constituent of Canarium album (Chinese white olive). Constituent of Canarium album (Chinese white olive). (3alpha,16alpha)-13(18)-Oleanene-3,16-diol is found in fruits.
Faradiol
Constituent of Tussilago farfara (coltsfoot), Helianthus annuus (sunflower) and Calendula officinalis (pot marigold). Faradiol is found in many foods, some of which are tea, dandelion, sunflower, and fats and oils. Faradiol is found in dandelion. Faradiol is a constituent of Tussilago farfara (coltsfoot), Helianthus annuus (sunflower) and Calendula officinalis (pot marigold)
gamma-Taraxastanonol
gamma-Taraxastanonol is found in fruits. gamma-Taraxastanonol is a constituent of Mangifera indica (mango). Constituent of Mangifera indica (mango). gamma-Taraxastanonol is found in fruits.
Masticadienediol
Masticadienediol is found in nuts. Masticadienediol is a constituent of Pistacia vera (pistachio) Constituent of Pistacia vera (pistachio). Masticadienediol is found in nuts.
Arnidenediol
Arnidenediol is found in alcoholic beverages. Arnidenediol is found in many plants, including Taraxacum officinale (dandelion Found in many plants, including Taraxacum officinale (dandelion) Arnidiol is a pentacyclic triterpene isolated from Barleria Longiflora Linn F.[1]. Arnidiol is a pentacyclic triterpene isolated from Barleria Longiflora Linn F.[1].
Brein
Constituent of Manila elemi resin and oil (Canarium communis), Elemi oil has a citrus-like smell, a bit spicy and is pale in color. In the Philippines the Elemi tree is known locally as Pili". The main chemical components of elemi oil are terpineol, elemicine, elemol, dipentene, phellandrene and limonene. It is also found in Baccharis rhomboidalis (a spice shrub primarily found in Chile), Euphorbia species (also commonly referred to as "Spurges"), Farfugium species and others. Constituent of Manila elemi resin (Canarium communis), Baccharis rhomboidalis, Euphorbia subspecies, Farfugium subspecies and others [CCD]. Brein is found in sunflower.
Maniladiol
3alpha-Maniladiol is found in fruits. 3alpha-Maniladiol is a constituent of Canarium album (Chinese white olive). Constituent of Calendula officinalis (pot marigold). Maniladiol is found in sunflower.
3beta-20(29)-Lupene-3,27-diol
3beta-20(29)-Lupene-3,27-diol is found in fats and oils. 3beta-20(29)-Lupene-3,27-diol is a constituent of Sapium sebiferum (Chinese tallowtree)
MG(24:0/0:0/0:0)
MG(24:0/0:0/0:0) is a monoacylglyceride. A monoglyceride, more correctly known as a monoacylglycerol, is a glyceride consisting of one fatty acid chain covalently bonded to a glycerol molecule through an ester linkage. Monoacylglycerol can be broadly divided into two groups; 1-monoacylglycerols (or 3-monoacylglycerols) and 2-monoacylglycerols, depending on the position of the ester bond on the glycerol moiety. Normally the 1-/3-isomers are not distinguished from each other and are termed alpha-monoacylglycerols, while the 2-isomers are beta-monoacylglycerols. Monoacylglycerols are formed biochemically via release of a fatty acid from diacylglycerol by diacylglycerol lipase or hormone sensitive lipase. Monoacylglycerols are broken down by monoacylglycerol lipase. They tend to be minor components only of most plant and animal tissues, and indeed would not be expected to accumulate because their strong detergent properties would have a disruptive effect on membranes. 2-Monoacylglycerols are a major end product of the intestinal digestion of dietary fats in animals via the enzyme pancreatic lipase. They are taken up directly by the intestinal cells and converted to triacylglycerols via the monoacylglycerol pathway before being transported in lymph to the liver. Mono- and Diglycerides are commonly added to commercial food products in small quantities. They act as emulsifiers, helping to mix ingredients such as oil and water that would not otherwise blend well. MG(24:0/0:0/0:0) belongs to the family of monoradyglycerols, which are glycerolipids lipids containing a common glycerol backbone to which at one fatty acyl group is attached. Their general formula is [R1]OCC(CO[R2])O[R3]. MG(24:0/0:0/0:0) is made up of one tetracosanoyl(R1).
(3beta,16alpha)-7-Baurene-3,16-diol
(3beta,16alpha)-7-Baurene-3,16-diol is found in tea. (3beta,16alpha)-7-Baurene-3,16-diol is a constituent of Tussilago farfara (coltsfoot). Constituent of Tussilago farfara (coltsfoot). (3beta,16alpha)-7-Baurene-3,16-diol is found in tea.
Myricadiol
Myricadiol is a constituent of Lithocarpus cornea, Myrica species, Scaevola frutescens and others [CCD] Constituent of Lithocarpus cornea, Myrica subspecies, Scaevola frutescens and others [CCD]
(3beta,21alphaH)-22(30)-Hopene-3,29-diol
(3beta,21alphaH)-22(30)-Hopene-3,29-diol is found in fruits. (3beta,21alphaH)-22(30)-Hopene-3,29-diol is a constituent of Rhodomyrtus tomentosa (hill gooseberry) Constituent of Rhodomyrtus tomentosa (hill gooseberry). (3beta,21alphaH)-22(30)-Hopene-3,29-diol is found in fruits.
Mangiferadiol
Mangiferadiol is found in fruits. Mangiferadiol is a constituent of Mangifera indica (mango)
3alpha-12-Ursene-3,24-diol
3alpha-12-Ursene-3,24-diol is found in herbs and spices. 3alpha-12-Ursene-3,24-diol is a constituent of Boswellia serrata (Indian olibanum). Constituent of Boswellia serrata (Indian olibanum). 3alpha-12-Ursene-3,24-diol is found in herbs and spices.
3beta-Cycloart-5-ene-3,25-diol
3beta-Cycloart-5-ene-3,25-diol is found in cereals and cereal products. 3beta-Cycloart-5-ene-3,25-diol is a constituent of mature wheat straw (Triticum aestivum).
MG(0:0/24:0/0:0)
MG(0:0/24:0/0:0) is a monoacylglyceride. A monoglyceride, more correctly known as a monoacylglycerol, is a glyceride consisting of one fatty acid chain covalently bonded to a glycerol molecule through an ester linkage. Monoacylglycerol can be broadly divided into two groups; 1-monoacylglycerols (or 3-monoacylglycerols) and 2-monoacylglycerols, depending on the position of the ester bond on the glycerol moiety. Normally the 1-/3-isomers are not distinguished from each other and are termed alpha-monoacylglycerols, while the 2-isomers are beta-monoacylglycerols. Monoacylglycerols are formed biochemically via release of a fatty acid from diacylglycerol by diacylglycerol lipase or hormone sensitive lipase. Monoacylglycerols are broken down by monoacylglycerol lipase. They tend to be minor components only of most plant and animal tissues, and indeed would not be expected to accumulate because their strong detergent properties would have a disruptive effect on membranes. 2-Monoacylglycerols are a major end product of the intestinal digestion of dietary fats in animals via the enzyme pancreatic lipase. They are taken up directly by the intestinal cells and converted to triacylglycerols via the monoacylglycerol pathway before being transported in lymph to the liver. Mono- and Diglycerides are commonly added to commercial food products in small quantities. They act as emulsifiers, helping to mix ingredients such as oil and water that would not otherwise blend well. MG(0:0/24:0/0:0) belongs to the family of monoradyglycerols, which are glycerolipids lipids containing a common glycerol backbone to which at one fatty acyl group is attached. Their general formula is [R1]OCC(CO[R2])O[R3]. MG(0:0/24:0/0:0) is made up of one tetracosanoyl(R2).
4,4-Dimethyl-14alpha-formyl-5alpha-cholesta-8-en-3beta-ol
4, 4-Dimethyl-14alpha-formyl-5alpha-cholesta-8-en-3beta-ol is a 3-beta-hydroxysterol that is an intermediate in cholesterol biosynthesis. It is a substrate for lanosterol 14alpha-demethylase (CYP51A1) and can be generated from the enzymatic oxidation of 4,4-dimethyl-14alpha-hydroxymethyl-5alpha-cholesta-8-en-3beta-ol. The sequence of reactions and the types of intermediates in cholesterol biosynthesis may vary. Alternate routes exist because reduction of the carbon 24,25 double bond on the hydrocarbon side chain of the sterol ring structure by sterol delta24-reductase can occur at multiple points in the pathway, giving rise to different intermediates. These intermediates, with or without a double bond in the hydrocarbon side chain, can serve as substrates for the other enzymes in the pathway.
4,4-dimethyl-14alpha-formyl-5alpha-cholest-8-en-3beta-ol
4,4-dimethyl-14alpha-formyl-5alpha-cholest-8-en-3beta-ol is also known as 3-beta-Hydroxylanost-8-en-32-aldehyde or 32-oxo-24,25-Dihydrolanosterol. 4,4-dimethyl-14alpha-formyl-5alpha-cholest-8-en-3beta-ol is considered to be practically insoluble (in water) and basic. 4,4-dimethyl-14alpha-formyl-5alpha-cholest-8-en-3beta-ol is a sterol lipid molecule
MG(0:0/i-24:0/0:0)
MG(0:0/i-24:0/0:0) belongs to the family of monoradyglycerols, which are glycerolipids lipids containing a common glycerol backbone to which at one fatty acyl group is attached. Their general formula is [R1]OCC(CO[R2])O[R3]. MG(0:0/i-24:0/0:0) is made up of one 22-methyltricosanoyl(R2).
MG(i-24:0/0:0/0:0)
MG(i-24:0/0:0/0:0) belongs to the family of monoradyglycerols, which are glycerolipids lipids containing a common glycerol backbone to which at one fatty acyl group is attached. Their general formula is [R1]OCC(CO[R2])O[R3]. MG(i-24:0/0:0/0:0) is made up of one 22-methyltricosanoyl(R1).
Dioxidosqualene
Sophoradiol
Calenduladiol
Calenduladiol is a member of the class of compounds known as triterpenoids. Triterpenoids are terpene molecules containing six isoprene units. Calenduladiol is practically insoluble (in water) and an extremely weak acidic compound (based on its pKa). Calenduladiol can be found in sunflower, which makes calenduladiol a potential biomarker for the consumption of this food product.
14-hydroxylanosterol
14-hydroxylanosterol is a member of the class of compounds known as triterpenoids. Triterpenoids are terpene molecules containing six isoprene units. 14-hydroxylanosterol is practically insoluble (in water) and an extremely weak acidic compound (based on its pKa). 14-hydroxylanosterol can be found in a number of food items such as anise, cucurbita (gourd), oil palm, and tea leaf willow, which makes 14-hydroxylanosterol a potential biomarker for the consumption of these food products. 14-hydroxylanosterol exists in all eukaryotes, ranging from yeast to humans. Obtusifoliol belongs to the class of organic compounds known as triterpenoids. These are terpene molecules containing six isoprene units. Obtusifoliol is an extremely weak basic (essentially neutral) compound (based on its pKa).
4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol
4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol belongs to stigmastanes and derivatives class of compounds. Those are sterol lipids with a structure based on the stigmastane skeleton, which consists of a cholestane moiety bearing an ethyl group at the carbon atom C24. 4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol is practically insoluble (in water) and a very weakly acidic compound (based on its pKa). 4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol can be found in a number of food items such as rosemary, oval-leaf huckleberry, muskmelon, and garden tomato (variety), which makes 4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol a potential biomarker for the consumption of these food products.
Arnidiol
Arnidenediol is a triterpenoid. Arnidenediol is a natural product found in Jacobaea minuta, Centipeda minima, and other organisms with data available. See also: Calendula Officinalis Flower (part of). Arnidiol is a pentacyclic triterpene isolated from Barleria Longiflora Linn F.[1]. Arnidiol is a pentacyclic triterpene isolated from Barleria Longiflora Linn F.[1].
Glochidiol
20(29)-lupene-1beta,3alpha-diol is a pentacyclic triterpenoid that is lup-20(29)-ene substituted by hydroxy groups at positions 1 and 3 respectively (the 1beta,3alpha-stereoisomer). It has been isolated from Breynia fruticosa. It has a role as a plant metabolite. It is a pentacyclic triterpenoid and a diol. It derives from a hydride of a lupane. 20(29)-Lupene-1beta,3alpha-diol is a natural product found in Boswellia sacra, Glochidion zeylanicum, and other organisms with data available.
2-hydroxy-4,4a,6b,8a,11,11,12b,14a-octamethylicosahydropicen-3(2h)-one
29-Hydroxyfriedelin
A pentacyclic triterpenoid with formula C30H50O2, originally isolated from Tripterygium hypoglaucum.
cycloart-23-ene-3beta,25-diol
A natural product found in Lippia mexicana.
4beta-hydroxy-4-epishion-21-en-3-one|astertarone B
3beta,11-alpha-dihydroxyurs-12-ene|3beta,11alpha-dihydroxy urs-12-ene|3beta,11alpha-Dihydroxy-urs-12-en|Urs-12-en-3beta,11alpha-diol|urs-12-ene-3beta,11alpha-diol
(24S)-24-methyl-5alpha-cholest-7-en-3beta-yl acetate|3beta-Acetoxy-5alpha-ergost-7-en|3beta-acetoxy-5alpha-ergost-7-ene|ergost-7-en-3-beta-yl acetate|ergost-7-en-3beta-ol acetate|Fungisterol acetate|fungisteryl acetate
Uvaol
Uvaol, a triterpene present in olives and virgin olive oil, possesses anti-inflammatory properties and antioxidant effects. Uvaol attenuates pleuritis and eosinophilic inflammation in ovalbumin-induced allergy in mice[1]. Uvaol, a triterpene present in olives and virgin olive oil, possesses anti-inflammatory properties and antioxidant effects. Uvaol attenuates pleuritis and eosinophilic inflammation in ovalbumin-induced allergy in mice[1].
25-hydroxy-3-oxo-D:A-friedooleanane|25-hydroxy-D:A-friedo-oleanan-3-one|25-hydroxy-D:A-friedooleanan-3-one|25-Hydroxy-friedelan-3-on|25-hydroxy-friedelan-3-one|friedelan-3-on-25-ol
(23Z)-3beta,26-dihydroxytirucalla-7,23-diene|3beta,25-dihydroxy-tirucalla-7,23-diene
1beta-hydroxy-3-oxo-D:A-friedooleanane|1beta-hydroxyfriedelin
21alpha-hydroxy-D:A-friedo-olean-3-one|21alpha-hydroxy-D:A-friedooleanan-3-one|21alpha-Hydroxy-friedelan-3-on
betufernanediol B|fern-22(29)-ene-3alpha,12beta-diol
4alpha-hydroxymethyl,4beta,14alpha-dimethyl-9beta,19-cyclo-5alpha-cholest-24-en-3beta-ol
(23R*)-cycloarta-24-en-3beta,23-diol|(23S*)-cycloarta-24-en-3beta,23-diol
9-Hydroxy-4,4,6a,6b,10,10,12a,14b-octamethylicosahydro-3(2H)-picenone #
2-Ketone-3alpha-2, 3-Friedelanediol|3alpha-hydroxy-2-oxo-D:A-friedooleanane|3alpha-hydroxy-D:A-friedooleanan-2-one|3alpha-hydroxyfriedel-2-one|3alpha-hydroxyfriedelan-2-one|D:A-friedo-olean-2-one-3alpha-ol
(20E)-22-hydroxynigrum-20-en-3-one|(4beta,5beta,9beta,10alpha,17beta)-17-[(3E)-5-hydroxy-1,5-dimethylhex-3-en-1-yl]-4,5,9,14-tetramethylestran-3-one
3beta,27-dihydroxyolean-12-ene|champalinol|olean-12-ene-3beta,27-diol
3beta,12alpha-Dihydroxyfern-9(11)-en|fern-9(11)-ene-3beta,12alpha-diol
24-oxocycloartanol|3-beta-hydroxycycloart-24-one|3beta-Hydroxy-9beta,19-cyclo-lanostan-24-on|3beta-hydroxy-9beta,19-cyclo-lanostan-24-one|3??-Hydroxylcycloart-24-one|Lagerenol
15alpha-15-Hydroxy-3-friedelanone|15alpha-hydroxyfriedelan-3-one|15??-Hydroxyfriedelane-3-one
cornusalterin K
A tirucallane triterpenoid that is (13alpha,14beta,17alpha,20S)-lanost-5-ene substituted by an oxo group at position 3 and a beta-hydroxy group at position 1.
24beta-Methylcholest-9(11)-enol acetate|acetic acid-(5alpha-ergost-9(11)-en-3beta-yl ester)|Essigsaeure-(5alpha-ergost-9(11)-en-3beta-ylester)
3,4-seco-20(29)-lupen-3-oic acid|3,4-seco-lup-20(29)-en-3-oic acid|3,4-secolup-20(29)-en-3-oic acid|di-hydrocanaric acid|dihydrocanaric acid|Dihydrokanarsaeure
3beta-Cycloart-24-ene-3,21-diol|5alpha-Cycloart-24-en-3beta,21-diol
(4aR)-10t-Methoxy-2.2.4ar.6ac.8ac.9c.12bc.14at-octamethyl-(6btH.12atH.14bcH)-docosahydro-picen|3alpha-Methoxy-D:A-friedo-oleanan|3alpha-Methoxy-friedelan|3alpha-methoxy-friedelane|3alpha-methoxyfriedelan|friedelanol methyl ether|Me ether-Friedelinol|Methyl-(friedelanyl-(3alpha))-aether
1, 3-Friedelanedione|3alpha-hydroxy-1-oxofriedelan
3beta,29-dihydroxy-D:B-friedoolean-5-en|D:B-friedoolean-5-ene-3beta,29-diol
3-oxofriedelan-4alpha-ol|4alpha-hydroxyfriedel-3-one|4alpha-hydroxyfriedelan-3-one
(+)-(3beta)-3-hydroxy-29(20->19)abeolupan-20-one|3beta-hydroxy-20-oxo-29(20-19)abeolupane
14,15alpha-epoxy-taraxeran-3beta-ol|14alpha,15alpha-epoxy-3beta-hydroxytaraxerane
(8R)-3-oxo-8-hydroxy-polypoda-13E,17E,21-triene|(8R)-3-Oxo-8-hydroxypolypoda-13E,17E,21-triene
1,2-dehydro-2,3-secofriedelan-3-oic acid
A tetracyclic triterpenoid isolated from the leaves of Garcia parviflora.
4alpha-methyl-5alpha-cholest-8(14)-en-3beta-yl acetate
3beta-acetoxy-24alpha-methylcholest-20(21)-ene|acetyleucanbin
(2alpha,3beta)-olean-12-ene-2,3-diol|Delta12-Oleanen-2alpha,3beta-diol|olean-12-en-2alpha,3beta-diol
3beta,7beta-dihydroxy-22(29)-hopene
A hopanoid that is hop-22(29)-ene substituted by beta-hydroxy groups at positions 3 and 7. It has been isolated from Hypocrella species.
7beta,15alpha-dihydroxy-22(29)-hopene
A hopanoid that is hop-22(29)-ene substituted by hydroxy groups at positions 7 and 15 respectively. It has been isolated from Hypocrella species.
(3beta)-Lup-12-ene-3,28-diol|12,13-didehydro-20,29-dihydrobetulin|3,28-Dioxylup-12,13-en|3beta,28-Dihydroxy-12-lupen|3beta,28-Dihydroxy-lup-12-en
alpha,gamma-onoceradienediol|Onoceradien-(7.14,27)-diol-(3xi.21xi)
3beta,25.dihydroxy-lup-20(29)-ene|lup-20(29)-en-3beta,25-diol
19(10?9)-abeo-8alpha,9beta,10alpha-tirucalla-5,25-diene-3beta,24-diol
3S,21-dihydroxy-24-methylene-29-norcycloartane|perviridisinol C
(1alpha,3beta,8alpha,9beta,10alpha,13alpha,14beta)-9,13-dimethyl-25,26-dinorolean-5-en-1,3-diol
3beta-Cycloart-20-ene-3,25-diol|cycloart-20-ene-3beta,25-diol
24-methyl-5alpha-cholest-24(28)-en-3beta-yl acetate|3beta-Acetoxy-5alpha-ergost-24(28)-en|5Sa-ergosta-8,24(28)-dien-3beta-yl acetate
3beta-form-14-Taraxerene-3,24-diol|taraxer-14-ene-3beta,24-diol
(20RS)-3beta-hydroxylupan-29-al|(20S)-3beta-hydroxylupan-30-al|(20Xi)-3beta-hydroxy-lupan-29-al
(21RS)-21-hydroxynigrum-22(29)-en-3-one|(4beta,5beta,9beta,10alpha,17beta)-17-[(4RS)-4-hydroxy-1,5-dimethylhex-5-en-1-yl]-4,5,9,14-tetramethylestran-3-one
(3beta,17(20)Z)-Protosta-17(20),24-diene-3,29-diol|3beta-Hydroxy-4beta-hydroxymethyl-fusida-17(20)(16.21-cis)-24-dien|3beta-Hydroxy-4beta-hydroxymethyl-fusida-17(20)<16.21-cis>-24-dien|markiertes 3beta-Hydroxy-4beta-hydroxymethyl-fusida-17(20)<16.21-cis>-24-dien|protosta-17(20)Z,24-diene-3beta,29-diol
Isomasticadiendiol|Tirucalla-8,24c-dien-3beta,26-diol|tirucalla-8,24c-diene-3beta,26-diol
(21R)-D:B-friedobacchara-5,22-diene-3beta,21-diol|foliasalacin D2
22R-hydroxycycloartenol|3beta,22-dihydroxycycloart-24E-en-26-oic acid
(24S)-24-ethyl-3beta-methoxy-8alpha,9alpha-oxido-8,9-seco-5alpha-cholesta-7,9(11)-diene
epimacherinic acid|oleanan-28-oic acid|Oleanan-28-saeure|oleanonic acid
dammara-20,25-dien-3beta,24-diol|dammara-20,25-diene-3beta,24-diol
24-Ethyl-26,26-dimethyl-3beta-hydroxycholest-25(27)-ene
(1beta,3beta,5alpha,13alpha,17alpha)-4,4,8-trimethylcholesta-14,24-diene-1,3-diol|myrrhasin
(24S)-24-ethyl-3beta-methoxy-8alpha,9alpha-oxido-8,9-seco-5alpha-cholesta-7,8(14)-diene
D:B-friedobacchara-5,20-diene-3beta,20-diol|foliasalacin D1
24alpha-Ethyl-31-nor-5alpha-lanost-9(11)-en-3beta-ol
20-hydroxy-3,4-seco-dammara-4(30),24-dien-3-oic acid|20-Hydroxy-3,4-seco-dammara-4(30),24-dien-3-saeure|20-Hydroxy-8-methyl-3,4-seco-18-nor-lanosta-4(30),24-dien-3-saeure|Dammarenolsaeure
24-hydroperoxy-24xi-methyl-24-ethylcholesta-5,241-dien-3beta-ol
18alpha-Oleanan-19alpha-ol-3-on|19alpha-Hydroxy-18alpha-oleanan-3-on|19alpha-hydroxy-18alpha-oleanan-3-one
Ac-(3beta,5alpha,22E,24R)-3-Hydroxymethyl-A-norergost-22-ene
5alpha-lanosta-9(11),25-diene-3alpha,24-diol|lanost-9(11),25-diene-3beta,24beta-diol
4,4-Dimethyl-14a-hydroxymethyl-5a-cholesta-8,24-dien-3b-ol
4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol
21-Episerratenediol
21-Episerratenediol is a natural product found in Pinus luchuensis, Lycopodium clavatum, and other organisms with data available.
Myricadiol
(3S,4aR,6aR,6aS,8aS,12aS,14aR,14bR)-8a-(hydroxymethyl)-4,4,6a,6a,11,11,14b-heptamethyl-1,2,3,4a,5,6,8,9,10,12,12a,13,14,14a-tetradecahydropicen-3-ol is a natural product found in Tamarix aphylla, Scaevola spinescens, and other organisms with data available. See also: Myrica cerifera root bark (part of).
(2α,3β)-Olean-12-ene-2,3-diol
(2|A,3|A)-Olean-12-ene-2,3-diol is a natural product found in Viburnum cylindricum with data available.
Betulin
Betulin (Trochol), is a sterol regulatory element-binding protein (SREBP) inhibitor with an IC50 of 14.5 μM in K562 cell line. Betulin (Trochol), is a sterol regulatory element-binding protein (SREBP) inhibitor with an IC50 of 14.5 μM in K562 cell line. Betulin (Trochol), is a sterol regulatory element-binding protein (SREBP) inhibitor with an IC50 of 14.5 μM in K562 cell line.
thalianol epoxide
Erythrodiol
Erythrodiol is an olive oil component. Erythrodiol promotes Cholesterol efflux (ChE) by selectively inhibiting the degradation of ABCA1 protein. Erythrodiol is a good candidate to be further explored for therapeutic or preventive application in the context of atherosclerosis[1]. Erythrodiol is an olive oil component. Erythrodiol promotes Cholesterol efflux (ChE) by selectively inhibiting the degradation of ABCA1 protein. Erythrodiol is a good candidate to be further explored for therapeutic or preventive application in the context of atherosclerosis[1].
16α-Hydroxybauerenol
3beta-20(29)-Lupene-3,27-diol
(3beta,21alphaH)-22(30)-Hopene-3,29-diol
Masticadienediol
Mangiferadiol
3beta-Cycloart-5-ene-3,25-diol
3alpha-12-Ursene-3,24-diol
3-epi-glochidiol
A pentacyclic triterpenoid that is lup-20(29)-ene substituted by hydroxy groups at positions 1 and 3 respectively (the 1beta,3beta-stereoisomer). It has been isolated from Breynia fruticosa.
3aH-Cyclopenta[a]chrysene lup-18-ene-3,28-diol deriv.
beta-Onocerin
A triterpenoid that is ethane in which each carbon has been substituted by a (4aS,6S,8aS)-6-hydroxy-2,5,5,8a-tetramethyl-3,4,4a,5,6,7,8,8a-octahydronaphthalen-1-yl group.
3-[(3E,7E,11E,15E)-18-(3,3-dimethyloxiran-2-yl)-3,7,12,16-tetramethyloctadeca-3,7,11,15-tetraenyl]-2,2-dimethyloxirane
19,28-didehydroxyrubiarbonol A
A pentacyclic triterpenoid of the class of arborinane-type terpenoids isolated from the roots of Rubia yunnanensis.
rubiarbonol K
A pentacyclic triterpenoid of the class of arborinane-type terpenoids isolated from the roots of Rubia yunnanensis.
calenduladiol
4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol
4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol belongs to stigmastanes and derivatives class of compounds. Those are sterol lipids with a structure based on the stigmastane skeleton, which consists of a cholestane moiety bearing an ethyl group at the carbon atom C24. 4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol is practically insoluble (in water) and a very weakly acidic compound (based on its pKa). 4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol can be found in a number of food items such as rosemary, oval-leaf huckleberry, muskmelon, and garden tomato (variety), which makes 4alpha-hydroxymethyl-stigmasta-7,24(241)-dien-3beta-ol a potential biomarker for the consumption of these food products. 4α-hydroxymethyl-stigmasta-7,24(241)-dien-3β-ol belongs to stigmastanes and derivatives class of compounds. Those are sterol lipids with a structure based on the stigmastane skeleton, which consists of a cholestane moiety bearing an ethyl group at the carbon atom C24. 4α-hydroxymethyl-stigmasta-7,24(241)-dien-3β-ol is practically insoluble (in water) and a very weakly acidic compound (based on its pKa). 4α-hydroxymethyl-stigmasta-7,24(241)-dien-3β-ol can be found in a number of food items such as rosemary, oval-leaf huckleberry, muskmelon, and garden tomato (variety), which makes 4α-hydroxymethyl-stigmasta-7,24(241)-dien-3β-ol a potential biomarker for the consumption of these food products.
(3S,6aR,6bS,8aR,9R,14bR)-4,4,6a,6b,8a,11,11,14b-Octamethyl-1,2,3,4,4a,5,6,6a,6b,7,8,8a,9,10,11,12,12a,14,14a,14b-eicosahydro-picene-3,9-diol
2-[(3S,3aS,5aR,5bR,7aS,11aS,11bR,13aR,13bS)-5a,5b,8,8,10,11a,13b-heptamethyl-1,2,3,3a,4,5,6,7,7a,9,10,11,11b,12,13,13a-hexadecahydrocyclopenta[a]chrysen-3-yl]propan-2-ol
(3S,4aR,6aR,6aR,6bR,8aS,12aS,14aR,14bR)-4,4,6a,6b,9,9,11,12a,14b-nonamethyl-1,2,3,4a,5,6,6a,7,8,8a,10,11,12,13,14,14a-hexadecahydropicen-3-ol
(3S,6aR,6bS,8aS,11S,14bR)-11-(hydroxymethyl)-4,4,6a,6b,8a,11,14b-heptamethyl-1,2,3,4a,5,6,7,8,9,10,12,12a,14,14a-tetradecahydropicen-3-ol
(3S,4S,6aR,6bS,8aR,14bR)-4-(hydroxymethyl)-4,6a,6b,8a,11,11,14b-heptamethyl-1,2,3,4a,5,6,7,8,9,10,12,12a,14,14a-tetradecahydropicen-3-ol
(3S,6aR,6bS,8aR,14R,14bS)-4,4,6a,6b,8a,11,11,14b-octamethyl-1,2,3,4a,5,6,7,8,9,10,12,12a,14,14a-tetradecahydropicene-3,14-diol
(3beta,9beta)-4alpha-Demethyl-4alpha-formyl-9,19-cyclolanost-3-ol
(3-Carboxy-2-nonadecanoyloxypropyl)-trimethylazanium
C26H52NO4+ (442.38961320000004)
4-(hydroxymethyl)-10,13-dimethyl-17-[(Z)-5-propan-2-ylhept-5-en-2-yl]-2,3,4,5,6,9,11,12,14,15,16,17-dodecahydro-1H-cyclopenta[a]phenanthren-3-ol
[3-Carboxy-2-(17-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(15-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(8-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(9-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(5-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(14-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(13-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(12-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(7-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(6-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(16-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(4-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(3-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(11-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(10-methyloctadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
[3-Carboxy-2-(2,6,10,14-tetramethylpentadecanoyloxy)propyl]-trimethylazanium
C26H52NO4+ (442.38961320000004)
1Beta-Hydroxyfriedelin
A pentacyclic triterpenoid that is friedelin substituted by a beta-hydroxy group at position 1. It has been isolated from the leaves of Garcia parviflora.
alpha,gamma-Onoceradienediol
A triterpenoid isolated from Lansium domesticum.
4alpha-Hydroxymethyl-4beta,14alpha-dimethyl-9beta,19-cyclo-5alpha-cholest-24-en-3beta-ol
Nonadecanoyl-L-carnitine (chloride)
C26H52NO4+ (442.38961320000004)
(3S,22S)-2,3:22,23-diepoxy-2,3,22,23-tetrahydrosqualene
A squalene triterpenoid obtained by epoxidation accross the 2,3- and 22,23-double bonds of squalene.
3beta-hydroxylanost-8-en-32-al
A tetracyclic triterpenoid that is lanost-8-ene carrying hydroxy and oxo substituents at positions 3beta and 30 respectively.
1-tetracosanoylglycerol
A fatty acid ester resulting from the formal condensation of the hydroxy group at position-1 of glycerol with the carboxy group of tetracosanoic acid.
(12Z,15Z,18Z,21Z,24Z)-triacontapentaenoic acid
A very long-chain omega-6 fatty acid that is triacontanoic acid having five double bonds located at positions 12, 15, 18, 21 and 24 (the 12Z,15Z,18Z,21Z,24Z-isomer).
(15Z,18Z,21Z,24Z,27Z)-triacontapentaenoic acid
A very long-chain omega-3 fatty acid that is triacontapentaenoic acid having five double bonds located at positions 15, 18, 21, 24 and 27 (the 15Z,18Z,21Z,24Z,27Z-isomer).
2alpha,3beta-dihydroxylup-20(29)-ene
A pentacyclic triterpenoid that is lup-20(29)-ene substituted by hydroxy groups at positions 2 and 3 (the 2alpha,3beta stereoisomer). It has been isolated from Juglans sinensis.
2beta-methylhopan-22-ol
A hopanoid that consists of hopan-22-ol carrying an additional methyl substituent at the 2beta-position.
2beta-methyltetrahymanol
A pentacyclic triterpenoid that consists of tetrahymanol carrying an additional methyl substituent at the 2beta-position.
(21S)-21,22-epoxypolypoda-8(26)-13,17-trien-3beta-ol
A triterpenoid that is an intermediate in the biosynthesis of alpha-onocerin by the fern Lycopodium clavatum.
20(29)-lupene-1beta,3alpha-diol
A pentacyclic triterpenoid that is lup-20(29)-ene substituted by hydroxy groups at positions 1 and 3 respectively (the 1beta,3alpha-stereoisomer). It has been isolated from Breynia fruticosa.
11alpha-hydroxycucurbitadienol
A tetracyclic triterpenoid that is 4,9-cyclo-9,10-secocholesta-5,24-diene substituted by methyl groups at positions 9beta, 10, and 14, and by hydroxy groups at positions 1 and 11alpha.