NCBI Taxonomy: 3486

Quercitrin

C21H20O11 (448.1006)

Quercitrin, also known as quercimelin or quercitronic acid, belongs to the class of organic compounds known as flavonoid-3-o-glycosides. These are phenolic compounds containing a flavonoid moiety which is O-glycosidically linked to carbohydrate moiety at the C3-position. A quercetin O-glycoside that is quercetin substituted by a alpha-L-rhamnosyl moiety at position 3 via a glycosidic linkage. Quercitrin exists in all living organisms, ranging from bacteria to humans. Quercitrin is found, on average, in the highest concentration within a few different foods, such as lingonberries, american cranberries, and olives and in a lower concentration in common beans, tea, and welsh onions. Quercitrin has also been detected, but not quantified, in several different foods, such as guava, bilberries, common pea, apricots, and spearmints. Quercitrin is a quercetin O-glycoside that is quercetin substituted by a alpha-L-rhamnosyl moiety at position 3 via a glycosidic linkage. It has a role as an antioxidant, an antileishmanial agent, an EC 1.1.1.184 [carbonyl reductase (NADPH)] inhibitor, an EC 1.1.1.21 (aldehyde reductase) inhibitor, an EC 1.14.18.1 (tyrosinase) inhibitor and a plant metabolite. It is a monosaccharide derivative, a tetrahydroxyflavone, an alpha-L-rhamnoside and a quercetin O-glycoside. It is a conjugate acid of a quercitrin-7-olate. Quercitrin is a natural product found in Xylopia emarginata, Lotus ucrainicus, and other organisms with data available. Quercitrin is a glycoside formed from the flavonoid quercetin and the deoxy sugar rhamnose. It is a constituent of the dye quercitron. Quercitrin is found in many foods, some of which are garden tomato (variety), kiwi, italian sweet red pepper, and guava. A quercetin O-glycoside that is quercetin substituted by a alpha-L-rhamnosyl moiety at position 3 via a glycosidic linkage. [Raw Data] CBA03_Quercitrin_pos_10eV.txt [Raw Data] CBA03_Quercitrin_pos_20eV.txt [Raw Data] CBA03_Quercitrin_neg_50eV.txt [Raw Data] CBA03_Quercitrin_neg_30eV.txt [Raw Data] CBA03_Quercitrin_neg_10eV.txt [Raw Data] CBA03_Quercitrin_neg_40eV.txt [Raw Data] CBA03_Quercitrin_neg_20eV.txt [Raw Data] CBA03_Quercitrin_pos_50eV.txt [Raw Data] CBA03_Quercitrin_pos_30eV.txt [Raw Data] CBA03_Quercitrin_pos_40eV.txt Quercitrin. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=522-12-3 (retrieved 2024-07-09) (CAS RN: 522-12-3). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). Quercitrin (Quercetin 3-rhamnoside) is a bioflavonoid compound with potential anti-inflammation, antioxidative and neuroprotective effect. Quercitrin induces apoptosis of colon cancer cells. Quercitrin can be used for the research of cardiovascular and neurological disease research[1][2]. Quercitrin (Quercetin 3-rhamnoside) is a bioflavonoid compound with potential anti-inflammation, antioxidative and neuroprotective effect. Quercitrin induces apoptosis of colon cancer cells. Quercitrin can be used for the research of cardiovascular and neurological disease research[1][2]. Quercitrin (Quercetin 3-rhamnoside) is a bioflavonoid compound with potential anti-inflammation, antioxidative and neuroprotective effect. Quercitrin induces apoptosis of colon cancer cells. Quercitrin can be used for the research of cardiovascular and neurological disease research[1][2].

Epicatechin

C15H14O6 (290.079)

Epicatechin is an antioxidant flavonoid, occurring especially in woody plants as both (+)-catechin and (-)-epicatechin (cis) forms. Catechin is a tannin peculiar to green and white tea because the black tea oxidation process reduces catechins in black tea. Catechin is a powerful, water soluble polyphenol and antioxidant that is easily oxidized. Several thousand types are available in the plant world. As many as two thousand are known to have a flavon structure and are called flavonoids. Catechin is one of them. Green tea is manufactured from fresh, unfermented tea leaves; the oxidation of catechins is minimal, and hence they are able to serve as antioxidants. Researchers believe that catechin is effective because it easily sticks to proteins, blocking bacteria from adhering to cell walls and disrupting their ability to destroy them. Viruses have hooks on their surfaces and can attach to cell walls. The catechin in green tea prevents viruses from adhering and causing harm. Catechin reacts with toxins created by harmful bacteria (many of which belong to the protein family) and harmful metals such as lead, mercury, chrome, and cadmium. From its NMR espectra, there is a doubt on 2 and 3 atoms configuration. It seems to be that they are in trans position. Epicatechin, also known as (+)-cyanidanol-3 or 2,3-cis-epicatechin, is a member of the class of compounds known as catechins. Catechins are compounds containing a catechin moiety, which is a 3,4-dihydro-2-chromene-3,5.7-tiol. Thus, epicatechin is considered to be a flavonoid lipid molecule. Epicatechin is practically insoluble (in water) and a very weakly acidic compound (based on its pKa). Epicatechin can be found in cashew nut, which makes epicatechin a potential biomarker for the consumption of this food product. Epicatechin can be found primarily in blood, feces, and urine, as well as throughout most human tissues. Epicatechin is a flavan-3-ol, a type of natural phenol and antioxidant. It is a plant secondary metabolite. It belongs to the group of flavan-3-ols (or simply flavanols), part of the chemical family of flavonoids . (-)-epicatechin is a catechin with (2R,3R)-configuration. It has a role as an antioxidant. It is a polyphenol and a catechin. It is an enantiomer of a (+)-epicatechin. Epicatechin has been used in trials studying the treatment of Pre-diabetes. (-)-Epicatechin is a natural product found in Visnea mocanera, Litsea rotundifolia, and other organisms with data available. An antioxidant flavonoid, occurring especially in woody plants as both (+)-catechin and (-)-epicatechin (cis) forms. See also: Crofelemer (monomer of); Bilberry (part of); Cats Claw (part of) ... View More ... A catechin with (2R,3R)-configuration. [Raw Data] CB030_(-)-Epicatechin_pos_20eV_CB000016.txt [Raw Data] CB030_(-)-Epicatechin_pos_50eV_CB000016.txt [Raw Data] CB030_(-)-Epicatechin_pos_40eV_CB000016.txt [Raw Data] CB030_(-)-Epicatechin_pos_10eV_CB000016.txt [Raw Data] CB030_(-)-Epicatechin_pos_30eV_CB000016.txt [Raw Data] CB030_(-)-Epicatechin_neg_50eV_000009.txt [Raw Data] CB030_(-)-Epicatechin_neg_30eV_000009.txt [Raw Data] CB030_(-)-Epicatechin_neg_10eV_000009.txt [Raw Data] CB030_(-)-Epicatechin_neg_40eV_000009.txt [Raw Data] CB030_(-)-Epicatechin_neg_20eV_000009.txt Epicatechin. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=490-46-0 (retrieved 2024-07-09) (CAS RN: 490-46-0). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). (-)-Epicatechin inhibits cyclooxygenase-1 (COX-1) with an IC50 of 3.2 μM. (-)-Epicatechin inhibits the IL-1β-induced expression of iNOS by blocking the nuclear localization of the p65 subunit of NF-κB. (-)-Epicatechin inhibits cyclooxygenase-1 (COX-1) with an IC50 of 3.2 μM. (-)-Epicatechin inhibits the IL-1β-induced expression of iNOS by blocking the nuclear localization of the p65 subunit of NF-κB. (-)-Epicatechin inhibits cyclooxygenase-1 (COX-1) with an IC50 of 3.2 μM. (-)-Epicatechin inhibits the IL-1β-induced expression of iNOS by blocking the nuclear localization of the p65 subunit of NF-κB. (-)-Epicatechin inhibits cyclooxygenase-1 (COX-1) with an IC50 of 3.2 μM. (-)-Epicatechin inhibits the IL-1β-induced expression of iNOS by blocking the nuclear localization of the p65 subunit of NF-κB.

Catechin

C15H14O6 (290.079)

Catechin, also known as cyanidanol or catechuic acid, belongs to the class of organic compounds known as catechins. Catechins are compounds containing a catechin moiety, which is a 3,4-dihydro-2-chromene-3,5.7-tiol. Catechin also belongs to the group of compounds known as flavan-3-ols (or simply flavanols), part of the chemical family of flavonoids. Catechin is one of the 4 catechin known diastereoisomers. Two of the isomers are in trans configuration and are called catechin and the other two are in cis configuration and are called epicatechin. The most common catechin isomer is the (+)-catechin. The other stereoisomer is (-)-catechin or ent-catechin. The most common epicatechin isomer is (-)-epicatechin. Catechin is a very hydrophobic molecule, practically insoluble (in water), and relatively neutral. Catechin is a bitter tasting compound and is associated with the bitterness in tea. Catechin is a plant secondary metabolite. Secondary metabolites are metabolically or physiologically non-essential metabolites that may serve a role as defense or signalling molecules. In some cases they are simply molecules that arise from the incomplete metabolism of other secondary metabolites. Catechin is an antioxidant flavonoid, occurring especially in woody plants as both Catechin and (-)-Catechin (cis) forms. Outside of the human body, Catechin is found, on average, in the highest concentration in foods, such as blackcurrants (Ribes nigrum), evergreen blackberries (Rubus laciniatus), and blackberries (Rubus) and in a lower concentration in dills (Anethum graveolens), hot chocolates, and medlars (Mespilus germanica). Catechin has also been detected, but not quantified in, several different foods, such as rice (Oryza sativa), apple ciders, peanuts (Arachis hypogaea), fruit juices, and red teas. This could make catechin a potential biomarker for the consumption of these foods. Based on a literature review a significant number of articles have been published on Catechin. (+)-catechin is the (+)-enantiomer of catechin and a polyphenolic antioxidant plant metabolite. It has a role as an antioxidant and a plant metabolite. It is an enantiomer of a (-)-catechin. An antioxidant flavonoid, occurring especially in woody plants as both (+)-catechin and (-)-epicatechin (cis) forms. Cianidanol is a natural product found in Visnea mocanera, Salacia chinensis, and other organisms with data available. Catechin is a metabolite found in or produced by Saccharomyces cerevisiae. An antioxidant flavonoid, occurring especially in woody plants as both (+)-catechin and (-)-epicatechin (cis) forms. See also: Gallocatechin (related); Crofelemer (monomer of); Bilberry (part of) ... View More ... Present in red wine. Widespread in plants; found in a variety of foodstuffs especies apricots, broad beans, cherries, chocolate, grapes, nectarines, red wine, rhubarb, strawberries and tea The (+)-enantiomer of catechin and a polyphenolic antioxidant plant metabolite. Catechin. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=154-23-4 (retrieved 2024-07-12) (CAS RN: 154-23-4). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). (±)-Catechin (rel-Cianidanol) is the racemate of Catechin. (±)-Catechin has two steric forms of (+)-Catechin and its enantiomer (-)-Catechin. (+)-Catechin inhibits cyclooxygenase-1 (COX-1) with an IC50 of 1.4 μM. Anticancer, anti-obesity, antidiabetic, anticardiovascular, anti-infectious, hepatoprotective, and neuroprotective effects[1]. (±)-Catechin (rel-Cianidanol) is the racemate of Catechin. (±)-Catechin has two steric forms of (+)-Catechin and its enantiomer (-)-Catechin. (+)-Catechin inhibits cyclooxygenase-1 (COX-1) with an IC50 of 1.4 μM. Anticancer, anti-obesity, antidiabetic, anticardiovascular, anti-infectious, hepatoprotective, and neuroprotective effects[1]. Catechin ((+)-Catechin) inhibits cyclooxygenase-1 (COX-1) with an IC50 of 1.4 μM. Catechin ((+)-Catechin) inhibits cyclooxygenase-1 (COX-1) with an IC50 of 1.4 μM.

Vanillic acid

C8H8O4 (168.0423)

Vanillic acid is a phenolic acid found in some forms of vanilla and many other plant extracts. It is a flavouring and scent agent that produces a pleasant, creamy odour. It is the intermediate product in the two-step bioconversion of ferulic acid to vanillin (J Biotechnol 1996;50(2-3):107-13). Vanillic acid, which is a chlorogenic acid, is an oxidized form of vanillin. It is also an intermediate in the production of vanillin from ferulic acid. Vanillic acid is a metabolic byproduct of caffeic acid and is often found in the urine of humans who have consumed coffee, chocolate, tea, and vanilla-flavoured confectionary. Vanillic acid selectively and specifically inhibits 5nucleotidase activity (PMID: 16899266). Vanillic acid is a microbial metabolite found in Amycolatopsis, Delftia, and Pseudomonas (PMID: 11152072, 10543794, 11728709, 9579070). Vanillic acid is a phenolic acid found in some forms of vanilla and many other plant extracts. It is a flavoring and scent agent that produces a pleasant, creamy odor. It is the intermediate product in the two-step bioconversion of ferulic acid to vanillin. (J Biotechnol 1996;50(2-3):107-13). Vanillic acid, which is a chlorogenic acid, is an oxidized form of vanillin. It is also an intermediate in the production of vanillin from ferulic acid. Vanillic acid is a metabolic byproduct of caffeic acid and is often found in the urine of humans who have consumed coffee, chocolate, tea and vanilla-flavored confectionary. Vanillic acid selectively and specifically inhibits 5nucleotidase activity. (PMID: 16899266). Vanillic acid is a monohydroxybenzoic acid that is 4-hydroxybenzoic acid substituted by a methoxy group at position 3. It has a role as a plant metabolite. It is a monohydroxybenzoic acid and a methoxybenzoic acid. It is a conjugate acid of a vanillate. Vanillic acid is a natural product found in Ficus septica, Haplophyllum cappadocicum, and other organisms with data available. Vanillic acid is a metabolite found in or produced by Saccharomyces cerevisiae. A flavoring agent. It is the intermediate product in the two-step bioconversion of ferulic acid to vanillin. (J Biotechnol 1996;50(2-3):107-13). A monohydroxybenzoic acid that is 4-hydroxybenzoic acid substituted by a methoxy group at position 3. Vanillic acid. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=121-34-6 (retrieved 2024-06-29) (CAS RN: 121-34-6). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). Vanillic acid is a flavoring agent found in edible plants and fruits, also found in Angelica sinensis. Vanillic acid inhibits NF-κB activation. Anti-inflammatory, antibacterial, and chemopreventive effects[1]. Vanillic acid is a flavoring agent found in edible plants and fruits, also found in Angelica sinensis. Vanillic acid inhibits NF-κB activation. Anti-inflammatory, antibacterial, and chemopreventive effects[1].

Chalconaringenin

C15H12O5 (272.0685)

2,4,4,6-tetrahydroxychalcone is a member of the class of chalcones that is trans-chalcone substituted by hydroxy groups at positions 2 ,4, 4, and 6 respectively. It has a role as a metabolite, an anti-allergic agent and an anti-inflammatory agent. It is a polyphenol and a member of chalcones. It is functionally related to a trans-chalcone. Naringenin chalcone is a natural product found in Populus koreana, Populus tremula, and other organisms with data available. Isolated from tomato fruit cuticles. Chalconaringenin is found in many foods, some of which are cherry tomato, lettuce, greenthread tea, and lemon. A member of the class of chalcones that is trans-chalcone substituted by hydroxy groups at positions 2 ,4, 4, and 6 respectively. Chalconaringenin is found in garden tomato. Chalconaringenin is isolated from tomato fruit cuticle Naringenin chalcone. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=5071-40-9 (retrieved 2024-07-12) (CAS RN: 25515-46-2). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).

Cinnamic acid

C9H8O2 (148.0524)

Cinnamic acid is a monocarboxylic acid that consists of acrylic acid bearing a phenyl substituent at the 3-position. It is found in Cinnamomum cassia. It has a role as a plant metabolite. It is a member of styrenes and a member of cinnamic acids. It is a conjugate acid of a cinnamate. Cinnamic acid is a metabolite found in or produced by Escherichia coli (strain K12, MG1655). Cinnamic acid is a natural product found in Marsypopetalum crassum, Aiouea brenesii, and other organisms with data available. Cinnamic acid has the formula C6H5CHCHCOOH and is an odorless white crystalline acid, which is slightly soluble in water. It has a melting point of 133 degree centigrade and a boiling point of 300 degree centigrade. Cinnamic acid is a metabolite found in or produced by Saccharomyces cerevisiae. See also: Cinnamon (part of); Chinese Cinnamon (part of); Stevia rebaudiuna Leaf (part of) ... View More ... Acquisition and generation of the data is financially supported in part by CREST/JST. KEIO_ID C016 Cinnamic acid has potential use in cancer intervention, with IC50s of 1-4.5 mM in glioblastoma, melanoma, prostate and lung carcinoma cells. Cinnamic acid has potential use in cancer intervention, with IC50s of 1-4.5 mM in glioblastoma, melanoma, prostate and lung carcinoma cells. trans-Cinnamic acid is a natural antimicrobial, with minimal inhibitory concentration (MIC) of 250 μg/mL against fish pathogen A. sobria, SY-AS1[1]. trans-Cinnamic acid is a natural antimicrobial, with minimal inhibitory concentration (MIC) of 250 μg/mL against fish pathogen A. sobria, SY-AS1[1].

Gallic acid

C7H6O5 (170.0215)

Gallic acid is an odorless white solid. Sinks in water. (USCG, 1999) Gallic acid is a trihydroxybenzoic acid in which the hydroxy groups are at positions 3, 4, and 5. It has a role as an astringent, a cyclooxygenase 2 inhibitor, a plant metabolite, an antioxidant, an antineoplastic agent, a human xenobiotic metabolite, an EC 1.13.11.33 (arachidonate 15-lipoxygenase) inhibitor, an apoptosis inducer and a geroprotector. It is a conjugate acid of a gallate. Gallic acid is a metabolite found in or produced by Escherichia coli (strain K12, MG1655). Gallic Acid is a natural product found in Visnea mocanera, Ardisia paniculata, and other organisms with data available. Gallic acid is a metabolite found in or produced by Saccharomyces cerevisiae. A colorless or slightly yellow crystalline compound obtained from nutgalls. It is used in photography, pharmaceuticals, and as an analytical reagent. See also: Gallic acid monohydrate (active moiety of); Paeonia lactiflora root (part of); Galium aparine whole (part of) ... View More ... Gallic acid is an organic acid, also known as 3,4,5-trihydroxybenzoic acid, found in gallnuts, sumac, witch hazel, tea leaves, oak bark, and other plants. The chemical formula is C6H2(OH)3CO2H. Gallic acid is widely distributed in plants and is found both free and as part of tannins. It is commonly used in the pharmaceutical industry. Gallic acid can also be used to synthesize the hallucinogenic alkaloid mescaline, also known as 3,4,5-trimethoxyphenethylamine. Salts and esters of gallic acid are termed gallates. Gallic acid has been found to be s metabolite of Aspergillus (PMID:24031294). A trihydroxybenzoic acid in which the hydroxy groups are at positions 3, 4, and 5. Present in red wine. Japan approved food antioxidant additive Gallic acid. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=149-91-7 (retrieved 2024-07-01) (CAS RN: 149-91-7). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). Gallic acid (3,4,5-Trihydroxybenzoic acid) is a natural polyhydroxyphenolic compound and an free radical scavenger to inhibit cyclooxygenase-2 (COX-2)[1]. Gallic acid has various activities, such as antimicrobial, antioxidant, antimicrobial, anti-inflammatory, and anticance activities[2]. Gallic acid (3,4,5-Trihydroxybenzoic acid) is a natural polyhydroxyphenolic compound and an free radical scavenger to inhibit cyclooxygenase-2 (COX-2)[1]. Gallic acid has various activities, such as antimicrobial, antioxidant, antimicrobial, anti-inflammatory, and anticance activities[2].

4-Hydroxycinnamic acid

C9H8O3 (164.0473)

4-Hydroxycinnamic acid, also known as p-Coumaric acid, is a coumaric acid in which the hydroxy substituent is located at C-4 of the phenyl ring. It has a role as a plant metabolite. It is a conjugate acid of a 4-coumarate. p-coumaric acid is an organic compound that is a hydroxy derivative of cinnamic acid. There are three isomers of coumaric acid: o-coumaric acid, m-coumaric acid, and p-coumaric acid, that differ by the position of the hydroxy substitution of the phenyl group. p-Coumaric acid is the most abundant isomer of the three in nature. p-Coumaric acid exists in two forms trans-p-coumaric acid and cis-p-coumaric acid. It is a crystalline solid that is slightly soluble in water, but very soluble in ethanol and diethyl ether. 4-Hydroxycinnamic acid belongs to the class of organic compounds known as hydroxycinnamic acids. Hydroxycinnamic acids are compounds containing an cinnamic acid where the benzene ring is hydroxylated. 4-Hydroxycinnamic acid exists in all living species, ranging from bacteria to humans. Outside of the human body, 4-Hydroxycinnamic acid is found, on average, in the highest concentration within a few different foods, such as pepper (Capsicum frutescens), pineapples, and sunflowers and in a lower concentration in spinachs, kiwis, and sweet oranges. 4-Hydroxycinnamic acid has also been detected, but not quantified in several different foods, such as wild rices, soursops, garden onions, hyssops, and avocado. 4-coumaric acid is a coumaric acid in which the hydroxy substituent is located at C-4 of the phenyl ring. It has a role as a plant metabolite. It is a conjugate acid of a 4-coumarate. 4-Hydroxycinnamic acid is a natural product found in Ficus septica, Visnea mocanera, and other organisms with data available. trans-4-Coumaric acid is a metabolite found in or produced by Saccharomyces cerevisiae. See also: Black Cohosh (part of); Galium aparine whole (part of); Lycium barbarum fruit (part of) ... View More ... Coumaric acid is a hydroxycinnamic acid, an organic compound that is a hydroxy derivative of cinnamic acid. There are three isomers, o-coumaric acid, m-coumaric acid, and p-coumaric acid, that differ by the position of the hydroxy substitution of the phenyl group. p-Coumaric acid is the most abundant isomer of the three in nature. p-Coumaric acid is found in many foods, some of which are garden onion, turmeric, green bell pepper, and common thyme. D012102 - Reproductive Control Agents > D003270 - Contraceptive Agents D000975 - Antioxidants > D016166 - Free Radical Scavengers D020011 - Protective Agents > D000975 - Antioxidants The trans-isomer of 4-coumaric acid. D000890 - Anti-Infective Agents Acquisition and generation of the data is financially supported in part by CREST/JST. CONFIDENCE standard compound; INTERNAL_ID 168 KEIO_ID C024 p-Coumaric acid is the abundant isomer of cinnamic acid which has antitumor and anti-mutagenic activities. p-Coumaric acid is the abundant isomer of cinnamic acid which has antitumor and anti-mutagenic activities. p-Hydroxycinnamic acid, a common dietary phenol, could inhibit platelet activity, with IC50s of 371 μM, 126 μM for thromboxane B2 production and lipopolysaccharide-induced prostaglandin E2 generation, respectively. p-Hydroxycinnamic acid, a common dietary phenol, could inhibit platelet activity, with IC50s of 371 μM, 126 μM for thromboxane B2 production and lipopolysaccharide-induced prostaglandin E2 generation, respectively. p-Coumaric acid. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=7400-08-0 (retrieved 2024-09-04) (CAS RN: 7400-08-0). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).

Kaempferol_3-O-rutinoside

C27H30O15 (594.1585)

Kaempferol-3-rutinoside is a kaempferol O-glucoside that is kaempferol attached to a rutinosyl [6-deoxy-alpha-L-mannosyl-(1->6)-beta-D-glucosyl] residue at position 3 via a glycosidic linkage. It has been isolated from the leaves of Solanum campaniforme. It has a role as a metabolite, a radical scavenger and a plant metabolite. It is a rutinoside, a trihydroxyflavone, a disaccharide derivative and a kaempferol O-glucoside. Nicotiflorin is a natural product found in Visnea mocanera, Eupatorium cannabinum, and other organisms with data available. See also: Cocoa (part of). A kaempferol O-glucoside that is kaempferol attached to a rutinosyl [6-deoxy-alpha-L-mannosyl-(1->6)-beta-D-glucosyl] residue at position 3 via a glycosidic linkage. It has been isolated from the leaves of Solanum campaniforme. Nicotiflorin is a flavonoid glycoside extracted from a traditional Chinese medicine Carthamus tinctorius. Nicotiflorin shows potent antiglycation activity and neuroprotection effects. Nicotiflorin is a flavonoid glycoside extracted from a traditional Chinese medicine Carthamus tinctorius. Nicotiflorin shows potent antiglycation activity and neuroprotection effects.

Ergocalciferol

C28H44O (396.3392)

Ergocalciferol appears as odorless white crystals. Used as a dietary supplement and food additive. (EPA, 1998) Vitamin D2 is a vitamin D supplement and has been isolated from alfalfa. It has a role as a nutraceutical, a bone density conservation agent, a rodenticide and a plant metabolite. It is a seco-ergostane, a hydroxy seco-steroid and a vitamin D. Ergocalciferol is an inactivated vitamin D analog. It is synthesized by some plants in the presence of UVB light. The production of ergocalciferol was prompted by the identification of dietary deficiency, more specifically vitamin D, as the main causative factor for the development of rickets. Ergocalciferol was isolated for the first time from yeast in 1931 and its structure was elucidated in 1932. Ergocalciferol is considered the first vitamin D analog and is differentiated from [cholecalciferol] by the presence of a double bond between C22 and C23 and the presence of a methyl group at C24. These modifications reduce the affinity of ergocalciferol for the vitamin D binding protein resulting in faster clearance, limits its activation, and alters its catabolism. The first approved product containing ergocalciferol under the FDA records was developed by US Pharm Holdings and was FDA approved in 1941. Ergocalciferol is a Provitamin D2 Compound. Ergocalciferol is a natural product found in Pseudo-nitzschia multistriata, Humulus lupulus, and other organisms with data available. Ergocalciferol is vitamin D2, a fat-soluble vitamin important for many biochemical processes including the absorption and metabolism of calcium and phosphorus. In vivo, ergocalciferol is formed after sun (ultraviolet) irradiation of plant-derived ergosterol, another form of vitamin D. Ergocalciferol is the form of vitamin D usually found in vitamin supplements. (NCI04) Ergocalciferol is a form of Vitamin D, also called vitamin D2. It is created from viosterol, which in turn is created when ultraviolet light activates ergosterol. Ergocalciferol is used in the treatment of hypcalcemia and in dialysis-dependent renal failure. Ergoalcifediol is a fat soluble steroid hormone precursor of vitamin D that contributes to the maintenance of normal levels of calcium and phosphorus in the bloodstream. Vitamin D2 is the form of vitamin D most commonly added to foods and nutritional supplements. Vitamin D2 must be transformed (hydroxylated) into one of two active forms via the liver or kidney. Once transformed, it binds to the vitamin D receptor that then leads to a variety of regulatory roles. Derivatives of ERGOSTEROL formed by ULTRAVIOLET RAYS breaking of the C9-C10 bond. They differ from CHOLECALCIFEROL in having a double bond between C22 and C23 and a methyl group at C24. See also: ... View More ... Ergocalciferol is a form of Vitamin D, also called vitamin D2. It is created from viosterol, which in turn is created when ultraviolet light activates ergosterol. Ergocalciferol is used in the treatment of hypcalcemia and in dialysis-dependent renal failure. Ergoalcifediol is a fat soluble steroid hormone precursor of vitamin D that contributes to the maintenance of normal levels of calcium and phosphorus in the bloodstream. Vitamin D2 is the form of vitamin D most commonly added to foods and nutritional supplements. Vitamin D2 must be transformed (hydroxylated) into one of two active forms via the liver or kidney. Once transformed, it binds to the vitamin D receptor that then leads to a variety of regulatory roles. A - Alimentary tract and metabolism > A11 - Vitamins > A11C - Vitamin a and d, incl. combinations of the two > A11CC - Vitamin d and analogues COVID info from clinicaltrial, clinicaltrials, clinical trial, clinical trials D018977 - Micronutrients > D014815 - Vitamins > D004872 - Ergocalciferols A vitamin D supplement and has been isolated from alfalfa. D000077264 - Calcium-Regulating Hormones and Agents D050071 - Bone Density Conservation Agents Antirachitic vitamin Corona-virus Coronavirus SARS-CoV-2 COVID-19 SARS-CoV COVID19 SARS2 SARS Acquisition and generation of the data is financially supported in part by CREST/JST.

Rutin

C27H30O16 (610.1534)

Rutin is a flavonoid known to have a variety of biological activities including antiallergic, anti-inflammatory, antiproliferative, and anticarcinogenic properties. A large number of flavonoids, mostly O-glycosides, are polyphenolic compounds of natural origin that are present in most fruits and vegetables. The average intake of the compounds by humans on a normal diet is more than 1 g per day. Although flavonoids are devoid of classical nutritional value, they are increasingly viewed as beneficial dietary components that act as potential protectors against human diseases such as coronary heart disease, cancers, and inflammatory bowel disease. Rutin acts as a quercetin deliverer to the large intestine; moreover, quercetin is extensively metabolized in the large intestine, which suggests that quercetin liberated from rutin and/or its colonic metabolites may play a role. Rutins anti-inflammatory actions are mediated through a molecular mechanism that underlies the quercetin-mediated therapeutic effects: quercetin-mediated inhibition of tumor necrosis factor-alpha (TNF-alpha)-induced nuclear factor kappa B (NFkB) activation. TNF-alpha-induced NFkB activity plays a central role in the production of pro-inflammatory mediators involved in progression of gut inflammation. (PMID:16132362). Rutin is a rutinoside that is quercetin with the hydroxy group at position C-3 substituted with glucose and rhamnose sugar groups. It has a role as a metabolite and an antioxidant. It is a disaccharide derivative, a quercetin O-glucoside, a tetrahydroxyflavone and a rutinoside. A flavonol glycoside found in many plants, including buckwheat; tobacco; forsythia; hydrangea; viola, etc. It has been used therapeutically to decrease capillary fragility. Rutin is a natural product found in Ficus virens, Visnea mocanera, and other organisms with data available. A flavonol glycoside found in many plants, including BUCKWHEAT; TOBACCO; FORSYTHIA; HYDRANGEA; VIOLA, etc. It has been used therapeutically to decrease capillary fragility. See also: Quercetin (related); Ginkgo (part of); Chamomile (part of) ... View More ... First isolated from Ruta graveolens (rue). Bioflavanoid. Quercetin 3-rutinoside is found in many foods, some of which are tea, bilberry, common oregano, and lemon grass. A rutinoside that is quercetin with the hydroxy group at position C-3 substituted with glucose and rhamnose sugar groups. C - Cardiovascular system > C05 - Vasoprotectives > C05C - Capillary stabilizing agents > C05CA - Bioflavonoids IPB_RECORD: 541; CONFIDENCE confident structure [Raw Data] CBA04_Rutin_neg_50eV.txt [Raw Data] CBA04_Rutin_pos_50eV.txt [Raw Data] CBA04_Rutin_neg_40eV.txt [Raw Data] CBA04_Rutin_pos_10eV.txt [Raw Data] CBA04_Rutin_neg_20eV.txt [Raw Data] CBA04_Rutin_neg_10eV.txt [Raw Data] CBA04_Rutin_neg_30eV.txt [Raw Data] CBA04_Rutin_pos_40eV.txt [Raw Data] CBA04_Rutin_pos_30eV.txt [Raw Data] CBA04_Rutin_pos_20eV.txt Rutin (Rutoside) is a flavonoid found in many plants and shows a wide range of biological activities including anti-inflammatory, antidiabetic, antioxidant, neuroprotective, nephroprotective, hepatoprotective and reducing Aβ oligomer activities. Rutin can cross the blood brain barrier. Rutin attenuates vancomycin-induced renal tubular cell apoptosis via suppression of apoptosis, mitochondrial dysfunction, and oxidative stress[1][2][3]. Rutin (Rutoside) is a flavonoid found in many plants and shows a wide range of biological activities including anti-inflammatory, antidiabetic, antioxidant, neuroprotective, nephroprotective, hepatoprotective and reducing Aβ oligomer activities. Rutin can cross the blood brain barrier. Rutin attenuates vancomycin-induced renal tubular cell apoptosis via suppression of apoptosis, mitochondrial dysfunction, and oxidative stress[1][2][3].

Chlorogenic acid

C16H18O9 (354.0951)

Chlorogenic acid is a cinnamate ester obtained by formal condensation of the carboxy group of trans-caffeic acid with the 3-hydroxy group of quinic acid. It is an intermediate metabolite in the biosynthesis of lignin. It has a role as a plant metabolite and a food component. It is a cinnamate ester and a tannin. It is functionally related to a (-)-quinic acid and a trans-caffeic acid. It is a conjugate acid of a chlorogenate. Chlorogenic Acid has been used in trials studying the treatment of Advanced Cancer and Impaired Glucose Tolerance. Chlorogenic Acid is a natural product found in Pavetta indica, Fragaria nipponica, and other organisms with data available. Chlorogenic Acid is a polyphenol and the ester of caffeic acid and quinic acid that is found in coffee and black tea, with potential antioxidant and chemopreventive activities. Chlorogenic acid scavenges free radicals, which inhibits DNA damage and may protect against the induction of carcinogenesis. In addition, this agent may upregulate the expression of genes involved in the activation of the immune system and enhances activation and proliferation of cytotoxic T-lymphocytes, macrophages, and natural killer cells. Chlorogenic acid also inhibits the activity of matrix metalloproteinases. A naturally occurring phenolic acid which is a carcinogenic inhibitor. It has also been shown to prevent paraquat-induced oxidative stress in rats. (From J Chromatogr A 1996;741(2):223-31; Biosci Biotechnol Biochem 1996;60(5):765-68). See also: Arctium lappa Root (part of); Cynara scolymus leaf (part of); Lonicera japonica flower (part of) ... View More ... Chlorogenic acid is an ester of caffeic acid and quinic acid. Chlorogenic acid is the major polyphenolic compound in coffee, isolated from the leaves and fruits of dicotyledonous plants. This compound, long known as an antioxidant, also slows the release of glucose into the bloodstream after a meal. Coffee is a complex mixture of chemicals that provides significant amounts of chlorogenic acid. The chlorogenic acid content of a 200 ml (7-oz) cup of coffee has been reported to range from 70-350 mg, which would provide about 35-175 mg of caffeic acid. The results of epidemiological research suggest that coffee consumption may help prevent several chronic diseases, including type 2 diabetes mellitus, Parkinsons disease and liver disease (cirrhosis and hepatocellular carcinoma). Most prospective cohort studies have not found coffee consumption to be associated with significantly increased cardiovascular disease risk. However, coffee consumption is associated with increases in several cardiovascular disease risk factors, including blood pressure and plasma homocysteine. At present, there is little evidence that coffee consumption increases the risk of cancer. (PMID:16507475, 17368041). A cinnamate ester obtained by formal condensation of the carboxy group of trans-caffeic acid with the 3-hydroxy group of quinic acid. It is an intermediate metabolite in the biosynthesis of lignin. [Raw Data] CBA08_Chlorogenic-aci_pos_10eV_1-1_01_209.txt [Raw Data] CBA08_Chlorogenic-aci_neg_30eV_1-1_01_218.txt [Raw Data] CBA08_Chlorogenic-aci_neg_20eV_1-1_01_217.txt [Raw Data] CBA08_Chlorogenic-aci_pos_30eV_1-1_01_211.txt [Raw Data] CBA08_Chlorogenic-aci_neg_40eV_1-1_01_219.txt [Raw Data] CBA08_Chlorogenic-aci_pos_20eV_1-1_01_210.txt [Raw Data] CBA08_Chlorogenic-aci_pos_50eV_1-1_01_213.txt [Raw Data] CBA08_Chlorogenic-aci_neg_50eV_1-1_01_220.txt [Raw Data] CBA08_Chlorogenic-aci_neg_10eV_1-1_01_216.txt [Raw Data] CBA08_Chlorogenic-aci_pos_40eV_1-1_01_212.txt Chlorogenic acid is a major phenolic compound in Lonicera japonica Thunb.. It plays several important and therapeutic roles such as antioxidant activity, antibacterial, hepatoprotective, cardioprotective, anti-inflammatory, antipyretic, neuroprotective, anti-obesity, antiviral, anti-microbial, anti-hypertension. Chlorogenic acid is a major phenolic compound in Lonicera japonica Thunb. It is an orally active antioxidant activity, antibacterial, hepatoprotective, cardioprotective, anti-inflammatory, antipyretic, neuroprotective, anti-obesity, antiviral, anti-microbial, anti-hypertension compound[1][2][3]. Chlorogenic acid is a major phenolic compound in Lonicera japonica Thunb.. It plays several important and therapeutic roles such as antioxidant activity, antibacterial, hepatoprotective, cardioprotective, anti-inflammatory, antipyretic, neuroprotective, anti-obesity, antiviral, anti-microbial, anti-hypertension.

Caffeic acid

C9H8O4 (180.0423)

Caffeic acid is a hydroxycinnamic acid that is cinnamic acid in which the phenyl ring is substituted by hydroxy groups at positions 3 and 4. It exists in cis and trans forms; the latter is the more common. It has a role as a plant metabolite, an EC 1.13.11.33 (arachidonate 15-lipoxygenase) inhibitor, an EC 2.5.1.18 (glutathione transferase) inhibitor, an EC 1.13.11.34 (arachidonate 5-lipoxygenase) inhibitor, an antioxidant and an EC 3.5.1.98 (histone deacetylase) inhibitor. It is a hydroxycinnamic acid and a member of catechols. Caffeic Acid is a natural product found in Pavetta indica, Eupatorium cannabinum, and other organisms with data available. Caffeic Acid is an orally bioavailable, hydroxycinnamic acid derivative and polyphenol, with potential anti-oxidant, anti-inflammatory, and antineoplastic activities. Upon administration, caffeic acid acts as an antioxidant and prevents oxidative stress, thereby preventing DNA damage induced by free radicals. Caffeic acid targets and inhibits the histone demethylase (HDM) oncoprotein gene amplified in squamous cell carcinoma 1 (GASC1; JMJD2C; KDM4C) and inhibits cancer cell proliferation. GASC1, a member of the KDM4 subgroup of Jumonji (Jmj) domain-containing proteins, demethylates trimethylated lysine 9 and lysine 36 on histone H3 (H3K9 and H3K36), and plays a key role in tumor cell development. Caffeic acid is a metabolite found in or produced by Saccharomyces cerevisiae. See also: Black Cohosh (part of); Arctium lappa Root (part of); Comfrey Leaf (part of) ... View More ... 3,4-Dihydroxy-trans-cinnamate, also known as trans-Caffeate, is a polyphenol present in normal human urine positively correlated to coffee consumption and influenced by the dietary intake of diverse types of food (PMID:16870009). trans-Caffeic acid is found in many foods, some of which are flaxseed, cereal and cereal products, common grape, fruits, and common sage. It is also found in wine and coffee in free and conjugated forms. Caffeic acid (CAS: 331-39-5) is a polyphenol present in normal human urine positively correlated to coffee consumption and influenced by the dietary intake of diverse types of food (PMID:16870009). Caffeic acid has been found to be a microbial metabolite of Escherichia (PMID: 28396925). Caffeic acid. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=331-39-5 (retrieved 2024-06-28) (CAS RN: 331-39-5). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). Caffeic acid is an inhibitor of both TRPV1 ion channel and 5-Lipoxygenase (5-LO). Caffeic acid is an inhibitor of both TRPV1 ion channel and 5-Lipoxygenase (5-LO). Caffeic acid is an inhibitor of both TRPV1 ion channel and 5-Lipoxygenase (5-LO).

Luteolin 7-glucoside

C21H20O11 (448.1006)

Luteolin 7-O-beta-D-glucoside is a glycosyloxyflavone that is luteolin substituted by a beta-D-glucopyranosyl moiety at position 7 via a glycosidic linkage. It has a role as an antioxidant and a plant metabolite. It is a beta-D-glucoside, a glycosyloxyflavone, a trihydroxyflavone and a monosaccharide derivative. It is functionally related to a luteolin. It is a conjugate acid of a luteolin 7-O-beta-D-glucoside(1-). Cynaroside is a natural product found in Verbascum lychnitis, Carex fraseriana, and other organisms with data available. See also: Cynara scolymus leaf (part of); Lonicera japonica flower (part of); Chamaemelum nobile flower (part of). Luteolin 7-glucoside is found in anise. Luteolin 7-glucoside is a constituent of the leaves of Capsicum annuum (red pepper).Cynaroside is a flavone, a flavonoid-like chemical compound. It is a 7-O-glucoside of luteolin and can be found in dandelion coffee, in Ferula varia and F. foetida in Campanula persicifolia and C. rotundifolia and in Cynara scolymus (artichoke) A glycosyloxyflavone that is luteolin substituted by a beta-D-glucopyranosyl moiety at position 7 via a glycosidic linkage. Constituent of the leaves of Capsicum annuum (red pepper) Cynaroside (Luteolin 7-glucoside) is a flavonoid compound that exhibits anti-oxidative capabilities. Cynaroside is also a potent influenza RNA-dependent RNA polymerase inhibitor with an IC50 of 32 nM. Cynaroside also is a promising inhibitor for H2O2-induced apoptosis, has cytoprotection against oxidative stress-induced cardiovascular diseases. Cynaroside also has antibacterial, antifungal and anticancer activities, antioxidant and anti-inflammatory activities[1][3][4][5].

Kaempferitrin

C27H30O14 (578.1635)

Kaempferol 3,7-di-O-alpha-L-rhamnoside is a glycosyloxyflavone that is kaempferol attached to alpha-L-rhamnopyranosyl residues at positions 3 and 7 respectively via glycosidic linkages. It has been isolated from the aerial parts of Vicia faba and Lotus edulis. It has a role as a bone density conservation agent, a hypoglycemic agent, an immunomodulator, an anti-inflammatory agent, an antineoplastic agent, a plant metabolite, an apoptosis inducer and an antidepressant. It is an alpha-L-rhamnoside, a monosaccharide derivative, a dihydroxyflavone, a glycosyloxyflavone and a polyphenol. It is functionally related to a kaempferol. Kaempferitrin is a natural product found in Ficus septica, Cleome amblyocarpa, and other organisms with data available. See also: Selenicereus grandiflorus stem (part of). A glycosyloxyflavone that is kaempferol attached to alpha-L-rhamnopyranosyl residues at positions 3 and 7 respectively via glycosidic linkages. It has been isolated from the aerial parts of Vicia faba and Lotus edulis. Kaempferitrin is found in linden. Kaempferitrin is a chemical compound. It can be isolated from the leaves of Hedyotis verticillata. Kaempferitrin is a natural flavonoid, possesses antinociceptive, anti-inflammatory, anti-diabetic, antitumoral and chemopreventive effects, and activates insulin signaling pathway. Kaempferitrin is a natural flavonoid, possesses antinociceptive, anti-inflammatory, anti-diabetic, antitumoral and chemopreventive effects, and activates insulin signaling pathway.

Ferulic acid

C10H10O4 (194.0579)

trans-Ferulic acid is a highly abundant phenolic phytochemical which is present in plant cell walls. Ferulic acid is a phenolic acid that can be absorbed by the small intestine and excreted through the urine. It is one of the most abundant phenolic acids in plants, varying from 5 g/kg in wheat bran to 9 g/kg in sugar-beet pulp and 50 g/kg in corn kernel. It occurs primarily in seeds and leaves both in its free form (albeit rarely) and covalently linked to lignin and other biopolymers. It is usually found as ester cross-links with polysaccharides in the cell wall, such as arabinoxylans in grasses, pectin in spinach and sugar beet, and xyloglucans in bamboo. It also can cross-link with proteins. Due to its phenolic nucleus and an extended side chain conjugation (carbohydrates and proteins), it readily forms a resonance-stabilized phenoxy radical which accounts for its potent antioxidant potential. Food supplementation with curcumin and ferulic acid is considered a nutritional approach to reducing oxidative damage and amyloid pathology in Alzheimer disease (PMID:17127365, 1398220, 15453708, 9878519). Ferulic acid can be found in Pseudomonas and Saccharomyces (PMID:8395165). Ferulic acid is a ferulic acid consisting of trans-cinnamic acid bearing methoxy and hydroxy substituents at positions 3 and 4 respectively on the phenyl ring. It has a role as an antioxidant, a MALDI matrix material, a plant metabolite, an anti-inflammatory agent, an apoptosis inhibitor and a cardioprotective agent. It is a conjugate acid of a ferulate. Ferulic acid is a natural product found in Haplophyllum griffithianum, Visnea mocanera, and other organisms with data available. Ferulic acid is a metabolite found in or produced by Saccharomyces cerevisiae. See also: Angelica sinensis root (part of). Widely distributed in plants, first isolated from Ferula foetida (asafoetida). Antioxidant used to inhibit oxidn. of fats, pastry products, etc. Antifungal agent used to prevent fruit spoilage. trans-Ferulic acid is found in many foods, some of which are deerberry, peach, shea tree, and common bean. A ferulic acid consisting of trans-cinnamic acid bearing methoxy and hydroxy substituents at positions 3 and 4 respectively on the phenyl ring. D018373 - Peripheral Nervous System Agents > D018689 - Sensory System Agents D005765 - Gastrointestinal Agents > D002756 - Cholagogues and Choleretics D002317 - Cardiovascular Agents > D000959 - Antihypertensive Agents D019995 - Laboratory Chemicals > D007202 - Indicators and Reagents D002491 - Central Nervous System Agents > D000700 - Analgesics D000975 - Antioxidants > D016166 - Free Radical Scavengers D006401 - Hematologic Agents > D000925 - Anticoagulants D020011 - Protective Agents > D000975 - Antioxidants D000893 - Anti-Inflammatory Agents D018501 - Antirheumatic Agents Acquisition and generation of the data is financially supported in part by CREST/JST. KEIO_ID H074 (E)-Ferulic acid is a isomer of Ferulic acid which is an aromatic compound, abundant in plant cell walls. (E)-Ferulic acid causes the phosphorylation of β-catenin, resulting in proteasomal degradation of β-catenin and increases the expression of pro-apoptotic factor Bax and decreases the expression of pro-survival factor survivin. (E)-Ferulic acid shows a potent ability to remove reactive oxygen species (ROS) and inhibits lipid peroxidation. (E)-Ferulic acid exerts both anti-proliferation and anti-migration effects in the human lung cancer cell line H1299[1]. (E)-Ferulic acid is a isomer of Ferulic acid which is an aromatic compound, abundant in plant cell walls. (E)-Ferulic acid causes the phosphorylation of β-catenin, resulting in proteasomal degradation of β-catenin and increases the expression of pro-apoptotic factor Bax and decreases the expression of pro-survival factor survivin. (E)-Ferulic acid shows a potent ability to remove reactive oxygen species (ROS) and inhibits lipid peroxidation. (E)-Ferulic acid exerts both anti-proliferation and anti-migration effects in the human lung cancer cell line H1299[1]. Ferulic acid is a novel fibroblast growth factor receptor 1 (FGFR1) inhibitor with IC50s of 3.78 and 12.5 μM for FGFR1 and FGFR2, respectively. Ferulic acid is a novel fibroblast growth factor receptor 1 (FGFR1) inhibitor with IC50s of 3.78 and 12.5 μM for FGFR1 and FGFR2, respectively.

4-Hydroxybenzaldehyde

C7H6O2 (122.0368)

4-Hydroxybenzaldehyde, also known as 4-formylphenol or 4-hydroxybenzenecarbonal, belongs to the class of organic compounds known as hydroxybenzaldehydes. These are organic aromatic compounds containing a benzene ring carrying an aldehyde group and a hydroxyl group. A hydroxybenzaldehyde that is benzaldehyde substituted with a hydroxy group at position C-4. 4-Hydroxybenzaldehyde exists in all living organisms, ranging from bacteria to humans. 4-Hydroxybenzaldehyde is a sweet, almond, and balsam tasting compound. 4-Hydroxybenzaldehyde is found, on average, in the highest concentration within vinegars and oats. 4-Hydroxybenzaldehyde has also been detected, but not quantified, in several different foods, such as cardoons, colorado pinyons, oyster mushrooms, common chokecherries, and potato. This could make 4-hydroxybenzaldehyde a potential biomarker for the consumption of these foods. 4-hydroxybenzaldehyde is a hydroxybenzaldehyde that is benzaldehyde substituted with a hydroxy group at position C-4. It has a role as a plant metabolite, a mouse metabolite and an EC 1.14.17.1 (dopamine beta-monooxygenase) inhibitor. 4-Hydroxybenzaldehyde is a natural product found in Ficus septica, Visnea mocanera, and other organisms with data available. Occurs naturally combined in many glycosides. Constituent of vanillin. Isol. in free state from opium poppy (Papaver somniferum) A hydroxybenzaldehyde that is benzaldehyde substituted with a hydroxy group at position C-4. 4-Hydroxybenzaldehyde. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=123-08-0 (retrieved 2024-07-02) (CAS RN: 123-08-0). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). p-Hydroxybenzaldehyde is a one of the major components in vanilla aroma, with antagonistic effect on GABAA receptor of the α1β2γ2S subtype at high concentrations. p-Hydroxybenzaldehyde is a one of the major components in vanilla aroma, with antagonistic effect on GABAA receptor of the α1β2γ2S subtype at high concentrations. p-Hydroxybenzaldehyde is a one of the major components in vanilla aroma, with antagonistic effect on GABAA receptor of the α1β2γ2S subtype at high concentrations.

L-Glutamic acid

C5H9NO4 (147.0532)

Glutamic acid (Glu), also known as L-glutamic acid or as glutamate, the name of its anion, is an alpha-amino acid. These are amino acids in which the amino group is attached to the carbon atom immediately adjacent to the carboxylate group (alpha carbon). Amino acids are organic compounds that contain amino (‚ÄìNH2) and carboxyl (‚ÄìCOOH) functional groups, along with a side chain (R group) specific to each amino acid. L-glutamic acid is one of 20 proteinogenic amino acids, i.e., the amino acids used in the biosynthesis of proteins. Glutamic acid is found in all organisms ranging from bacteria to plants to animals. It is classified as an acidic, charged (at physiological pH), aliphatic amino acid. In humans it is a non-essential amino acid and can be synthesized via alanine or aspartic acid via alpha-ketoglutarate and the action of various transaminases. Glutamate also plays an important role in the bodys disposal of excess or waste nitrogen. Glutamate undergoes deamination, an oxidative reaction catalysed by glutamate dehydrogenase leading to alpha-ketoglutarate. In many respects glutamate is a key molecule in cellular metabolism. Glutamate is the most abundant fast excitatory neurotransmitter in the mammalian nervous system. At chemical synapses, glutamate is stored in vesicles. Nerve impulses trigger release of glutamate from the pre-synaptic cell. In the opposing post-synaptic cell, glutamate receptors, such as the NMDA receptor, bind glutamate and are activated. Because of its role in synaptic plasticity, it is believed that glutamic acid is involved in cognitive functions like learning and memory in the brain. Glutamate transporters are found in neuronal and glial membranes. They rapidly remove glutamate from the extracellular space. In brain injury or disease, they can work in reverse and excess glutamate can accumulate outside cells. This process causes calcium ions to enter cells via NMDA receptor channels, leading to neuronal damage and eventual cell death, and is called excitotoxicity. The mechanisms of cell death include: Damage to mitochondria from excessively high intracellular Ca2+. Glu/Ca2+-mediated promotion of transcription factors for pro-apoptotic genes, or downregulation of transcription factors for anti-apoptotic genes. Excitotoxicity due to glutamate occurs as part of the ischemic cascade and is associated with stroke and diseases like amyotrophic lateral sclerosis, lathyrism, and Alzheimers disease. Glutamic acid has been implicated in epileptic seizures. Microinjection of glutamic acid into neurons produces spontaneous depolarization around one second apart, and this firing pattern is similar to what is known as paroxysmal depolarizing shift in epileptic attacks. This change in the resting membrane potential at seizure foci could cause spontaneous opening of voltage activated calcium channels, leading to glutamic acid release and further depolarization (http://en.wikipedia.org/wiki/Glutamic_acid). Glutamate was discovered in 1866 when it was extracted from wheat gluten (from where it got its name. Glutamate has an important role as a food additive and food flavoring agent. In 1908, Japanese researcher Kikunae Ikeda identified brown crystals left behind after the evaporation of a large amount of kombu broth (a Japanese soup) as glutamic acid. These crystals, when tasted, reproduced a salty, savory flavor detected in many foods, most especially in seaweed. Professor Ikeda termed this flavor umami. He then patented a method of mass-producing a crystalline salt of glutamic acid, monosodium glutamate. L-glutamic acid is an optically active form of glutamic acid having L-configuration. It has a role as a nutraceutical, a micronutrient, an Escherichia coli metabolite, a mouse metabolite, a ferroptosis inducer and a neurotransmitter. It is a glutamine family amino acid, a proteinogenic amino acid, a glutamic acid and a L-alpha-amino acid. It is a conjugate acid of a L-glutamate(1-). It is an enantiomer of a D-glutamic acid. A peptide that is a homopolymer of glutamic acid. L-Glutamic acid is a metabolite found in or produced by Escherichia coli (strain K12, MG1655). Glutamic acid (Glu), also referred to as glutamate (the anion), is one of the 20 proteinogenic amino acids. It is not among the essential amino acids. Glutamate is a key molecule in cellular metabolism. In humans, dietary proteins are broken down by digestion into amino acids, which serves as metabolic fuel or other functional roles in the body. Glutamate is the most abundant fast excitatory neurotransmitter in the mammalian nervous system. At chemical synapses, glutamate is stored in vesicles. Nerve impulses trigger release of glutamate from the pre-synaptic cell. In the opposing post-synaptic cell, glutamate receptors, such as the NMDA receptor, bind glutamate and are activated. Because of its role in synaptic plasticity, it is believed that glutamic acid is involved in cognitive functions like learning and memory in the brain. Glutamate transporters are found in neuronal and glial membranes. They rapidly remove glutamate from the extracellular space. In brain injury or disease, they can work in reverse and excess glutamate can accumulate outside cells. This process causes calcium ions to enter cells via NMDA receptor channels, leading to neuronal damage and eventual cell death, and is called excitotoxicity. The mechanisms of cell death include: * Damage to mitochondria from excessively high intracellular Ca2+. * Glu/Ca2+-mediated promotion of transcription factors for pro-apoptotic genes, or downregulation of transcription factors for anti-apoptotic genes. Excitotoxicity due to glutamate occurs as part of the ischemic cascade and is associated with stroke and diseases like amyotrophic lateral sclerosis, lathyrism, and Alzheimers disease. glutamic acid has been implicated in epileptic seizures. Microinjection of glutamic acid into neurons produces spontaneous depolarization around one second apart, and this firing pattern is similar to what is known as paroxysmal depolarizing shift in epileptic attacks. This change in the resting membrane potential at seizure foci could cause spontaneous opening of voltage activated calcium channels, leading to glutamic acid release and further depolarization. A non-essential amino acid naturally occurring in the L-form. Glutamic acid is the most common excitatory neurotransmitter in the CENTRAL NERVOUS SYSTEM. See also: Monosodium Glutamate (active moiety of); Glatiramer Acetate (monomer of); Glatiramer (monomer of) ... View More ... obtained from acid hydrolysis of proteins. Since 1965 the industrial source of glutamic acid for MSG production has been bacterial fermentation of carbohydrate sources such as molasses and corn starch hydrolysate in the presence of a nitrogen source such as ammonium salts or urea. Annual production approx. 350000t worldwide in 1988. Seasoning additive in food manuf. (as Na, K and NH4 salts). Dietary supplement, nutrient Glutamic acid (symbol Glu or E;[4] the anionic form is known as glutamate) is an α-amino acid that is used by almost all living beings in the biosynthesis of proteins. It is a non-essential nutrient for humans, meaning that the human body can synthesize enough for its use. It is also the most abundant excitatory neurotransmitter in the vertebrate nervous system. It serves as the precursor for the synthesis of the inhibitory gamma-aminobutyric acid (GABA) in GABAergic neurons. Its molecular formula is C 5H 9NO 4. Glutamic acid exists in two optically isomeric forms; the dextrorotatory l-form is usually obtained by hydrolysis of gluten or from the waste waters of beet-sugar manufacture or by fermentation.[5][full citation needed] Its molecular structure could be idealized as HOOC−CH(NH 2)−(CH 2)2−COOH, with two carboxyl groups −COOH and one amino group −NH 2. However, in the solid state and mildly acidic water solutions, the molecule assumes an electrically neutral zwitterion structure −OOC−CH(NH+ 3)−(CH 2)2−COOH. It is encoded by the codons GAA or GAG. The acid can lose one proton from its second carboxyl group to form the conjugate base, the singly-negative anion glutamate −OOC−CH(NH+ 3)−(CH 2)2−COO−. This form of the compound is prevalent in neutral solutions. The glutamate neurotransmitter plays the principal role in neural activation.[6] This anion creates the savory umami flavor of foods and is found in glutamate flavorings such as MSG. In Europe, it is classified as food additive E620. In highly alkaline solutions the doubly negative anion −OOC−CH(NH 2)−(CH 2)2−COO− prevails. The radical corresponding to glutamate is called glutamyl. The one-letter symbol E for glutamate was assigned in alphabetical sequence to D for aspartate, being larger by one methylene –CH2– group.[7] DL-Glutamic acid is the conjugate acid of Glutamic acid, which acts as a fundamental metabolite. Comparing with the second phase of polymorphs α and β L-Glutamic acid, DL-Glutamic acid presents better stability[1]. DL-Glutamic acid is the conjugate acid of Glutamic acid, which acts as a fundamental metabolite. Comparing with the second phase of polymorphs α and β L-Glutamic acid, DL-Glutamic acid presents better stability[1]. L-Glutamic acid acts as an excitatory transmitter and an agonist at all subtypes of glutamate receptors (metabotropic, kainate, NMDA, and AMPA). L-Glutamic acid shows a direct activating effect on the release of DA from dopaminergic terminals. L-Glutamic acid is an excitatory amino acid neurotransmitter that acts as an agonist for all subtypes of glutamate receptors (metabolic rhodophylline, NMDA, and AMPA). L-Glutamic acid has an agonist effect on the release of DA from dopaminergic nerve endings. L-Glutamic acid can be used in the study of neurological diseases[1][2][3][4][5]. L-Glutamic acid acts as an excitatory transmitter and an agonist at all subtypes of glutamate receptors (metabotropic, kainate, NMDA, and AMPA). L-Glutamic acid shows a direct activating effect on the release of DA from dopaminergic terminals.

Resveratrol

C14H12O3 (228.0786)

Resveratrol is a stilbenol that is stilbene in which the phenyl groups are substituted at positions 3, 5, and 4 by hydroxy groups. It has a role as a phytoalexin, an antioxidant, a glioma-associated oncogene inhibitor and a geroprotector. It is a stilbenol, a polyphenol and a member of resorcinols. Resveratrol (3,5,4-trihydroxystilbene) is a polyphenolic phytoalexin. It is a stilbenoid, a derivate of stilbene, and is produced in plants with the help of the enzyme stilbene synthase. It exists as cis-(Z) and trans-(E) isomers. The trans- form can undergo isomerisation to the cis- form when heated or exposed to ultraviolet irradiation. In a 2004 issue of Science, Dr. Sinclair of Harvard University said resveratrol is not an easy molecule to protect from oxidation. It has been claimed that it is readily degraded by exposure to light, heat, and oxygen. However, studies find that Trans-resveratrol undergoes negligible oxidation in normal atmosphere at room temperature. Resveratrol is a plant polyphenol found in high concentrations in red grapes that has been proposed as a treatment for hyperlipidemia and to prevent fatty liver, diabetes, atherosclerosis and aging. Resveratrol use has not been associated with serum enzyme elevations or with clinically apparent liver injury. Resveratrol is a natural product found in Vitis rotundifolia, Vitis amurensis, and other organisms with data available. Resveratrol is a phytoalexin derived from grapes and other food products with antioxidant and potential chemopreventive activities. Resveratrol induces phase II drug-metabolizing enzymes (anti-initiation activity); mediates anti-inflammatory effects and inhibits cyclooxygenase and hydroperoxidase functions (anti-promotion activity); and induces promyelocytic leukemia cell differentiation (anti-progression activity), thereby exhibiting activities in three major steps of carcinogenesis. This agent may inhibit TNF-induced activation of NF-kappaB in a dose- and time-dependent manner. (NCI05) Resveratrol is a metabolite found in or produced by Saccharomyces cerevisiae. A stilbene and non-flavonoid polyphenol produced by various plants including grapes and blueberries. It has anti-oxidant, anti-inflammatory, cardioprotective, anti-mutagenic, and anti-carcinogenic properties. It also inhibits platelet aggregation and the activity of several DNA HELICASES in vitro. Resveratrol is a polyphenolic phytoalexin. It is also classified as a stilbenoid, a derivate of stilbene, and is produced in plants with the help of the enzyme stilbene synthase. The levels of resveratrol found in food vary greatly. Red wine contains between 0.2 and 5.8 mg/L depending on the grape variety, while white wine has much less. The reason for this difference is that red wine is fermented with grape skins, allowing the wine to absorb the resveratrol, whereas white wine is fermented after the skin has been removed. Resveratrol is also sold as a nutritional supplement. A number of beneficial health effects, such as anti-cancer, antiviral, neuroprotective, anti-aging, anti-inflammatory, and life-prolonging effects have been reported for resveratrol. The fact that resveratrol is found in the skin of red grapes and as a constituent of red wine may explain the "French paradox". This paradox is based on the observation that the incidence of coronary heart disease is relatively low in southern France despite high dietary intake of saturated fats. Resveratrol is thought to achieve these cardioprotective effects by a number of different routes: (1) inhibition of vascular cell adhesion molecule expression; (2) inhibition of vascular smooth muscle cell proliferation; (3) stimulation of endothelial nitric oxide synthase (eNOS) activity; (4) inhibition of platelet aggregation; and (5) inhibition of LDL peroxidation (PMID: 17875315, 14676260, 9678525). Resveratrol is a biomarker for the consumption of grapes and raisins. A stilbenol that is stilbene in which the phenyl groups are substituted at positions 3, 5, and 4 by hydroxy groups. COVID info from clinicaltrial, clinicaltrials, clinical trial, clinical trials D006401 - Hematologic Agents > D010975 - Platelet Aggregation Inhibitors C1892 - Chemopreventive Agent > C54630 - Phase II Enzymes Inducer D020011 - Protective Agents > D000975 - Antioxidants C26170 - Protective Agent > C275 - Antioxidant D004791 - Enzyme Inhibitors Corona-virus Coronavirus SARS-CoV-2 COVID-19 SARS-CoV COVID19 SARS2 SARS CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 9638; ORIGINAL_PRECURSOR_SCAN_NO 9635 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 9646; ORIGINAL_PRECURSOR_SCAN_NO 9641 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4381; ORIGINAL_PRECURSOR_SCAN_NO 4379 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 9607; ORIGINAL_PRECURSOR_SCAN_NO 9606 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 9642; ORIGINAL_PRECURSOR_SCAN_NO 9638 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4383; ORIGINAL_PRECURSOR_SCAN_NO 4379 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4396; ORIGINAL_PRECURSOR_SCAN_NO 4394 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4381; ORIGINAL_PRECURSOR_SCAN_NO 4376 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 9641; ORIGINAL_PRECURSOR_SCAN_NO 9638 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4375; ORIGINAL_PRECURSOR_SCAN_NO 4373 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 9614; ORIGINAL_PRECURSOR_SCAN_NO 9611 CONFIDENCE standard compound; INTERNAL_ID 1110; DATASET 20200303_ENTACT_RP_MIX507; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4398; ORIGINAL_PRECURSOR_SCAN_NO 4397 IPB_RECORD: 1781; CONFIDENCE confident structure IPB_RECORD: 321; CONFIDENCE confident structure Resveratrol (trans-Resveratrol; SRT501), a natural polyphenolic phytoalexin that possesses anti-oxidant, anti-inflammatory, cardioprotective, and anti-cancer properties. Resveratrol (SRT 501) has a wide spectrum of targets including mTOR, JAK, β-amyloid, Adenylyl cyclase, IKKβ, DNA polymerase. Resveratrol also is a specific SIRT1 activator[1][2][3][4]. Resveratrol is a potent pregnane X receptor (PXR) inhibitor[5]. Resveratrol is an Nrf2 activator, ameliorates aging-related progressive renal injury in mice model[6]. Resveratrol increases production of NO in endothelial cells[7]. Resveratrol (trans-Resveratrol; SRT501), a natural polyphenolic phytoalexin that possesses anti-oxidant, anti-inflammatory, cardioprotective, and anti-cancer properties. Resveratrol (SRT 501) has a wide spectrum of targets including mTOR, JAK, β-amyloid, Adenylyl cyclase, IKKβ, DNA polymerase. Resveratrol also is a specific SIRT1 activator[1][2][3][4]. Resveratrol is a potent pregnane X receptor (PXR) inhibitor[5]. Resveratrol is an Nrf2 activator, ameliorates aging-related progressive renal injury in mice model[6]. Resveratrol increases production of NO in endothelial cells[7]. Resveratrol (trans-Resveratrol; SRT501), a natural polyphenolic phytoalexin that possesses anti-oxidant, anti-inflammatory, cardioprotective, and anti-cancer properties. Resveratrol (SRT 501) has a wide spectrum of targets including mTOR, JAK, β-amyloid, Adenylyl cyclase, IKKβ, DNA polymerase. Resveratrol also is a specific SIRT1 activator[1][2][3][4]. Resveratrol is a potent pregnane X receptor (PXR) inhibitor[5]. Resveratrol is an Nrf2 activator, ameliorates aging-related progressive renal injury in mice model[6]. Resveratrol increases production of NO in endothelial cells[7].

Hesperidin

C28H34O15 (610.1898)

Hesperidin is an abundant and inexpensive by-product of Citrus cultivation and is the major flavonoid in sweet orange and lemon. In young immature oranges it can account for up to 14\\\\% of the fresh weight of the fruit. Hesperidin is an abundant and inexpensive by-product of Citrus cultivation and is the major flavonoid in sweet orange and lemon. In young immature oranges it can account for up to 14\\\\% of the fresh weight of the fruit due to vitamin C deficiency such as bruising due to capillary fragility were found in early studies to be relieved by crude vitamin C extract but not by purified vitamin C. The bioflavonoids, formerly called "vitamin P", were found to be the essential components in correcting this bruising tendency and improving the permeability and integrity of the capillary lining. These bioflavonoids include hesperidin, citrin, rutin, flavones, flavonols, catechin and quercetin. Of historical importance is the observation that "citrin", a mixture of two flavonoids, eriodictyol and hesperidin, was considered to possess a vitamin-like activity, as early as in 1949. Hesperidin deficiency has since been linked with abnormal capillary leakiness as well as pain in the extremities causing aches, weakness and night leg cramps. Supplemental hesperidin also helps in reducing oedema or excess swelling in the legs due to fluid accumulation. As with other bioflavonoids, hesperidin works best when administered concomitantly with vitamin C. No signs of toxicity have been observed with normal intake of hesperidin. Hesperidin was first discovered in 1827, by Lebreton, but not in a pure state and has been under continuous investigation since then (PMID:11746857). Hesperidin is a disaccharide derivative that consists of hesperetin substituted by a 6-O-(alpha-L-rhamnopyranosyl)-beta-D-glucopyranosyl moiety at position 7 via a glycosidic linkage. It has a role as a mutagen. It is a disaccharide derivative, a member of 3-hydroxyflavanones, a dihydroxyflavanone, a monomethoxyflavanone, a flavanone glycoside, a member of 4-methoxyflavanones and a rutinoside. It is functionally related to a hesperetin. Hesperidin is a flavan-on glycoside found in citrus fruits. Hesperidin is a natural product found in Ficus erecta var. beecheyana, Citrus tankan, and other organisms with data available. A flavanone glycoside found in CITRUS fruit peels. See also: Tangerine peel (part of). Found in most citrus fruits and other members of the Rutaceae, also in Mentha longifolia Acquisition and generation of the data is financially supported in part by CREST/JST. COVID info from clinicaltrial, clinicaltrials, clinical trial, clinical trials relative retention time with respect to 9-anthracene Carboxylic Acid is 0.770 relative retention time with respect to 9-anthracene Carboxylic Acid is 0.767 [Raw Data] CB217_Hesperidin_pos_50eV_CB000076.txt [Raw Data] CB217_Hesperidin_pos_20eV_CB000076.txt [Raw Data] CB217_Hesperidin_pos_30eV_CB000076.txt [Raw Data] CB217_Hesperidin_pos_10eV_CB000076.txt [Raw Data] CB217_Hesperidin_pos_40eV_CB000076.txt [Raw Data] CB217_Hesperidin_neg_20eV_000038.txt [Raw Data] CB217_Hesperidin_neg_50eV_000038.txt [Raw Data] CB217_Hesperidin_neg_10eV_000038.txt [Raw Data] CB217_Hesperidin_neg_30eV_000038.txt [Raw Data] CB217_Hesperidin_neg_40eV_000038.txt Annotation level-1 Corona-virus Coronavirus SARS-CoV-2 COVID-19 SARS-CoV COVID19 SARS2 SARS Hesperidin (Hesperetin 7-rutinoside), a flavanone glycoside, is isolated from citrus fruits. Hesperidin has numerous biological properties, such as decreasing inflammatory mediators and exerting significant antioxidant effects. Hesperidin also exhibits antitumor and antiallergic activities[1][2]. Hesperidin (Hesperetin 7-rutinoside), a flavanone glycoside, is isolated from citrus fruits. Hesperidin has numerous biological properties, such as decreasing inflammatory mediators and exerting significant antioxidant effects. Hesperidin also exhibits antitumor and antiallergic activities[1][2].

Quercetin

C15H10O7 (302.0427)

Quercetin appears as yellow needles or yellow powder. Converts to anhydrous form at 203-207 °F. Alcoholic solutions taste very bitter. (NTP, 1992) Quercetin is a pentahydroxyflavone having the five hydroxy groups placed at the 3-, 3-, 4-, 5- and 7-positions. It is one of the most abundant flavonoids in edible vegetables, fruit and wine. It has a role as an antibacterial agent, an antioxidant, a protein kinase inhibitor, an antineoplastic agent, an EC 1.10.99.2 [ribosyldihydronicotinamide dehydrogenase (quinone)] inhibitor, a plant metabolite, a phytoestrogen, a radical scavenger, a chelator, an Aurora kinase inhibitor and a geroprotector. It is a pentahydroxyflavone and a 7-hydroxyflavonol. It is a conjugate acid of a quercetin-7-olate. Quercetin is a flavonol widely distributed in plants. It is an antioxidant, like many other phenolic heterocyclic compounds. Glycosylated forms include RUTIN and quercetrin. Quercetin is a metabolite found in or produced by Escherichia coli (strain K12, MG1655). Quercetin is a flavonoid found in many foods and herbs and is a regular component of a normal diet. Extracts of quercetin have been used to treat or prevent diverse conditions including cardiovascular disease, hypercholesterolemia, rheumatic diseases, infections and cancer but have not been shown to be effective in clinical trials for any medical condition. Quercetin as a nutritional supplement is well tolerated and has not been linked to serum enzyme elevations or to episodes of clinically apparent liver injury. Quercetin is a natural product found in Lotus ucrainicus, Visnea mocanera, and other organisms with data available. Quercetin is a polyphenolic flavonoid with potential chemopreventive activity. Quercetin, ubiquitous in plant food sources and a major bioflavonoid in the human diet, may produce antiproliferative effects resulting from the modulation of either EGFR or estrogen-receptor mediated signal transduction pathways. Although the mechanism of action of action is not fully known, the following effects have been described with this agent in vitro: decreased expression of mutant p53 protein and p21-ras oncogene, induction of cell cycle arrest at the G1 phase and inhibition of heat shock protein synthesis. This compound also demonstrates synergy and reversal of the multidrug resistance phenotype, when combined with chemotherapeutic drugs, in vitro. Quercetin also produces anti-inflammatory and anti-allergy effects mediated through the inhibition of the lipoxygenase and cyclooxygenase pathways, thereby preventing the production of pro-inflammatory mediators. Quercetin is a flavonoid widely distributed in many plants and fruits including red grapes, citrus fruit, tomato, broccoli and other leafy green vegetables, and a number of berries, including raspberries and cranberries. Quercetin itself (aglycone quercetin), as opposed to quercetin glycosides, is not a normal dietary component. Quercitin glycosides are converted to phenolic acids as they pass through the gastrointestinal tract. Quercetin has neither been confirmed scientifically as a specific therapeutic for any condition nor been approved by any regulatory agency. The U.S. Food and Drug Administration has not approved any health claims for quercetin. Nevertheless, the interest in dietary flavonoids has grown after the publication of several epidemiological studies showing an inverse correlation between dietary consumption of flavonols and flavones and reduced incidence and mortality from cardiovascular disease and cancer. In recent years, a large amount of experimental and some clinical data have accumulated regarding the effects of flavonoids on the endothelium under physiological and pathological conditions. The meta-analysis of seven prospective cohort studies concluded that the individuals in the top third of dietary flavonol intake are associated with a reduced risk of mortality from coronary heart disease as compared with those in the bottom third, after adju... Quercetin is a flavonoid widely distributed in many plants and fruits including red grapes, citrus fruit, tomato, broccoli and other leafy green vegetables, and a number of berries, including raspberries and cranberries. Quercetin itself (aglycone quercetin), as opposed to quercetin glycosides, is not a normal dietary component. Quercetin glycosides are converted to phenolic acids as they pass through the gastrointestinal tract. Quercetin has neither been confirmed scientifically as a specific therapeutic for any condition nor been approved by any regulatory agency. The U.S. Food and Drug Administration has not approved any health claims for quercetin. Nevertheless, the interest in dietary flavonoids has grown after the publication of several epidemiological studies showing an inverse correlation between dietary consumption of flavonols and flavones and reduced incidence and mortality from cardiovascular disease and cancer. In recent years, a large amount of experimental and some clinical data have accumulated regarding the effects of flavonoids on the endothelium under physiological and pathological conditions. The meta-analysis of seven prospective cohort studies concluded that the individuals in the top third of dietary flavonol intake are associated with a reduced risk of mortality from coronary heart disease as compared with those in the bottom third, after adjustment for known risk factors and other dietary components. A limited number of intervention studies with flavonoids and flavonoid containing foods and extracts has been performed in several pathological conditions (PMID:17015250). Quercetin is isolated from many plants, especially fruits, such as Helichrysum, Euphorbia and Karwinskia spp. Present in the Solanaceae, Rhamnaceae, Passifloraceae and many other families. For example detected in almost all studied Umbelliferae. Nutriceutical with antiinflammatory props. and a positive influence on the blood lipid profile. Found in a wide variety of foods especially apples, bee pollen, blackcurrants, capers, cocoa, cranberries, dock leaves, elderberries, fennel, lovage, red onions, ancho peppers, dill weed and tarragon. A pentahydroxyflavone having the five hydroxy groups placed at the 3-, 3-, 4-, 5- and 7-positions. It is one of the most abundant flavonoids in edible vegetables, fruit and wine. COVID info from clinicaltrial, clinicaltrials, clinical trial, clinical trials D020011 - Protective Agents > D000975 - Antioxidants Corona-virus Coronavirus SARS-CoV-2 COVID-19 SARS-CoV COVID19 SARS2 SARS CONFIDENCE standard compound; INTERNAL_ID 298; DATASET 20200303_ENTACT_RP_MIX505; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4014; ORIGINAL_PRECURSOR_SCAN_NO 4012 INTERNAL_ID 298; CONFIDENCE standard compound; DATASET 20200303_ENTACT_RP_MIX505; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4011; ORIGINAL_PRECURSOR_SCAN_NO 4010 CONFIDENCE standard compound; INTERNAL_ID 298; DATASET 20200303_ENTACT_RP_MIX505; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4019; ORIGINAL_PRECURSOR_SCAN_NO 4018 CONFIDENCE standard compound; INTERNAL_ID 298; DATASET 20200303_ENTACT_RP_MIX505; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4017; ORIGINAL_PRECURSOR_SCAN_NO 4016 CONFIDENCE standard compound; INTERNAL_ID 298; DATASET 20200303_ENTACT_RP_MIX505; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4011; ORIGINAL_PRECURSOR_SCAN_NO 4010 CONFIDENCE standard compound; INTERNAL_ID 298; DATASET 20200303_ENTACT_RP_MIX505; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4096; ORIGINAL_PRECURSOR_SCAN_NO 4094 CONFIDENCE standard compound; INTERNAL_ID 298; DATASET 20200303_ENTACT_RP_MIX505; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 4024; ORIGINAL_PRECURSOR_SCAN_NO 4023 Acquisition and generation of the data is financially supported in part by CREST/JST. [Raw Data] CB109_Quercetin_pos_30eV_CB000041.txt IPB_RECORD: 1761; CONFIDENCE confident structure [Raw Data] CB109_Quercetin_pos_10eV_CB000041.txt [Raw Data] CB109_Quercetin_pos_20eV_CB000041.txt [Raw Data] CB109_Quercetin_pos_40eV_CB000041.txt [Raw Data] CB109_Quercetin_pos_50eV_CB000041.txt IPB_RECORD: 161; CONFIDENCE confident structure [Raw Data] CB109_Quercetin_neg_40eV_000027.txt [Raw Data] CB109_Quercetin_neg_50eV_000027.txt [Raw Data] CB109_Quercetin_neg_20eV_000027.txt [Raw Data] CB109_Quercetin_neg_30eV_000027.txt [Raw Data] CB109_Quercetin_neg_10eV_000027.txt CONFIDENCE standard compound; INTERNAL_ID 124 CONFIDENCE standard compound; ML_ID 54 Quercetin, a natural flavonoid, is a stimulator of recombinant SIRT1 and also a PI3K inhibitor with IC50 of 2.4 μM, 3.0 μM and 5.4 μM for PI3K γ, PI3K δ and PI3K β, respectively[1]. Quercetin, a natural flavonoid, is a stimulator of recombinant SIRT1 and also a PI3K inhibitor with IC50 of 2.4 μM, 3.0 μM and 5.4 μM for PI3K γ, PI3K δ and PI3K β, respectively[1].

8-Prenylnaringenin

C20H20O5 (340.1311)

Sophoraflavanone B is a trihydroxyflavanone that is (S)-naringenin having a prenyl group at position 8. It has a role as a platelet aggregation inhibitor and a plant metabolite. It is a trihydroxyflavanone, a member of 4-hydroxyflavanones and a (2S)-flavan-4-one. It is functionally related to a (S)-naringenin. It is a conjugate acid of a sophoraflavanone B(1-). 8-Prenylnaringenin is a natural product found in Macaranga conifera, Macaranga denticulata, and other organisms with data available. D006730 - Hormones, Hormone Substitutes, and Hormone Antagonists > D006728 - Hormones > D004967 - Estrogens A trihydroxyflavanone that is (S)-naringenin having a prenyl group at position 8. INTERNAL_ID 2299; CONFIDENCE Reference Standard (Level 1) CONFIDENCE Reference Standard (Level 1); INTERNAL_ID 2299

Procyanidin B2

C30H26O12 (578.1424)

Procyanidin B2 is a proanthocyanidin consisting of two molecules of (-)-epicatechin joined by a bond between positions 4 and 8 in a beta-configuration. Procyanidin B2 can be found in Cinchona pubescens (Chinchona, in the rind, bark and cortex), in Cinnamomum verum (Ceylon cinnamon, in the rind, bark and cortex), in Crataegus monogyna (Common hawthorn, in the flower and blossom), in Uncaria guianensis (Cats claw, in the root), in Vitis vinifera (Common grape vine, in the leaf), in Litchi chinensis (litchi, in the pericarp), in the apple, in Ecdysanthera utilis and in red wine. It has a role as a metabolite and an antioxidant. It is a hydroxyflavan, a proanthocyanidin, a biflavonoid and a polyphenol. It is functionally related to a (-)-epicatechin. Procyanidin B2 is a natural product found in Begonia fagifolia, Saraca asoca, and other organisms with data available. See also: Cocoa (part of); Primula veris flower (part of). A proanthocyanidin consisting of two molecules of (-)-epicatechin joined by a bond between positions 4 and 8 in a beta-configuration. Procyanidin B2 can be found in Cinchona pubescens (Chinchona, in the rind, bark and cortex), in Cinnamomum verum (Ceylon cinnamon, in the rind, bark and cortex), in Crataegus monogyna (Common hawthorn, in the flower and blossom), in Uncaria guianensis (Cats claw, in the root), in Vitis vinifera (Common grape vine, in the leaf), in Litchi chinensis (litchi, in the pericarp), in the apple, in Ecdysanthera utilis and in red wine. Present in red wine. Procyanidin B2 is found in many foods, some of which are alcoholic beverages, sherry, bilberry, and yellow zucchini. Procyanidin B2 is found in alcoholic beverages. Procyanidin B2 is present in red wine. Procyanidin B2 is a natural flavonoid, with anti-cancer, antioxidant activities. Procyanidin B2 is a natural flavonoid, with anti-cancer, antioxidant activities.

3,7-Dimethyl-1,6-octadien-3-ol

C10H18O (154.1358)

3,7-Dimethyl-1,6-octadien-3-ol, also known simply as linalool is a naturally occurring terpene alcohol. It belongs to the class of organic compounds known as acyclic monoterpenoids. These are monoterpenes that do not contain a cycle. Linalool has a role as a plant metabolite, a volatile oil component, an antimicrobial agent and a fragrance. There are two stereoisomers of Linalool ‚Äö√Ñ√¨ (S)-linalool and (R)-linalool. Linalool is used as a scent in 60\\\\\% to 80\\\\\% of perfumed hygiene products and cleaning agents including soaps, detergents, shampoos, and lotions. Linalool is also used by pest professionals as a flea, fruit fly, and cockroach insecticide. Linalool is found in more than 200 different species of plants, including many flowers and spice plants. (S)-linalool is found, for example, as a major constituent of the essential oils of coriander (Coriandrum sativum L.), cymbopogon (Cymbopogon martini var. martinii), and sweet orange (Citrus sinensis) flowers. (R)-linalool is present in lavender (Lavandula officinalis), bay laurel (Laurus nobilis), and sweet basil (Ocimum basilicum), among others. Linalool is also found in plants from the Lamiaceae family (mint and other herbs), Lauraceae (laurels, cinnamon, rosewood), Cinnamomum tamala, Solidago Meyen, Artemisia vulgaris (mugwort), Humulus lupulus. Linalool is also one of several monoterpenes that are found in cannabis plants (PMID:6991645 ). There are more than 140 known terpenes in cannabis and the combination of these terepenoids produces the skunky, fruity odor characteristic of C. savita. Like the majority of monoterpenes, linalool starts with the condensation of dimethylallyl diphosphate (DMAPP) and isopentenyl diphosphate (IPP) to form geranyl pyrophosphate (GPP) (PMID:7640522 ). Linalool is then synthesized with the aid of linalool synthase (LIS) (PMID:12572612 ). Linalool has a citrus, floral, rose, woody aroma and a citrus, orange, waxy taste. Linalool is found in a few different foods and spices, such as spearmints, corianders, common thymes, limes, grapes, lemons, grapefruit, oranges, pineapples, blackcurrants, basil, and common oregano. This could make, Linalool a potential biomarker for the consumption of these foods. Linalool is also synthesized, de novo, by yeast (C. cerevisiae) and may contribute to the floral tones found in some wines (PMID:15668008 ). Linalool is a monoterpenoid that is octa-1,6-diene substituted by methyl groups at positions 3 and 7 and a hydroxy group at position 3. It has been isolated from plants like Ocimum canum. It has a role as a plant metabolite, a volatile oil component, an antimicrobial agent and a fragrance. It is a tertiary alcohol and a monoterpenoid. Linalool is a natural product found in Nepeta nepetella, Teucrium montanum, and other organisms with data available. 3,7-Dimethyl-1,6-octadien-3-ol is a metabolite found in or produced by Saccharomyces cerevisiae. See also: Cinnamon Leaf Oil (part of); Clary Sage Oil (part of); Cannabis sativa subsp. indica top (part of) ... View More ... A monoterpenoid that is octa-1,6-diene substituted by methyl groups at positions 3 and 7 and a hydroxy group at position 3. It has been isolated from plants like Ocimum canum. Flavouring agent. Widespread natural occurrence as the optically active and racemic forms in over 200 essential oilsand is) also present in numerous fruits. D010575 - Pesticides > D007306 - Insecticides D016573 - Agrochemicals Linalool is natural monoterpene in essential olis of coriander, acts as a competitive antagonist of Nmethyl d-aspartate (NMDA) receptor, with anti-tumor, anti-cardiotoxicity activity[1].Linalool is a PPARα ligand that reduces plasma TG levels and rewires the hepatic transcriptome and plasma metabolome[2]. Linalool is a natural monoterpene which is a competitive NMDA receptor antagonist. Linalool is orally active and crosses the blood-brain barrier. Linalool has anticancer, antibacterial, anti-inflammatory, neuroprotective, anxiolytic, antidepressant, anti-stress, cardioprotective, hepatoprotective, nephroprotective and pulmonary protective activities[1][2][3][4][5]. Linalool is natural monoterpene in essential olis of coriander, acts as a competitive antagonist of Nmethyl d-aspartate (NMDA) receptor, with anti-tumor, anti-cardiotoxicity activity[1].Linalool is a PPARα ligand that reduces plasma TG levels and rewires the hepatic transcriptome and plasma metabolome[2].

Beta-eudesmol

C15H26O (222.1984)

Beta-eudesmol is a carbobicyclic compound that is trans-decalin substituted at positions 2, 4a, and 8 by 2-hydroxypropan-2-yl, methyl and methylidene groups, respectively (the 2R,4aR,8aS-diastereoisomer). It has a role as a volatile oil component. It is a carbobicyclic compound, a tertiary alcohol and a eudesmane sesquiterpenoid. beta-Eudesmol is a natural product found in Rhododendron calostrotum, Rhododendron lepidotum, and other organisms with data available. See also: Arctium lappa Root (part of); Cannabis sativa subsp. indica top (part of); Pterocarpus marsupium wood (part of). A carbobicyclic compound that is trans-decalin substituted at positions 2, 4a, and 8 by 2-hydroxypropan-2-yl, methyl and methylidene groups, respectively (the 2R,4aR,8aS-diastereoisomer). Beta-Eudesmol is a natural oxygenated sesquiterpene, activates hTRPA1, with an EC50 of 32.5 μM. Beta-Eudesmol increases appetite through TRPA1[1]. Beta-Eudesmol is a natural oxygenated sesquiterpene, activates hTRPA1, with an EC50 of 32.5 μM. Beta-Eudesmol increases appetite through TRPA1[1].

Palmitic acid

C16H32O2 (256.2402)

Palmitic acid, also known as palmitate or hexadecanoic acid, is a member of the class of compounds known as long-chain fatty acids. Long-chain fatty acids are fatty acids with an aliphatic tail that contains between 13 and 21 carbon atoms. Thus, palmitic acid is considered to be a fatty acid lipid molecule. Palmitic acid is practically insoluble (in water) and a weakly acidic compound (based on its pKa). Palmitic acid can be found in a number of food items such as sacred lotus, spinach, shallot, and corn salad, which makes palmitic acid a potential biomarker for the consumption of these food products. Palmitic acid can be found primarily in most biofluids, including feces, sweat, cerebrospinal fluid (CSF), and urine, as well as throughout most human tissues. Palmitic acid exists in all living species, ranging from bacteria to humans. In humans, palmitic acid is involved in several metabolic pathways, some of which include alendronate action pathway, rosuvastatin action pathway, simvastatin action pathway, and cerivastatin action pathway. Palmitic acid is also involved in several metabolic disorders, some of which include hypercholesterolemia, familial lipoprotein lipase deficiency, ethylmalonic encephalopathy, and carnitine palmitoyl transferase deficiency (I). Moreover, palmitic acid is found to be associated with schizophrenia. Palmitic acid is a non-carcinogenic (not listed by IARC) potentially toxic compound. Palmitic acid, or hexadecanoic acid in IUPAC nomenclature, is the most common saturated fatty acid found in animals, plants and microorganisms. Its chemical formula is CH3(CH2)14COOH, and its C:D is 16:0. As its name indicates, it is a major component of the oil from the fruit of oil palms (palm oil). Palmitic acid can also be found in meats, cheeses, butter, and dairy products. Palmitate is the salts and esters of palmitic acid. The palmitate anion is the observed form of palmitic acid at physiologic pH (7.4) . Palmitic acid is the first fatty acid produced during lipogenesis (fatty acid synthesis) and from which longer fatty acids can be produced. Palmitate negatively feeds back on acetyl-CoA carboxylase (ACC) which is responsible for converting acetyl-ACP to malonyl-ACP on the growing acyl chain, thus preventing further palmitate generation (DrugBank). Palmitic acid, or hexadecanoic acid, is one of the most common saturated fatty acids found in animals, plants, and microorganisms. As its name indicates, it is a major component of the oil from the fruit of oil palms (palm oil). Excess carbohydrates in the body are converted to palmitic acid. Palmitic acid is the first fatty acid produced during fatty acid synthesis and is the precursor to longer fatty acids. As a consequence, palmitic acid is a major body component of animals. In humans, one analysis found it to make up 21–30\\\% (molar) of human depot fat (PMID: 13756126), and it is a major, but highly variable, lipid component of human breast milk (PMID: 352132). Palmitic acid is used to produce soaps, cosmetics, and industrial mould release agents. These applications use sodium palmitate, which is commonly obtained by saponification of palm oil. To this end, palm oil, rendered from palm tree (species Elaeis guineensis), is treated with sodium hydroxide (in the form of caustic soda or lye), which causes hydrolysis of the ester groups, yielding glycerol and sodium palmitate. Aluminium salts of palmitic acid and naphthenic acid were combined during World War II to produce napalm. The word "napalm" is derived from the words naphthenic acid and palmitic acid (Wikipedia). Palmitic acid is also used in the determination of water hardness and is a surfactant of Levovist, an intravenous ultrasonic contrast agent. Hexadecanoic acid is a straight-chain, sixteen-carbon, saturated long-chain fatty acid. It has a role as an EC 1.1.1.189 (prostaglandin-E2 9-reductase) inhibitor, a plant metabolite, a Daphnia magna metabolite and an algal metabolite. It is a long-chain fatty acid and a straight-chain saturated fatty acid. It is a conjugate acid of a hexadecanoate. A common saturated fatty acid found in fats and waxes including olive oil, palm oil, and body lipids. Palmitic acid is a metabolite found in or produced by Escherichia coli (strain K12, MG1655). Palmitic Acid is a saturated long-chain fatty acid with a 16-carbon backbone. Palmitic acid is found naturally in palm oil and palm kernel oil, as well as in butter, cheese, milk and meat. Palmitic acid, or hexadecanoic acid is one of the most common saturated fatty acids found in animals and plants, a saturated fatty acid found in fats and waxes including olive oil, palm oil, and body lipids. It occurs in the form of esters (glycerides) in oils and fats of vegetable and animal origin and is usually obtained from palm oil, which is widely distributed in plants. Palmitic acid is used in determination of water hardness and is an active ingredient of *Levovist*TM, used in echo enhancement in sonographic Doppler B-mode imaging and as an ultrasound contrast medium. A common saturated fatty acid found in fats and waxes including olive oil, palm oil, and body lipids. A straight-chain, sixteen-carbon, saturated long-chain fatty acid. Palmitic acid. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=57-10-3 (retrieved 2024-07-01) (CAS RN: 57-10-3). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).

(S)-4',5,7-Trihydroxy-6-prenylflavanone

C20H20O5 (340.1311)

6-prenylnaringenin is a trihydroxyflavanone having a structure of naringenin prenylated at C-6. It has a role as a T-type calcium channel blocker. It is a trihydroxyflavanone, a member of 4-hydroxyflavanones and a (2S)-flavan-4-one. It is functionally related to a (S)-naringenin. 6-Prenylnaringenin is a natural product found in Macaranga denticulata, Wyethia angustifolia, and other organisms with data available. (S)-4,5,7-Trihydroxy-6-prenylflavanone is found in alcoholic beverages. (S)-4,5,7-Trihydroxy-6-prenylflavanone is isolated from Humulus lupulus (hops). Isolated from Humulus lupulus (hops). 6-Prenylnaringenin is found in beer and alcoholic beverages. (2S)-6-Prenylnaringenin is the most efficient compound in forebrain. (2S)-6-Prenylnaringenin acts as a GABAA positive allosteric modulator at α+β- binding interface[1]. (2S)-6-Prenylnaringenin is the most efficient compound in forebrain. (2S)-6-Prenylnaringenin acts as a GABAA positive allosteric modulator at α+β- binding interface[1]. (2S)-6-Prenylnaringenin is the most efficient compound in forebrain. (2S)-6-Prenylnaringenin acts as a GABAA positive allosteric modulator at α+β- binding interface[1].

Ergosterol

C28H44O (396.3392)

Ergosterol is a phytosterol consisting of ergostane having double bonds at the 5,6-, 7,8- and 22,23-positions as well as a 3beta-hydroxy group. It has a role as a fungal metabolite and a Saccharomyces cerevisiae metabolite. It is a 3beta-sterol, an ergostanoid, a 3beta-hydroxy-Delta(5)-steroid and a member of phytosterols. A steroid of interest both because its biosynthesis in FUNGI is a target of ANTIFUNGAL AGENTS, notably AZOLES, and because when it is present in SKIN of animals, ULTRAVIOLET RAYS break a bond to result in ERGOCALCIFEROL. Ergosterol is a natural product found in Gladiolus italicus, Ramaria formosa, and other organisms with data available. ergosterol is a metabolite found in or produced by Saccharomyces cerevisiae. A steroid occurring in FUNGI. Irradiation with ULTRAVIOLET RAYS results in formation of ERGOCALCIFEROL (vitamin D2). See also: Reishi (part of). Ergosterol, also known as provitamin D2, belongs to the class of organic compounds known as ergosterols and derivatives. These are steroids containing ergosta-5,7,22-trien-3beta-ol or a derivative thereof, which is based on the 3beta-hydroxylated ergostane skeleton. Thus, ergosterol is considered to be a sterol lipid molecule. Ergosterol is a very hydrophobic molecule, practically insoluble (in water), and relatively neutral. Ergosterol is the biological precursor to vitamin D2. It is turned into viosterol by ultraviolet light, and is then converted into ergocalciferol, which is a form of vitamin D. Ergosterol is a component of fungal cell membranes, serving the same function that cholesterol serves in animal cells. Ergosterol is not found in mammalian cell membranes. A phytosterol consisting of ergostane having double bonds at the 5,6-, 7,8- and 22,23-positions as well as a 3beta-hydroxy group. Ergosterol. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=57-87-4 (retrieved 2024-07-12) (CAS RN: 57-87-4). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). Ergosterol is the primary sterol found in fungi, with antioxidative, anti-proliferative, and anti-inflammatory effects. Ergosterol is the primary sterol found in fungi, with antioxidative, anti-proliferative, and anti-inflammatory effects.

Afzelin

C21H20O10 (432.1056)

Afzelin is a glycosyloxyflavone that is kaempferol attached to an alpha-L-rhamnosyl residue at position 3 via a glycosidic linkage. It has a role as a plant metabolite, an antibacterial agent and an anti-inflammatory agent. It is a glycosyloxyflavone, a trihydroxyflavone and a monosaccharide derivative. It is functionally related to a kaempferol. It is a conjugate acid of an afzelin(1-). Afzelin is a natural product found in Premna odorata, Vicia tenuifolia, and other organisms with data available. [Raw Data] CBA27_Afzelin_neg_30eV_1-1_01_1585.txt [Raw Data] CBA27_Afzelin_pos_20eV_1-1_01_1549.txt [Raw Data] CBA27_Afzelin_pos_10eV_1-1_01_1540.txt [Raw Data] CBA27_Afzelin_neg_10eV_1-1_01_1576.txt [Raw Data] CBA27_Afzelin_neg_20eV_1-1_01_1584.txt [Raw Data] CBA27_Afzelin_neg_40eV_1-1_01_1586.txt [Raw Data] CBA27_Afzelin_pos_30eV_1-1_01_1550.txt [Raw Data] CBA27_Afzelin_pos_50eV_1-1_01_1552.txt [Raw Data] CBA27_Afzelin_pos_40eV_1-1_01_1551.txt [Raw Data] CBA27_Afzelin_neg_50eV_1-1_01_1587.txt Afzelin (Kaempferol-3-O-rhamnoside) is is a flavonol glycoside found in Houttuynia cordata Thunberg and is widely used in the preparation of antibacterial and antipyretic agents, detoxicants and for the treatment of inflammation. Afzelin attenuates the mitochondrial damage, enhances mitochondrial biogenesis and decreases the level of mitophagy-related proteins, parkin and PTEN-induced putative kinase 1. Afzelin improves the survival rate and reduces the serum levels of alanine aminotransferase and pro-inflammatory cytokines in D-galactosamine (GalN)/LPS -treated mice[1]. Afzelin (Kaempferol-3-O-rhamnoside)It is a flavonol glycoside that has anti-inflammatory, anti-oxidative stress response, anti-apoptotic, and anti-cardiac cytotoxic effects. AfzelinIt can reduce mitochondrial damage, enhance mitochondrial biosynthesis, and reduce mitochondria-related proteins. Parkinand PTENinduced putative kinase 1 (putative kinase 1)s level. AfzelinCan be improved D-galactosamine(GalN)/LPSSurvival rate of mice treated with doxorubicin prophylaxis (HY-15142A)Induced cardiotoxicity and scopolamine (HY-N0296)-induced neurological injury. AfzelinAlso inhibits asthma and allergies caused by ovalbumin[1][2][3][4]. Afzelin (Kaempferol-3-O-rhamnoside) is is a flavonol glycoside found in Houttuynia cordata Thunberg and is widely used in the preparation of antibacterial and antipyretic agents, detoxicants and for the treatment of inflammation. Afzelin attenuates the mitochondrial damage, enhances mitochondrial biogenesis and decreases the level of mitophagy-related proteins, parkin and PTEN-induced putative kinase 1. Afzelin improves the survival rate and reduces the serum levels of alanine aminotransferase and pro-inflammatory cytokines in D-galactosamine (GalN)/LPS -treated mice[1].

beta-Sitosterol 3-O-beta-D-galactopyranoside

C35H60O6 (576.439)

Daucosterol is a steroid saponin that is sitosterol attached to a beta-D-glucopyranosyl residue at position 3 via a glycosidic linkage. It has bee isolated from Panax japonicus var. major and Breynia fruticosa. It has a role as a plant metabolite. It is a steroid saponin, a beta-D-glucoside and a monosaccharide derivative. It is functionally related to a sitosterol. It derives from a hydride of a stigmastane. Sitogluside is a natural product found in Ophiopogon intermedius, Ophiopogon jaburan, and other organisms with data available. beta-Sitosterol 3-O-beta-D-galactopyranoside is found in herbs and spices. beta-Sitosterol 3-O-beta-D-galactopyranoside is a constituent of Hibiscus sabdariffa (roselle) leaves. C308 - Immunotherapeutic Agent Daucosterol is a natural sterol compound. Daucosterol is a natural sterol compound.

(-)-Sabinene

C10H16 (136.1252)

Sabinene (CAS: 3387-41-5) belongs to the class of organic compounds known as bicyclic monoterpenoids. These are monoterpenoids containing exactly 2 rings, which are fused to each other. Thus, sabinene is considered to be an isoprenoid lipid molecule. Sabinene is a very hydrophobic molecule, practically insoluble (in water), and relatively neutral. (-)-Sabinene is found in herbs and spices and is a constituent of Laurus nobilis (bay laurel). Constituent of Laurus nobilis (bay laurel) and some other plants. (-)-4(10)-Thujene is found in sweet bay and herbs and spices. Sabinene is a thujene that is a bicyclic monoterpene isolated from the essential oils of various plant species. It has a role as a plant metabolite. Black pepper allergenic extract is used in allergenic testing. Laurus nobilis allergenic extract is used in allergenic testing. Nutmeg allergenic extract is used in allergenic testing. Sabinene is a natural product found in Teucrium montanum, Xylopia aromatica, and other organisms with data available. Carrot Seed Oil is the oil extracted from the seeds of Daucus carota. Carrot seed oil is primarily used in skin treatment preparations. Acquisition and generation of the data is financially supported in part by CREST/JST. Sabinene is an naturally occurring bicyclic monoterpene which can be used as flavorings, perfume additives, fine chemicals, and advanced biofuels. Sabinene is also an orally active compound to attenuates skeletal muscle atrophy and regulates ROS-mediated MAPK/MuRF-1 pathways[1][2]. Sabinene is an naturally occurring bicyclic monoterpene which can be used as flavorings, perfume additives, fine chemicals, and advanced biofuels. Sabinene is also an orally active compound to attenuates skeletal muscle atrophy and regulates ROS-mediated MAPK/MuRF-1 pathways[1][2].

Globulol

C15H26O (222.1984)

Ledol is a sesquiterpenoid. Ledol is a natural product found in Waitzia acuminata, Aloysia gratissima, and other organisms with data available. Ledol is found in allspice. Ledol is a constituent of Valeriana officinalis (valerian), Piper species and others. Constituent of Eucalyptus globulus (Tasmanian blue gum). Globulol is found in allspice and pepper (spice). Ledol ((+)-Ledol) is an antifungal agent that can be isolated from the essential oil fractions of Rhododendron tomentosum. Ledol is also the expectorant and antitussive agent, which is simultaneously responsible for adverse reactions such as dizziness, nausea and vomiting[1]. Ledol ((+)-Ledol) is an antifungal agent that can be isolated from the essential oil fractions of Rhododendron tomentosum. Ledol is also the expectorant and antitussive agent, which is simultaneously responsible for adverse reactions such as dizziness, nausea and vomiting[1].

senegalensin

C25H28O5 (408.1937)

6,8-diprenylnaringenin is a trihydroxyflavanone that is (S)-naringenin substituted by prenyl groups at positions 6 and 8. It has a role as a plant metabolite and an antibacterial agent. It is a trihydroxyflavanone, a member of 4-hydroxyflavanones and a (2S)-flavan-4-one. It is functionally related to a (S)-naringenin. Lonchocarpol A is a natural product found in Macaranga conifera, Erythrina suberosa, and other organisms with data available. A trihydroxyflavanone that is (S)-naringenin substituted by prenyl groups at positions 6 and 8.

Dimethyl trisulfide

C2H6S3 (125.9632)

Dimethyl trisulfide (DMTS) is an organic chemical compound and the simplest organic trisulfide. It is a flammable liquid with a foul odor, which is detectable at levels as low as 1 part per trillion. Dimethyl trisulfide has been found in volatiles emitted from cooked onion, leek and other Allium species, from broccoli and cabbage, as well as from Limburger cheese, and is involved in the unpalatable aroma of aged beer and stale Japanese sake. It is a decomposition product from bacterial decomposition, including from the early stages of human decomposition, and is a major attractant for blowflies looking for hosts. Dimethyl trisulfide along with dimethyl sulfide and dimethyl disulfide have been confirmed as volatile compounds given off by the fly-attracting plant known as dead-horse arum (Helicodiceros muscivorus). These flies are attracted to the odor of fetid meat and help pollinate this plant. DMTS contributes to the foul odor given off by the fungus Phallus impudicus, also known as the common stinkhorn. DMTS causes the characteristic malodorous smell of a fungating lesion, e.g., from cancer wounds, and contributes to the odor of human feces. Dimethyldisulfide is a volatile organic compound. Methyl disulfide is occasionally found as a volatile component of normal human breath and biofluids. Dimethyldisulfide is one of the representative volatile components found in oral malodor. Dimethyldisulfide concentrations in breath is a practical noninvasive way to assess recent exposure to sulfur compounds in sulfate pulp mills, and therefore it should be applicable to workplaces contaminated. (PMID: 5556886, 14691119, 11236158, 8481097) (Wikipedia). Found in essential oil of hop (Humulus lupulus), garlic (Allium sativum), shallot (Allium cepa) and ramsons (Allium ursinum)and is also found in pineapple, raw cabbage, kohrabi, roasted filberts, roasted peanuts, edible mushrooms, brussel sprouts, fermented radish, Chinese cabbage, parsnips, scallop and squid. The major off-flavour principle of overcooked brassicas. Flavouring ingredient. Dimethyl trisulfide is an organic trisulfide. Dimethyl trisulfide is a natural product found in Psidium guajava, Allium chinense, and other organisms with data available. dimethyltrisulfide is a metabolite found in or produced by Saccharomyces cerevisiae. Dimethyl trisulfide is an organic chemical compound and the simplest organic trisulfide found in garlic, onion, broccoli, and similar plants. Dimethyl trisulfide is a cyanide antidote[1]. Dimethyl trisulfide is an organic chemical compound and the simplest organic trisulfide found in garlic, onion, broccoli, and similar plants. Dimethyl trisulfide is a cyanide antidote[1].

Zingiberene

C15H24 (204.1878)

Zingiberene is 2-Methylcyclohexa-1,3-diene in which a hydrogen at the 5 position is substituted (R configuration) by a 6-methyl-hept-5-en-2-yl group (S configuration). It is a sesquiterpene found in the dried rhizomes of Indonesian ginger, Zingiber officinale. It is a sesquiterpene and a cyclohexadiene. It is an enantiomer of an ent-zingiberene. Zingiberene is a natural product found in Chaerophyllum azoricum, Helichrysum odoratissimum, and other organisms with data available. Constituent of ginger oiland is) also from wild thyme (Thymus serpyllum), long pepper (Piper longum) and kua (Curcuma zedoaria). Zingiberene is found in many foods, some of which are cloves, pepper (spice), ginger, and turmeric. Zingiberene is found in anise. Zingiberene is a constituent of ginger oil. Also from wild thyme (Thymus serpyllum), long pepper (Piper longum) and kua (Curcuma zedoaria)

alpha-Farnesene

C15H24 (204.1878)

alpha-Farnesene belongs to the class of organic compounds known as sesquiterpenoids. These are terpenes with three consecutive isoprene units. (3E,6E)-alpha-Farnesene, also known as trans-alpha-Farnesene, is a sweet, bergamot, and citrus tasting flavouring ingredient. (3E,6E)-alpha-Farnesene is a constituent of the natural coating of apples and pears and other fruit. It has been identified in gingers, cottonseeds, common oregano, sweet oranges, spearmints, guava, pomes, and pears. This could make (3E,6E)-alpha-farnesene a potential biomarker for the consumption of these foods. Alpha-farnesene is a farnesene that is 1,3,6,10-tetraene substituted by methyl groups at positions 3, 7 and 11 respectively. alpha-Farnesene is a natural product found in Eupatorium cannabinum, Lonicera japonica, and other organisms with data available. See also: Chamomile (part of); Cannabis sativa subsp. indica top (part of). Constituent of the natural coating of apples and pears and other fruit. Flavouring ingredient. (3E,6E)-alpha-Farnesene is found in many foods, some of which are cottonseed, spearmint, ginger, and fruits.

L-Ascorbic acid

C6H8O6 (176.0321)

L-ascorbic acid is a white to very pale yellow crystalline powder with a pleasant sharp acidic taste. Almost odorless. (NTP, 1992) L-ascorbic acid is the L-enantiomer of ascorbic acid and conjugate acid of L-ascorbate. It has a role as a coenzyme, a flour treatment agent, a food antioxidant, a plant metabolite, a cofactor, a skin lightening agent and a geroprotector. It is an ascorbic acid and a vitamin C. It is a conjugate acid of a L-ascorbate. It is an enantiomer of a D-ascorbic acid. A six carbon compound related to glucose. It is found naturally in citrus fruits and many vegetables. Ascorbic acid is an essential nutrient in human diets, and necessary to maintain connective tissue and bone. Its biologically active form, vitamin C, functions as a reducing agent and coenzyme in several metabolic pathways. Vitamin C is considered an antioxidant. Ascorbic acid is a metabolite found in or produced by Escherichia coli (strain K12, MG1655). Ascorbic acid is a Vitamin C. Ascorbic Acid is a natural product found in Populus tremula, Rosa platyacantha, and other organisms with data available. Ascorbic Acid is a natural water-soluble vitamin (Vitamin C). Ascorbic acid is a potent reducing and antioxidant agent that functions in fighting bacterial infections, in detoxifying reactions, and in the formation of collagen in fibrous tissue, teeth, bones, connective tissue, skin, and capillaries. Found in citrus and other fruits, and in vegetables, vitamin C cannot be produced or stored by humans and must be obtained in the diet. (NCI04) A six carbon compound related to glucose. It is found naturally in citrus fruits and many vegetables. Ascorbic acid is an essential nutrient in human diets, and necessary to maintain connective tissue and bone. Its biologically active form, vitamin C, functions as a reducing agent and coenzyme in several metabolic pathways. Vitamin C is considered an antioxidant. See also: Sodium Ascorbate (active moiety of); D-ascorbic acid (related); Magnesium Ascorbyl Phosphate (active moiety of) ... View More ... G - Genito urinary system and sex hormones > G01 - Gynecological antiinfectives and antiseptics > G01A - Antiinfectives and antiseptics, excl. combinations with corticosteroids > G01AD - Organic acids A - Alimentary tract and metabolism > A11 - Vitamins > A11G - Ascorbic acid (vitamin c), incl. combinations > A11GA - Ascorbic acid (vitamin c), plain B - Blood and blood forming organs > B03 - Antianemic preparations > B03A - Iron preparations > B03AA - Iron bivalent, oral preparations COVID info from clinicaltrial, clinicaltrials, clinical trial, clinical trials D020011 - Protective Agents > D000975 - Antioxidants C26170 - Protective Agent > C275 - Antioxidant D018977 - Micronutrients > D014815 - Vitamins S - Sensory organs > S01 - Ophthalmologicals L-Ascorbic acid (L-Ascorbate), an electron donor, is an endogenous antioxidant agent. L-Ascorbic acid inhibits selectively Cav3.2 channels with an IC50 of 6.5 μM. L-Ascorbic acid is also a collagen deposition enhancer and an elastogenesis inhibitor[1][2][3]. L-Ascorbic acid exhibits anti-cancer effects through the generation of reactive oxygen species (ROS) and selective damage to cancer cells[4]. L-Ascorbic acid. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=50-81-7 (retrieved 2024-10-29) (CAS RN: 50-81-7). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).

Polylimonene

C10H16 (136.1252)

Dipentene appears as a colorless liquid with an odor of lemon. Flash point 113 °F. Density about 7.2 lb /gal and insoluble in water. Hence floats on water. Vapors heavier than air. Used as a solvent for rosin, waxes, rubber; as a dispersing agent for oils, resins, paints, lacquers, varnishes, and in floor waxes and furniture polishes. Limonene is a monoterpene that is cyclohex-1-ene substituted by a methyl group at position 1 and a prop-1-en-2-yl group at position 4 respectively. It has a role as a human metabolite. It is a cycloalkene and a p-menthadiene. Limonene is a natural product found in Teucrium montanum, Xylopia aromatica, and other organisms with data available. Limonene, (+/-)- is a racemic mixture of limonene, a natural cyclic monoterpene and major component of the oil extracted from citrus rind with chemo-preventive and antitumor activities. The metabolites of DL-limonene, perillic acid, dihydroperillic acid, uroterpenol and limonene 1,2-diol are suggested to inhibit tumor growth through inhibition of p21-dependent signaling, induce apoptosis via the induction of the transforming growth factor beta-signaling pathway, inhibit post-translational modification of signal transduction proteins, result in G1 cell cycle arrest as well as cause differential expression of cell cycle- and apoptosis-related genes. Limonene is a metabolite found in or produced by Saccharomyces cerevisiae. A naturally-occurring class of MONOTERPENES which occur as a clear colorless liquid at room temperature. Limonene is the major component in the oil of oranges which has many uses, including as flavor and fragrance. It is recognized as safe in food by the Food and Drug Administration (FDA). See also: Cannabis sativa subsp. indica top (part of); Larrea tridentata whole (part of). Constituent of many essential oils. (±)-Limonene is found in many foods, some of which are common oregano, nutmeg, herbs and spices, and summer savory. Dipentene is found in carrot. Dipentene is a constituent of many essential oils

(-)-beta-Pinene

C10H16 (136.1252)

(-)-beta-pinene is the (1S,5S)-enantiomer of beta-pinene. It is an enantiomer of a (+)-beta-pinene. (-)-beta-Pinene is a natural product found in Curcuma amada, Molopospermum peloponnesiacum, and other organisms with data available. Flavouring ingredient. (-)-beta-Pinene is found in many foods, some of which are almond, hyssop, sweet bay, and common sage. (-)-beta-Pinene is found in almond. (-)-beta-Pinene is a flavouring ingredient. The (1S,5S)-enantiomer of beta-pinene. β-Pinene ((-)-β-Pinene), a major component of turpentine, inhibit infectious bronchitis virus (IBV) with an IC50 of 1.32 mM. β-Pinene presents antimicrobial activity[1][2]. β-Pinene ((-)-β-Pinene), a major component of turpentine, inhibit infectious bronchitis virus (IBV) with an IC50 of 1.32 mM. β-Pinene presents antimicrobial activity[1][2].

alpha-Tocopherol

C29H50O2 (430.3811)

Alpha-tocopherol is a pale yellow, viscous liquid. (NTP, 1992) (R,R,R)-alpha-tocopherol is an alpha-tocopherol that has R,R,R configuration. The naturally occurring stereoisomer of alpha-tocopherol, it is found particularly in sunflower and olive oils. It has a role as an antioxidant, a nutraceutical, an antiatherogenic agent, an EC 2.7.11.13 (protein kinase C) inhibitor, an anticoagulant, an immunomodulator, an antiviral agent, a micronutrient, an algal metabolite and a plant metabolite. It is an enantiomer of a (S,S,S)-alpha-tocopherol. In 1922, vitamin E was demonstrated to be an essential nutrient. Vitamin E is a term used to describe 8 different fat soluble tocopherols and tocotrienols, alpha-tocopherol being the most biologically active. Vitamin E acts as an antioxidant, protecting cell membranes from oxidative damage. The antioxidant effects are currently being researched for use in the treatment of diseases causing bone loss, cardiovascular diseases, diabetes mellitus and associated comorbidities, eye diseases, inflammatory diseases (including skin conditions), lipid disorders, neurological diseases, and radiation damage. Though this research is so far inconclusive, vitamin E remains a popular supplement and is generally considered safe by the FDA. Vitamin E is a natural product found in Monteverdia ilicifolia, Calea jamaicensis, and other organisms with data available. Alpha-Tocopherol is the orally bioavailable alpha form of the naturally-occurring fat-soluble vitamin E, with potent antioxidant and cytoprotective activities. Upon administration, alpha-tocopherol neutralizes free radicals, thereby protecting tissues and organs from oxidative damage. Alpha-tocopherol gets incorporated into biological membranes, prevents protein oxidation and inhibits lipid peroxidation, thereby maintaining cell membrane integrity and protecting the cell against damage. In addition, alpha-tocopherol inhibits the activity of protein kinase C (PKC) and PKC-mediated pathways. Alpha-tocopherol also modulates the expression of various genes, plays a key role in neurological function, inhibits platelet aggregation and enhances vasodilation. Compared with other forms of tocopherol, alpha-tocopherol is the most biologically active form and is the form that is preferentially absorbed and retained in the body. A generic descriptor for all tocopherols and tocotrienols that exhibit alpha-tocopherol activity. By virtue of the phenolic hydrogen on the 2H-1-benzopyran-6-ol nucleus, these compounds exhibit varying degree of antioxidant activity, depending on the site and number of methyl groups and the type of isoprenoids. See also: Alpha-Tocopherol Acetate (is active moiety of); Tocopherol (related); Vitamin E (related) ... View More ... alpha-Tocopherol is traditionally recognized as the most active form of vitamin E in humans and is a powerful biological antioxidant. The measurement of "vitamin E" activity in international units (IU) was based on fertility enhancement by the prevention of spontaneous abortions in pregnant rats relative to alpha-Tocopherol. Natural vitamin E exists in eight different forms or isomers: four tocopherols and four tocotrienols. In foods, the most abundant sources of vitamin E are vegetable oils such as palm oil, sunflower, corn, soybean, and olive oil. Nuts, sunflower seeds, and wheat germ are also good sources. Constituent of many vegetable oils such as soya and sunflower oils. Dietary supplement and nutrient. Nutriceutical with anticancer and antioxidant props. Added to fats and oils to prevent rancidity. The naturally-occurring tocopherol is a single stereoisomer; synthetic forms are a mixture of all eight possible isomers An alpha-tocopherol that has R,R,R configuration. The naturally occurring stereoisomer of alpha-tocopherol, it is found particularly in sunflower and olive oils. α-Tocopherol (alpha-tocopherol) is a type of vitamin E. Its E number is "E307". Vitamin E exists in eight different forms, four tocopherols and four tocotrienols. All feature a chromane ring, with a hydroxyl group that can donate a hydrogen atom to reduce free radicals and a hydrophobic side chain which allows for penetration into biological membranes. Compared to the others, α-tocopherol is preferentially absorbed and accumulated in humans. Vitamin E is found in a variety of tissues, being lipid-soluble, and taken up by the body in a wide variety of ways. The most prevalent form, α-tocopherol, is involved in molecular, cellular, biochemical processes closely related to overall lipoprotein and lipid homeostasis. Ongoing research is believed to be "critical for manipulation of vitamin E homeostasis in a variety of oxidative stress-related disease conditions in humans."[2] One of these disease conditions is the α-tocopherol role in the use by malaria parasites to protect themselves from the highly oxidative environment in erythrocytes.[3] DL-α-Tocopherol. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=16826-11-2 (retrieved 2024-06-29) (CAS RN: 10191-41-0). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). DL-alpha-Tocopherol is a synthetic vitamin E, with antioxidation effect. DL-alpha-Tocopherol protects human skin fibroblasts against the cytotoxic effect of UVB[1]. DL-alpha-Tocopherol is a synthetic vitamin E, with antioxidation effect. DL-alpha-Tocopherol protects human skin fibroblasts against the cytotoxic effect of UVB[1]. rel-α-Vitamin E (rel-D-α-Tocopherol) is a vitamin with antioxidant properties and also a mixture[1]. α-Vitamin E ((+)-α-Tocopherol), a naturally occurring vitamin E form, is a potent antioxidant[1][2]. α-Vitamin E ((+)-α-Tocopherol), a naturally occurring vitamin E form, is a potent antioxidant[1][2].

beta-Myrcene

C10H16 (136.1252)

7-Methyl-3-methylene-1,6-octadiene, also known as beta-Myrcene or myrcene is an acyclic monoterpene. Monoterpenoids are terpenes that contain 10 carbon atoms and are comprised of two isoprene units. The biosynthesis of monoterpenes is known to occur mainly through the methyl-erythritol-phosphate (MEP) pathway in the plastids. beta-Myrcene is a significant component of the essential oil of several plants, including allspice, bay, cannabis, hops, houttuynia, lemon grass, mango, myrcia, verbena, west indian bay tree, and cardamom. It is also the main component of wild thyme, the leaves of which contain up to 40\\\\% by weight of myrcene. Industrially, it is produced mainly semi-synthetically from myrcia, from which it gets its name. Myrcene has been detected as a volatile component in cannabis plant samples (PMID:26657499 ) and its essential oils (PMID:6991645 ). beta-Myrcene is the most abundant monoterpene in Cannabis and it has analgesic, anti-inflammatory, antibiotic, and antimutagenic activities. beta-Myrcene is a flavouring agent and it is used in the perfumery industry. It has a pleasant odor but is rarely used directly. It is a key intermediate in the production of several fragrances such as menthol, citral, citronellol, citronellal, geraniol, nerol, and linalool. Myrcene, [liquid] appears as a yellow oily liquid with a pleasant odor. Flash point below 200 °F. Insoluble in water and less dense than water. Beta-myrcene is a monoterpene that is octa-1,6-diene bearing methylene and methyl substituents at positions 3 and 7 respectively. It has a role as a plant metabolite, an anti-inflammatory agent, an anabolic agent, a fragrance, a flavouring agent and a volatile oil component. Myrcene is a natural product found in Teucrium montanum, Xylopia aromatica, and other organisms with data available. 7-Methyl-3-methylene-1,6-octadiene is found in allspice. 7-Methyl-3-methylene-1,6-octadiene is found in many essential oils, e.g. hop oil. 7-Methyl-3-methylene-1,6-octadiene is a flavouring agent. Myrcene is a metabolite found in or produced by Saccharomyces cerevisiae. See also: Caraway Oil (part of); Mandarin oil (part of); Juniper Berry Oil (part of) ... View More ... A monoterpene that is octa-1,6-diene bearing methylene and methyl substituents at positions 3 and 7 respectively. Found in many essential oils, e.g. hop oil. Flavouring agent Myrcene (β-Myrcene), an aromatic volatile compound, suppresses TNFα-induced NF-κB activity. Myrcene has anti-invasive effect[1][2]. Myrcene (β-Myrcene), an aromatic volatile compound, suppresses TNFα-induced NF-κB activity. Myrcene has anti-invasive effect[1][2].

Caryophyllene alpha-oxide

C15H24O (220.1827)

Caryophyllene oxide is an epoxide. It has a role as a metabolite. Caryophyllene oxide is a natural product found in Xylopia emarginata, Eupatorium altissimum, and other organisms with data available. See also: Cannabis sativa subsp. indica top (part of). Caryophyllene alpha-oxide is a minor produced of epoxidn. of KGV69-V. Minor production of epoxidn. of KGV69-V Caryophyllene oxide, isolated from from Hymenaea courbaril, possesses analgesic and anti-inflammatory activity[1]. Caryophyllene oxide, isolated from from Hymenaea courbaril, possesses analgesic and anti-inflammatory activity[1].

Thymol

C10H14O (150.1045)

Thymol is a phenol that is a natural monoterpene derivative of cymene. It has a role as a volatile oil component. It is a member of phenols and a monoterpenoid. It derives from a hydride of a p-cymene. A phenol obtained from thyme oil or other volatile oils. It is used as a stabilizer in pharmaceutic preparations. It has been used for its antiseptic, antibacterial, and antifungal actions, and was formerly used as a vermifuge. (Dorland, 28th ed) Thymol is a natural product found in Xylopia aromatica, Xylopia sericea, and other organisms with data available. A phenol obtained from thyme oil or other volatile oils used as a stabilizer in pharmaceutical preparations, and as an antiseptic (antibacterial or antifungal) agent. See also: Paeonia lactiflora root (part of); Elymus repens root (part of); Eucalyptol; thymol (component of) ... View More ... Thymol is a phenol obtained from thyme oil or other volatile oils. It is used as a stabilizer in pharmaceutic preparations. It has been used for its antiseptic, antibacterial, and antifungal actions, and was formerly used as a vermifuge. Thymol is a monoterpene phenol derivative of cymene, C10H13OH, isomeric with carvacrol, found in oil of thyme, and extracted as a white crystalline substance of a pleasant aromatic odor and strong antiseptic properties. It is also called "hydroxy cymene". In a 1994 report released by five top cigarette companies, thymol is one of the 599 additives to cigarettes. Its use or purpose, however, is unknown, like most cigarette additives. Found in many essential oils. Especies found in the Labiatae. Rich sources are thyme oil, seed oil of Ptychotis ajowan and oils of horsemint (Monarda punctata) and Ocimum subspecies Flavouring ingredient C254 - Anti-Infective Agent > C28394 - Topical Anti-Infective Agent D000890 - Anti-Infective Agents > D000935 - Antifungal Agents A phenol that is a natural monoterpene derivative of cymene. Thymol is the main monoterpene phenol occurring in essential oils isolated from plants belonging to the Lamiaceae family, and other plants such as those belonging to the Verbenaceae, Scrophulariaceae, Ranunculaceae and Apiaceae families. Thymol has antioxidant, anti-inflammatory, antibacterial and antifungal effects[1]. Thymol is the main monoterpene phenol occurring in essential oils isolated from plants belonging to the Lamiaceae family, and other plants such as those belonging to the Verbenaceae, Scrophulariaceae, Ranunculaceae and Apiaceae families. Thymol has antioxidant, anti-inflammatory, antibacterial and antifungal effects[1].

beta-Geraniol

C10H18O (154.1358)

Geraniol is a colorless to pale yellow oily liquid with a sweet rose odor. (NTP, 1992) Geraniol is a monoterpenoid consisting of two prenyl units linked head-to-tail and functionalised with a hydroxy group at its tail end. It has a role as a fragrance, an allergen, a volatile oil component and a plant metabolite. It is a monoterpenoid, a primary alcohol and a 3,7-dimethylocta-2,6-dien-1-ol. Geraniol is a monoterpene that is found within many essential oils of fruits, vegetables, and herbs including rose oil, citronella, lemongrass, lavender, and other aromatic plants. It is emitted from the flowers of many species of plant and is commonly used by the food, fragrance, and cosmetic industry. Geraniol has demonstrated a wide spectrum of pharmacological activities including antimicrobial, anti-inflammatory, antioxidant, anti-cancer, and neuroprotective to name a few. Interestingly, geraniol has also been shown to sensitize tumour cells to commonly used chemotherapies including [DB00544] and [DB01248] and represents a promising cancer chemopreventive agent. Due to its anticancer effects, geraniol has been found to be effective against a broad range of cancers including breast, lung, colon, prostate, pancreatic, skin, liver, kidney and oral cancers. These pharmacologic effects are clinically important as geraniol is classified as generally-recognized-as-safe (GRAS) by the Flavor and Extract Manufacturers Association (FEMA) and the Food and Drug Administration (FDA) of the United States. Sensitivity to geraniol may be identified with a clinical patch test. Geraniol is a Standardized Chemical Allergen. The physiologic effect of geraniol is by means of Increased Histamine Release, and Cell-mediated Immunity. Geraniol is a natural product found in Xylopia sericea, Eupatorium cannabinum, and other organisms with data available. beta-Geraniol is found in almond. beta-Geraniol is found in free state and as esters in many essential oils including geranium oil. Most prolific natural source is palmarosa oil. beta-Geraniol is a flavouring agent. Geraniol is a monoterpenoid and an alcohol. It is the primary part of rose oil, palmarosa oil, and citronella oil (Java type). It also occurs in small quantities in geranium, lemon, and many other essential oils. It has a rose-like odor and is commonly used in perfumes. It is used in flavors such as peach, raspberry, grapefruit, red apple, plum, lime, orange, lemon, watermelon, pineapple, and blueberry. It is the isomer of nerol. (Wikipedia) beta-Geraniol belongs to the family of Monoterpenes. These are compounds contaning a chain of two isoprene units. Geraniol is a metabolite found in or produced by Saccharomyces cerevisiae. See also: Coriander Oil (part of); Java citronella oil (part of). beta-Geraniol, also known as (E)-nerol, the isomer of nerol (or geranyl alcohol, is a monoterpenoid alcohol. It belongs to the class of organic compounds known as acyclic monoterpenoids. These are monoterpenes that do not contain a cycle. Monoterpenoids are terpenes that contain 10 carbon atoms and are comprised of two isoprene units. The biosynthesis of monoterpenes is known to occur mainly through the methyl-erythritol-phosphate (MEP) pathway in the plastids (PMID:7640522 ). Geranyl diphosphate (GPP) is a key intermediate in the biosynthesis of cyclic monoterpenes. GPP undergoes several cyclization reactions to yield a diverse number of cyclic arrangements. beta-Geraniol is an isoprenoid lipid molecule that is very hydrophobic, practically insoluble in water, and relatively neutral. beta-Geraniol has a sweet, citrus, and floral taste. beta-Geraniol is found in highest concentrations in common grapes, black walnuts, and common thymes and in lower concentrations in cardamoms, common oregano, and gingers. beta-Geraniol has also been detected in lemon verbena, oval-leaf huckleberries, common pea, sweet cherries, and nopals. This could make beta-geraniol a potential biomarker for the consumption of these foods. It is found in as an alcohol and as its ester in many essential oils including geranium oil. It is the primary part of rose oil, palmarosa oil, and citronella oil (Java type) and occurs in small quantities in geranium, lemon, and many other essential oils. Geraniol is a monoterpenoid and an alcohol found in cannabis plants (PMID:6991645 ). Because it has a rose-like odor, it is commonly used in perfumes. It is used to create flavors such as peach, raspberry, grapefruit, red apple, plum, lime, orange, lemon, watermelon, pineapple, and blueberry. Geraniol is produced by the scent glands of honeybees to mark nectar-bearing flowers and locate the entrances to their hives (http//doi:10.1051/apido:19900403). Found in free state and as esters in many essential oils including geranium oil. Most prolific natural source is palmarosa oil. Flavouring agent A monoterpenoid consisting of two prenyl units linked head-to-tail and functionalised with a hydroxy group at its tail end. C26170 - Protective Agent > C275 - Antioxidant Geraniol, an olefinic terpene, was found to inhibit growth of Candida albicans and Saccharomyces cerevisiae strains[1]. Geraniol, an olefinic terpene, was found to inhibit growth of Candida albicans and Saccharomyces cerevisiae strains[1]. Nerol is a constituent of neroli oil. Nerol Nerol triggers mitochondrial dysfunction and induces apoptosis via elevation of Ca2+ and ROS. Antifungal activity[1][2]. Nerol is a constituent of neroli oil. Nerol Nerol triggers mitochondrial dysfunction and induces apoptosis via elevation of Ca2+ and ROS. Antifungal activity[1][2]. Nerol is a constituent of neroli oil. Nerol Nerol triggers mitochondrial dysfunction and induces apoptosis via elevation of Ca2+ and ROS. Antifungal activity[1][2].

alpha-Humulene

C15H24 (204.1878)

alpha-Humulene, also known as alpha-caryophyllene, belongs to the class of organic compounds known as sesquiterpenoids. These are terpenes with three consecutive isoprene units. Thus, alpha-humulene is considered to be an isoprenoid lipid molecule. alpha-Humulene is found in allspice. alpha-Humulene is a constituent of many essential oils including hops (Humulus lupulus) and cloves (Syzygium aromaticum). (1E,4E,8E)-alpha-humulene is the (1E,4E,8E)-isomer of alpha-humulene. Humulene is a natural product found in Nepeta nepetella, Teucrium montanum, and other organisms with data available. See also: Caryophyllene (related). α-Humulene is a main constituent of Tanacetum vulgare L. (Asteraceae) essential oil with anti-inflammation (IC50=15±2 μg/mL). α-Humulene inhibits COX-2 and iNOS expression[1]. α-Humulene is a main constituent of Tanacetum vulgare L. (Asteraceae) essential oil with anti-inflammation (IC50=15±2 μg/mL). α-Humulene inhibits COX-2 and iNOS expression[1].

Geraniol

C10H18O (154.1358)

Geraniol, also known as beta-Geraniol, (E)-nerol (the isomer of nerol) or geranyl alcohol, is a monoterpenoid alcohol. It belongs to the class of organic compounds known as acyclic monoterpenoids. These are monoterpenes that do not contain a cycle. Monoterpenoids are terpenes that contain 10 carbon atoms and are comprised of two isoprene units. In plants, the biosynthesis of monoterpenes is known to occur mainly through the methyl-erythritol-phosphate (MEP) pathway in the plastids (PMID:7640522 ). Geranyl diphosphate (GPP) is a key intermediate in the biosynthesis of cyclic monoterpenes. GPP undergoes several cyclization reactions to yield a diverse number of cyclic arrangements. beta-Geraniol is an isoprenoid lipid molecule that is very hydrophobic, practically insoluble in water, and relatively neutral. beta-Geraniol has a sweet, citrus, and floral taste. beta-Geraniol is found in highest concentrations in common grapes, black walnuts, and common thymes and in lower concentrations in cardamoms, common oregano, and gingers. beta-Geraniol has also been detected in lemon verbena, oval-leaf huckleberries, common pea, sweet cherries, and nopals. It is found as an alcohol and as its ester in many essential oils including geranium oil. It is the primary part of rose oil, palmarosa oil, and citronella oil (Java type) and occurs in small quantities in geranium, lemon, and many other essential oils. Because it has a rose-like odor, it is commonly used in perfumes. It is used to create flavors such as peach, raspberry, grapefruit, red apple, plum, lime, orange, lemon, watermelon, pineapple, and blueberry. An alternate application has been found in the use of insect repellents or deterrants. Though it may repel mosquitoes, flies, lice, cockroaches, ants, and ticks, it is also produced by the scent glands of honey bees to help them mark nectar-bearing flowers and locate the entrances to their hives (http//doi:10.1051/apido:19900403). Extensive testing by Dr. Jerry Butler at the University of Florida has shown geraniol to be one of natures most effective insect repellents (PMID:20836800). Nerol is the (2Z)-stereoisomer of 3,7-dimethylocta-2,6-dien-1-ol. It has been isolated from the essential oils from plants like lemon grass. It has a role as a volatile oil component, a plant metabolite and a fragrance. Nerol is a natural product found in Eupatorium cannabinum, Vitis rotundifolia, and other organisms with data available. Nerol is a metabolite found in or produced by Saccharomyces cerevisiae. Constituent of many essential oils including neroli and bergamot oils. In essential oils it is a minor component always accompanied by geraniol. Flavouring agent The (2Z)-stereoisomer of 3,7-dimethylocta-2,6-dien-1-ol. It has been isolated from the essential oils from plants like lemon grass. Nerol is a constituent of neroli oil. Nerol Nerol triggers mitochondrial dysfunction and induces apoptosis via elevation of Ca2+ and ROS. Antifungal activity[1][2]. Nerol is a constituent of neroli oil. Nerol Nerol triggers mitochondrial dysfunction and induces apoptosis via elevation of Ca2+ and ROS. Antifungal activity[1][2]. Nerol is a constituent of neroli oil. Nerol Nerol triggers mitochondrial dysfunction and induces apoptosis via elevation of Ca2+ and ROS. Antifungal activity[1][2].

trans-beta-Farnesene

C15H24 (204.1878)

Trans-beta-farnesene is a beta-farnesene in which the double bond at position 6-7 has E configuration. It is the major or sole alarm pheromone in most species of aphid. It has a role as an alarm pheromone and a metabolite. beta-Farnesene is a natural product found in Nepeta nepetella, Eupatorium capillifolium, and other organisms with data available. trans-beta-Farnesene, also known as (E)-β-Farnesene or (E)-7,11-Dimethyl-3-methylenedodeca-1,6,10-triene, is classified as a member of the Sesquiterpenoids. Sesquiterpenoids are terpenes with three consecutive isoprene units. trans-beta-Farnesene is a hydrocarbon lipid molecule. (E)-β-Farnesene (trans-β-Farnesene) is a volatile sesquiterpene hydrocarbon which can be found in Phlomis aurea Decne essential oil. (E)-β-Farnesene can be used as a feeding stimulant for the sand fly Lutzomyia longipalpis[1][2]. (E)-β-Farnesene (trans-β-Farnesene) is a volatile sesquiterpene hydrocarbon which can be found in Phlomis aurea Decne essential oil. (E)-β-Farnesene can be used as a feeding stimulant for the sand fly Lutzomyia longipalpis[1][2].

Octanal

C8H16O (128.1201)

Octanal, also known as 1-caprylaldehyde or aldehyde C-8, belongs to the class of organic compounds known as medium-chain aldehydes. These are an aldehyde with a chain length containing between 6 and 12 carbon atoms. Thus, octanal is considered to be a fatty aldehyde lipid molecule. A saturated fatty aldehyde formally arising from reduction of the carboxy group of caprylic acid (octanoic acid). Octanal is a very hydrophobic molecule, practically insoluble in water, and relatively neutral. Octanal exists in all eukaryotes, ranging from yeast to humans. Octanal is an aldehydic, citrus, and fat tasting compound. Octanal is commonly found in high concentrations in limes, caraway, and mandarin orange (clementine, tangerine) and in lower concentrations in wild carrots and carrots. Octanal has also been detected, but not quantified in several different foods, such as cherry tomato, brussel sprouts, alaska wild rhubarbs, sweet marjorams, and sunflowers. N-octylaldehyde is a colorless liquids with a strong fruity odor. Less dense than water and insoluble in water. Flash points 125 °F. Used in making perfumes and flavorings. Octanal is a saturated fatty aldehyde formally arising from reduction of the carboxy group of caprylic acid (octanoic acid). It has a role as a plant metabolite. It is a saturated fatty aldehyde, a n-alkanal and a medium-chain fatty aldehyde. Octanal is a natural product found in Eupatorium cannabinum, Thymus zygioides, and other organisms with data available. Octanal is a metabolite found in or produced by Saccharomyces cerevisiae. Isolated from various plant oils especies Citrus subspeciesand is also present in kumquat peel oil, cardamom, coriander, caraway and other herbs. Flavouring agent, used in artificial citrus formulations A saturated fatty aldehyde formally arising from reduction of the carboxy group of caprylic acid (octanoic acid). A - Alimentary tract and metabolism > A07 - Antidiarrheals, intestinal antiinflammatory/antiinfective agents Octanal is an aromatic aldehyde, with antioxidant and antimicrobial activities. Octanal shows cytotoxicity against Hela cells[1]. Octanal is an aromatic aldehyde, with antioxidant and antimicrobial activities. Octanal shows cytotoxicity against Hela cells[1].

gamma-Cadinene

C15H24 (204.1878)

(-)-gamma-cadinene is a member of the cadinene family of sesquiterpenes in which the isopropyl group is cis to the hydrogen at the adjacent bridgehead carbon (the 1R,4aS,8aS enantiomer). It has a role as a metabolite. It is a cadinene, a member of octahydronaphthalenes and a gamma-cadinene. It is an enantiomer of a (+)-gamma-cadinene. (-)-gamma-Cadinene is a natural product found in Xylopia sericea, Chromolaena odorata, and other organisms with data available. A member of the cadinene family of sesquiterpenes in which the isopropyl group is cis to the hydrogen at the adjacent bridgehead carbon (the 1R,4aS,8aS enantiomer). gamma-Cadinene is found in allspice. gamma-Cadinene is a constituent of citronella oil.

2-Hydroxycinnamic acid

C9H8O3 (164.0473)

2-coumaric acid, also known as o-coumaric acid, is a monohydroxycinnamic acid in which the hydroxy substituent is located at C-2 of the phenyl ring. It has a role as a plant metabolite. It is a conjugate acid of a 2-coumarate. It is a hydroxycinnamic acid, an organic compound that is a hydroxy derivative of cinnamic acid. There are three isomers of coumaric acids: o-coumaric acid, m-coumaric acid, and p-coumaric acid, that differ by the position of the hydroxy substitution of the phenyl group. 2-Hydroxycinnamic acid belongs to the class of organic compounds known as hydroxycinnamic acids. Hydroxycinnamic acids are compounds containing an cinnamic acid where the benzene ring is hydroxylated. 2-Hydroxycinnamic acid exists in all living organisms, ranging from bacteria to humans. 2-Hydroxycinnamic acid has been found in a few different foods, such as corns, hard wheats, and olives and in a lower concentration in pomegranates, american cranberries, and peanuts. 2-Hydroxycinnamic acid has also been detected, but not quantified in several different foods, such as carrots, soy beans, ryes, rye bread, and turmerics. Coumaric acid is a hydroxycinnamic acid, an organic compound that is a hydroxy derivative of cinnamic acid. There are three isomers, o-coumaric acid, m-coumaric acid, and p-coumaric acid, that differ by the position of the hydroxy substitution of the phenyl group. p-Coumaric acid is the most abundant isomer of the three in nature. o-Coumaric acid is found in many foods, some of which are common wheat, date, bilberry, and corn. 2-coumaric acid is a monohydroxycinnamic acid in which the hydroxy substituent is located at C-2 of the phenyl ring. It has a role as a plant metabolite. It is a conjugate acid of a 2-coumarate. 2-Hydroxycinnamic acid is a natural product found in Mikania glomerata, Coffea arabica, and other organisms with data available. See also: Ipomoea aquatica leaf (part of). The trans-isomer of 2-coumaric acid. o-Coumaric acid. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=583-17-5 (retrieved 2024-07-01) (CAS RN: 583-17-5). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).

2-Methoxy-4-vinylphenol

C9H10O2 (150.0681)

2-methoxy-4-vinylphenol is a member of the class of phenols that is guaiacol in which the hydrogen para- to the hydroxy group is replaced by a vinyl group. It has a role as a pheromone, a flavouring agent and a plant metabolite. 2-Methoxy-4-vinylphenol is a natural product found in Coffea, Coffea arabica, and other organisms with data available. 4-Vinylguaiacol is a metabolite found in or produced by Saccharomyces cerevisiae. See also: Moringa oleifera leaf oil (part of). 2-Methoxy-4-vinylphenol is an aromatic substance used as a flavoring agent. It is one of the compounds responsible for the natural aroma of buckwheat. A member of the class of phenols that is guaiacol in which the hydrogen para- to the hydroxy group is replaced by a vinyl group. Responsible for off-flavour of old fruit in stored orange juice 2-Methoxy-4-vinylphenol (2M4VP), a naturally Germination inhibitor, exerts potent anti-inflammatory effects[1][2]. 2-Methoxy-4-vinylphenol (2M4VP), a naturally Germination inhibitor, exerts potent anti-inflammatory effects[1][2].

alpha-Terpinene

C10H16 (136.1252)

Alpha-Terpinene is one of four isomers of terpinene (the other three being beta terpinene, gamma terpenine, and delta terpinine or terpimolene) that differ in the position of carbon-carbon double bonds. Alpha-Terpinene belongs to the class of organic compounds known as menthane monoterpenes. These are monoterpenes with a structure based on the o-, m-, or p-menthane backbone. p-Menthane consists of the cyclohexane ring with a methyl group and a (2-methyl)-propyl group at the 1 and 4 ring position, respectively. The o- and m- menthanes are much rarer, and presumably arise by alkyl migration of p-menthanes. alpha-Terpinene is a naturally occurring monoterpene found in allspice, cardamom, and marjoram. alpha-Terpinene is a constituent of many essential oils with oil from Litsea ceylanica being is a major source (20\\\\%) of it. alpha-Terpinene has been found in Citrus, Eucalyptus and Juniperus species, and cannabis plants (PMID:6991645 ). ±-Terpinene is a flavouring agent and is produced industrially by acid-catalyzed rearrangement of ±-pinene. It has perfume and flavoring properties but is mainly used to confer a pleasant odor to industrial fluids. Alpha-terpinene is one of three isomeric monoterpenes differing in the positions of their two double bonds (beta- and gamma-terpinene being the others). In alpha-terpinene the double bonds are at the 1- and 3-positions of the p-menthane skeleton. It has a role as a volatile oil component and a plant metabolite. It is a monoterpene and a cyclohexadiene. alpha-Terpinene is a natural product found in Xylopia aromatica, Xylopia sericea, and other organisms with data available. One of three isomeric monoterpenes differing in the positions of their two double bonds (beta- and gamma-terpinene being the others). In alpha-terpinene the double bonds are at the 1- and 3-positions of the p-menthane skeleton. Alpha-terpinene, also known as 1-isopropyl-4-methyl-1,3-cyclohexadiene or 1-methyl-4-(1-methylethyl)-1,3-cyclohexadiene, is a member of the class of compounds known as menthane monoterpenoids. Menthane monoterpenoids are monoterpenoids with a structure based on the o-, m-, or p-menthane backbone. P-menthane consists of the cyclohexane ring with a methyl group and a (2-methyl)-propyl group at the 1 and 4 ring position, respectively. The o- and m- menthanes are much rarer, and presumably arise by alkyl migration of p-menthanes. Thus, alpha-terpinene is considered to be an isoprenoid lipid molecule. Alpha-terpinene is a camphoraceous, citrus, and herbal tasting compound and can be found in a number of food items such as summer savory, cabbage, pot marjoram, and wild celery, which makes alpha-terpinene a potential biomarker for the consumption of these food products. Alpha-terpinene can be found primarily in saliva. Alpha-terpinene exists in all eukaryotes, ranging from yeast to humans. α-Terpinene (Terpilene) is a monoterpene found in the essential oils of a large variety of foods and aromatic plants such as Mentha piperita. α-Terpinene is active against Trypanosoma evansi and has the potential for trypanosomosis treatment. α-Terpinene has antioxidant and antifungal properties[1][2][3][4]. α-Terpinene (Terpilene) is a monoterpene found in the essential oils of a large variety of foods and aromatic plants such as Mentha piperita. α-Terpinene is active against Trypanosoma evansi and has the potential for trypanosomosis treatment. α-Terpinene has antioxidant and antifungal properties[1][2][3][4].

Farnesol

C15H26O (222.1984)

Farnesol is a signaling molecule that is derived from farnesyl diphosphate, an intermediate in the isoprenoid/cholesterol biosynthetic pathway. Farnesol is a 15 carbon isoprenoid alcohol is the corresponding dephosphorylated form of the isoprenoid farnesyl diphosphate. Farnesol has a potential role in controlling the degradation of 3-hydroxy-3-methylglutaryl coenzyme A (HMGCoA) reductase (EC 1.1.1.34, NADPH-hydroxymethylglutaryl-CoA reductase). The enzyme is stabilized under conditions of cellular sterol depletion (e.g. statin-treated cells) and rapidly degraded in sterol-loaded cells. In mammalian cells, this enhanced degradation is dependent on the presence of both a sterol and a non-sterol derived from the isoprenoid pathway; farnesol, the dephosphorylated form of farnesyl diphosphate, can function as the non-sterol component. Farnesol has been shown to activate the farnesoid receptor (FXR), a nuclear receptor that forms a functional heterodimer with RXR. Thus, dephosphorylation of farnesyl diphosphate, an intermediate in the cholesterol synthetic pathway, might produce an active ligand for the FXR:RXR heterodimer. The physiological ligand for FXR remains to be identified; farnesol, may simply mimic the unidentified natural ligand(s). In addition, exogenous farnesol have an effect on several other physiological processes, including inhibition of phosphatidylcholine biosynthesis, induction of apoptosis, inhibition of cell cycle progression and actin cytoskeletal disorganization. Farnesol cellular availability is an important determinant of vascular tone in animals and humans, and provides a basis for exploring farnesyl metabolism in humans with compromised vascular function as well as for using farnesyl analogues as regulators of arterial tone in vivo. A possible metabolic fate for farnesol is its conversion to farnesoic acid, and then to farnesol-derived dicarboxylic acids (FDDCAs) which would then be excreted in the urine. Farnesol can also be oxidized to a prenyl aldehyde, presumably by an alcohol dehydrogenase (ADH), and that this activity resides in the mitochondrial and peroxisomal. Liver Endoplasmic reticulum and peroxisomal fractions are able to phosphorylate farnesol to Farnesyl diphosphate in a Cytosine triphosphate dependent fashion. (PMID: 9812197, 8636420, 9083051, 9015362). Prenol is polymerized by dehydration reactions; when there are at least four isoprene units (n in the above formula is greater than or equal to four), the polymer is called a polyprenol. Polyprenols can contain up to 100 isoprene units (n=100) linked end to end with the hydroxyl group (-OH) remaining at the end. These isoprenoid alcohols are also called terpenols These isoprenoid alcohols are important in the acylation of proteins, carotenoids, and fat-soluble vitamins A, E and K. They are also building blocks for plant oils such as farnesol and geraniol. Prenol is also a building block of cholesterol (built from six isoprene units), and thus of all steroids. Prenol has sedative properities, it is probably GABA receptor allosteric modulator.When the isoprene unit attached to the alcohol is saturated, the compound is referred to as a dolichol. Dolichols are important as glycosyl carriers in the synthesis of polysaccharides.(Wikipedia). C26170 - Protective Agent > C275 - Antioxidant Component of many flower absolutes [CCD] Farnesol is a colorless liquid with a delicate floral odor. (NTP, 1992) Farnesol is a farnesane sesquiterpenoid that is dodeca-2,6,10-triene substituted by methyl groups at positions 3, 7 and 11 and a hydroxy group at position 1. It has a role as a plant metabolite, a fungal metabolite and an antimicrobial agent. It is a farnesane sesquiterpenoid, a primary alcohol and a polyprenol. trans,trans-Farnesol is a natural product found in Lonicera japonica, Psidium guajava, and other organisms with data available. (2-trans,6-trans)-Farnesol is a metabolite found in or produced by Saccharomyces cerevisiae. A colorless liquid extracted from oils of plants such as citronella, neroli, cyclamen, and tuberose. It is an intermediate step in the biological synthesis of cholesterol from mevalonic acid in vertebrates. It has a delicate odor and is used in perfumery. (From McGraw-Hill Dictionary of Scientific and Technical Terms, 5th ed) Farnesol is a sesquiterpene alcohol that modulates cell-to-cell communication in Candida albicans, and has the activity in inhibiting bacteria. Farnesol is a sesquiterpene alcohol that modulates cell-to-cell communication in Candida albicans, and has the activity in inhibiting bacteria.

(+)-alpha-Pinene

C10H16 (136.1252)

alpha-Pinene (CAS: 80-56-8) is an organic compound of the terpene class and is one of two isomers of pinene. It is found in the oils of many species of many coniferous trees, notably the pine. It is also found in the essential oil of rosemary (Rosmarinus officinalis). Both enantiomers are known in nature. 1S,5S- or (-)-alpha-pinene is more common in European pines, whereas the 1R,5R- or (+)-alpha-isomer is more common in North America. The racemic mixture is present in some oils such as eucalyptus oil (Wikipedia). alpha-Pinene is an organic compound of the terpene class, one of two isomers of pinene. It is found in the oils of many species of many coniferous trees, notably the pine. It is also found in the essential oil of rosemary (Rosmarinus officinalis). Both enantiomers are known in nature; 1S,5S- or (-)-alpha-pinene is more common in European pines, whereas the 1R,5R- or (+)-alpha-isomer is more common in North America. The racemic mixture is present in some oils such as eucalyptus oil. (+)-alpha-pinene is the (+)-enantiomer of alpha-pinene. It has a role as a plant metabolite and a human metabolite. It is an enantiomer of a (-)-alpha-pinene. (+)-alpha-Pinene is a natural product found in Juniperus drupacea, Eucalyptus deglupta, and other organisms with data available. The (+)-enantiomer of alpha-pinene. (1R)-α-Pinene is a volatile monoterpene with antimicrobial activities. (1R)-α-Pinene reduces Bacillus cereus population growth, and exhibits repellent effects[1][2]. (1R)-α-Pinene is a volatile monoterpene with antimicrobial activities. (1R)-α-Pinene reduces Bacillus cereus population growth, and exhibits repellent effects[1][2].

Syringic acid

C9H10O5 (198.0528)

Syringic acid, also known as syringate or cedar acid, belongs to the class of organic compounds known as gallic acid and derivatives. Gallic acid and derivatives are compounds containing a 3,4,5-trihydroxybenzoic acid moiety. Outside of the human body, Syringic acid is found, on average, in the highest concentration within a few different foods, such as common walnuts, swiss chards, and olives and in a lower concentration in apples, tarragons, and peanuts. Syringic acid has also been detected, but not quantified in several different foods, such as sweet marjorams, silver lindens, bulgurs, annual wild rices, and barley. This could make syringic acid a potential biomarker for the consumption of these foods. Syringic acid is correlated with high antioxidant activity and inhibition of LDL oxidation. Research suggests that phenolics from wine may play a positive role against oxidation of low-density lipoprotein (LDL), which is a key step in the development of atherosclerosis. Syringic acid is a phenol present in some distilled alcohol beverages. It is also a product of microbial (gut) metabolism of anthocyanins and other polyphenols that have been consumed (in fruits and alcoholic beverages - PMID:18767860). Syringic acid is also a microbial metabolite that can be found in Bifidobacterium (PMID:24958563). Syringic acid is a dimethoxybenzene that is 3,5-dimethyl ether derivative of gallic acid. It has a role as a plant metabolite. It is a member of benzoic acids, a dimethoxybenzene and a member of phenols. It is functionally related to a gallic acid. It is a conjugate acid of a syringate. Syringic acid is a natural product found in Visnea mocanera, Pittosporum illicioides, and other organisms with data available. Syringic acid is a metabolite found in or produced by Saccharomyces cerevisiae. Present in various plants free and combined, e.g. principal phenolic constituent of soyabean meal (Glycine max) A dimethoxybenzene that is 3,5-dimethyl ether derivative of gallic acid. D019995 - Laboratory Chemicals > D007202 - Indicators and Reagents KEIO_ID S018 Syringic acid is correlated with high antioxidant activity and inhibition of LDL oxidation. Syringic acid is correlated with high antioxidant activity and inhibition of LDL oxidation.

Oleic acid

C18H34O2 (282.2559)

Oleic acid (or 9Z)-Octadecenoic acid) is an unsaturated C-18 or an omega-9 fatty acid that is the most widely distributed and abundant fatty acid in nature. It occurs naturally in various animal and vegetable fats and oils. It is an odorless, colorless oil, although commercial samples may be yellowish. The name derives from the Latin word oleum, which means oil. Oleic acid is the most abundant fatty acid in human adipose tissue, and the second most abundant in human tissues overall, following palmitic acid. Oleic acid is a component of the normal human diet, being a part of animal fats and vegetable oils. Triglycerides of oleic acid represent the majority of olive oil (about 70\\\\%). Oleic acid triglycerides also make up 59–75\\\\% of pecan oil, 61\\\\% of canola oil, 36–67\\\\% of peanut oil, 60\\\\% of macadamia oil, 20–80\\\\% of sunflower oil, 15–20\\\\% of grape seed oil, sea buckthorn oil, 40\\\\% of sesame oil, and 14\\\\% of poppyseed oil. High oleic variants of plant sources such as sunflower (~80\\\\%) and canola oil (70\\\\%) also have been developed. consumption has been associated with decreased low-density lipoprotein (LDL) cholesterol, and possibly with increased high-density lipoprotein (HDL) cholesterol, however, the ability of oleic acid to raise HDL is still debated. Oleic acid may be responsible for the hypotensive (blood pressure reducing) effects of olive oil that is considered a health benefit. Oleic acid is used in manufacturing of surfactants, soaps, plasticizers. It is also used as an emulsifying agent in foods and pharmaceuticals. Oleic acid is used commercially in the preparation of oleates and lotions, and as a pharmaceutical solvent. Major constituent of plant oils e.g. olive oil (ca. 80\\\\%), almond oil (ca. 80\\\\%) and many others, mainly as glyceride. Constituent of tall oiland is also present in apple, melon, raspberry oil, tomato, banana, roasted peanuts, black tea, rice bran, cardamon, plum brandy, peated malt, dairy products and various animal fats. Component of citrus fruit coatings. Emulsifying agent in foods CONFIDENCE standard compound; INTERNAL_ID 290 COVID info from WikiPathways Corona-virus Coronavirus SARS-CoV-2 COVID-19 SARS-CoV COVID19 SARS2 SARS Oleic acid (9-cis-Octadecenoic acid) is an abundant monounsaturated fatty acid[1]. Oleic acid is a Na+/K+ ATPase activator[2]. Oleic acid (9-cis-Octadecenoic acid) is an abundant monounsaturated fatty acid[1]. Oleic acid is a Na+/K+ ATPase activator[2].

Linoleic acid

C18H32O2 (280.2402)

Linoleic acid is a doubly unsaturated fatty acid, also known as an omega-6 fatty acid, occurring widely in plant glycosides. In this particular polyunsaturated fatty acid (PUFA), the first double bond is located between the sixth and seventh carbon atom from the methyl end of the fatty acid (n-6). Linoleic acid is an essential fatty acid in human nutrition because it cannot be synthesized by humans. It is used in the biosynthesis of prostaglandins (via arachidonic acid) and cell membranes (From Stedman, 26th ed). Linoleic acid is found to be associated with isovaleric acidemia, which is an inborn error of metabolism. Linoleic acid (LA) is an organic compound with the formula HOOC(CH2)7CH=CHCH2CH=CH(CH2)4CH3. Both alkene groups (−CH=CH−) are cis. It is a fatty acid sometimes denoted 18:2 (n-6) or 18:2 cis-9,12. A linoleate is a salt or ester of this acid.[5] Linoleic acid is a polyunsaturated, omega-6 fatty acid. It is a colorless liquid that is virtually insoluble in water but soluble in many organic solvents.[2] It typically occurs in nature as a triglyceride (ester of glycerin) rather than as a free fatty acid.[6] It is one of two essential fatty acids for humans, who must obtain it through their diet,[7] and the most essential, because the body uses it as a base to make the others. The word "linoleic" derives from Latin linum 'flax', and oleum 'oil', reflecting the fact that it was first isolated from linseed oil.

Xanthohumol

C21H22O5 (354.1467)

Xanthohumol is a member of the class of chalcones that is trans-chalcone substituted by hydroxy groups at positions 4, 2 and 4, a methoxy group at position 6 and a prenyl group at position 3. Isolated from Humulus lupulus, it induces apoptosis in human malignant glioblastoma cells. It has a role as a metabolite, an apoptosis inducer, an antineoplastic agent, an antiviral agent, an EC 2.3.1.20 (diacylglycerol O-acyltransferase) inhibitor and an anti-HIV-1 agent. It is a member of chalcones, a polyphenol and an aromatic ether. It is a conjugate acid of a xanthohumol(1-). Xanthohumol is under investigation in clinical trial NCT01367431 (Xanthohumol and Metabolic Syndrome). Xanthohumol is a natural product found in Humulus lupulus and Capsicum annuum with data available. Xanthohumol is a prenylated flavonoid derived from the female flowers of the hops plant (Humulus lupulus L), with potential chemopreventive and antineoplastic activities. Upon administration, xanthohumol scavenges reactive oxygen species (ROS), thereby preventing DNA damage due to oxidative stress. In addition, xanthohumol is able to increase the expression of phase II cytoprotective enzymes, thereby inactivating carcinogens. This agent exerts anti-inflammatory activity, through the inhibition of inflammation-inducing enzymes, inhibits DNA synthesis, and induces apoptosis of susceptible cancer cells. Xanthohumol also decreases the expression of C-X-C chemokine receptor 4 (CXCR4), thereby preventing cancer cell invasion. A member of the class of chalcones that is trans-chalcone substituted by hydroxy groups at positions 4, 2 and 4, a methoxy group at position 6 and a prenyl group at position 3. Isolated from Humulus lupulus, it induces apoptosis in human malignant glioblastoma cells. C308 - Immunotherapeutic Agent > C63817 - Chemokine Receptor Antagonist > C107589 - CXCR4 Inhibitor Xanthohumol is found in alcoholic beverages. Xanthohumol is isolated from Humulus lupulus (hops Isolated from Humulus lupulus (hops). Xanthohumol is found in beer and alcoholic beverages. D006133 - Growth Substances > D043924 - Angiogenesis Modulating Agents D000970 - Antineoplastic Agents > D020533 - Angiogenesis Inhibitors D006133 - Growth Substances > D006131 - Growth Inhibitors C1892 - Chemopreventive Agent [Raw Data] CBA95_Xanthohumol_pos_50eV.txt [Raw Data] CBA95_Xanthohumol_neg_40eV.txt [Raw Data] CBA95_Xanthohumol_neg_20eV.txt [Raw Data] CBA95_Xanthohumol_neg_30eV.txt [Raw Data] CBA95_Xanthohumol_neg_50eV.txt [Raw Data] CBA95_Xanthohumol_pos_30eV.txt [Raw Data] CBA95_Xanthohumol_pos_10eV.txt [Raw Data] CBA95_Xanthohumol_neg_10eV.txt [Raw Data] CBA95_Xanthohumol_pos_20eV.txt [Raw Data] CBA95_Xanthohumol_pos_40eV.txt Xanthohumol is one of the principal flavonoids isolated from hops, the inhibitor of diacylglycerol acetyltransferase (DGAT), COX-1 and COX-2, and shows anti-cancer and anti-angiogenic activities. Xanthohumol also has antiviral activity against bovine viral diarrhea virus (BVDV), rhinovirus, HSV-1, HSV-2 and cytomegalovirus (CMV). Xanthohumol is one of the principal flavonoids isolated from hops, the inhibitor of diacylglycerol acetyltransferase (DGAT), COX-1 and COX-2, and shows anti-cancer and anti-angiogenic activities. Xanthohumol also has antiviral activity against bovine viral diarrhea virus (BVDV), rhinovirus, HSV-1, HSV-2 and cytomegalovirus (CMV). Xanthohumol is one of the principal flavonoids isolated from hops, the inhibitor of diacylglycerol acetyltransferase (DGAT), COX-1 and COX-2, and shows anti-cancer and anti-angiogenic activities. Xanthohumol also has antiviral activity against bovine viral diarrhea virus (BVDV), rhinovirus, HSV-1, HSV-2 and cytomegalovirus (CMV).

(+)-Gallocatechin

C15H14O7 (306.0739)

Widespread in plants; found especies in green tea, redcurrants, gooseberries and marrowfat peas. Potential nutriceutical. Gallocatechin is found in many foods, some of which are broad bean, broccoli, quince, and common grape. (+)-Gallocatechin is found in adzuki bean. (+)-Gallocatechin is widespread in plants; found especially in green tea, redcurrants, gooseberries and marrowfat peas. Potential nutriceutical. (+)-Gallocatechin is a polyphenol compound from green tea, possesses anticancer activity[1]. (+)-Gallocatechin is a polyphenol compound from green tea, possesses anticancer activity[1]. (+)-Gallocatechin is a polyphenol compound from green tea, possesses anticancer activity[1]. (+)-Gallocatechin is a polyphenol compound from green tea, possesses anticancer activity[1].

Geranial

C10H16O (152.1201)

Geranial, also known as 3,7-dimethyl-2,6-octadienal, citral or lemonal, belongs to the class of organic compounds known as acyclic monoterpenoids. These are monoterpenes that do not contain a cycle. Thus, citral is considered to be an isoprenoid lipid. Two different isomers of 3,7-dimethyl-2,6-octadienal exist. The E-isomer or trans-isomer is known as geranial or citral A. The Z-isomer or cis-isomer is known as neral or citral B. 3,7-dimethyl-2,6-octadienal is a very hydrophobic molecule, practically insoluble in water, and relatively neutral. Citral is present in the oils of several plants, including lemon myrtle (90-98\\\\%), Litsea citrata (90\\\\%), Litsea cubeba, lemongrass (65-80\\\\%), lemon tea-tree (70-80\\\\%), Ocimum gratissimum, Lindera citriodora, Calypranthes parriculata, petitgrain, lemon verbena, lemon ironbark, lemon balm, lime, lemon and orange. Citral has also been reported to be found in Cannabis sativa (PMID:6991645 , 26657499 ). Citral has a strong lemon (citrus) odor. Nerals lemon odor is less intense, but sweeter. Citral is therefore an aroma compound used in perfumery for its citrus effect. Citral is also used as a flavor and for fortifying lemon oil. It has strong antimicrobial qualities (PMID:28974979 ) and pheromonal effects in nematodes and insects (PMID:26973536 ). Citral is used in the synthesis of vitamin A, lycopene, ionone, and methylionone (a compound used to mask the smell of smoke). Occurs in lemon grass oil (Cymbopogon citratus), lemon, orange and many other essential oils; flavouring ingredient. Geranial is found in many foods, some of which are watermelon, nutmeg, cloud ear fungus, and yellow wax bean. Citral is a monoterpene found in Cymbopogon citratus essential oil, with antihyperalgesic, anti-nociceptive and anti-inflammatory effects[1]. Citral is a monoterpene found in Cymbopogon citratus essential oil, with antihyperalgesic, anti-nociceptive and anti-inflammatory effects[1].

trans-Piceid

C20H22O8 (390.1315)

trans-Piceid is found in alcoholic beverages. trans-Piceid is present in grapeskins and red wine. It is isolated from Polygonum cuspidatum (Japanese knotweed).Piceid is a stilbenoid glucoside and is a major resveratrol derivative in grape juices (E/Z)-Polydatin ((E/Z)-Piceid) is a monocrystalline compound originally isolated from the root and rhizome of Polygonum cuspidatum. (E/Z)-Polydatin has anti-platelet aggregation, anti-oxidative action of low-density lipoprotein (LDL), cardioprotective activity, anti-inflammatory and immune-regulating functions[1]. (E/Z)-Polydatin ((E/Z)-Piceid) is a monocrystalline compound originally isolated from the root and rhizome of Polygonum cuspidatum. (E/Z)-Polydatin has anti-platelet aggregation, anti-oxidative action of low-density lipoprotein (LDL), cardioprotective activity, anti-inflammatory and immune-regulating functions[1]. (E/Z)-Polydatin ((E/Z)-Piceid) is a monocrystalline compound originally isolated from the root and rhizome of Polygonum cuspidatum. (E/Z)-Polydatin has anti-platelet aggregation, anti-oxidative action of low-density lipoprotein (LDL), cardioprotective activity, anti-inflammatory and immune-regulating functions[1]. Polydatin (Piceid), extracted from the roots of Reynoutria japonica, a widely used traditional Chinese remedies, possesses anti-inflammatory activity in several experimental models. Polydatin (Piceid) inhibits G6PD and induces oxidative and ER stresses. Polydatin (Piceid), extracted from the roots of Reynoutria japonica, a widely used traditional Chinese remedies, possesses anti-inflammatory activity in several experimental models. Polydatin (Piceid) inhibits G6PD and induces oxidative and ER stresses. Polydatin (Standard) is the analytical standard of Polydatin. This product is intended for research and analytical applications. Polydatin (Piceid), extracted from the roots of Reynoutria japonica, a widely used traditional Chinese remedies, possesses anti-inflammatory activity in several experimental models. Polydatin (Piceid) inhibits G6PD and induces oxidative and ER stresses.

Astragalin

C21H20O11 (448.1006)

Kaempferol 3-O-beta-D-glucoside is a kaempferol O-glucoside in which a glucosyl residue is attached at position 3 of kaempferol via a beta-glycosidic linkage. It has a role as a trypanocidal drug and a plant metabolite. It is a kaempferol O-glucoside, a monosaccharide derivative, a trihydroxyflavone and a beta-D-glucoside. It is a conjugate acid of a kaempferol 3-O-beta-D-glucoside(1-). Astragalin is a natural product found in Xylopia aromatica, Ficus virens, and other organisms with data available. See also: Moringa oleifera leaf (has part). Astragalin is found in alcoholic beverages. Astragalin is present in red wine. It is isolated from many plant species.Astragalin is a 3-O-glucoside of kaempferol. Astragalin is a chemical compound. It can be isolated from Phytolacca americana (the American pokeweed). A kaempferol O-glucoside in which a glucosyl residue is attached at position 3 of kaempferol via a beta-glycosidic linkage. Present in red wine. Isolated from many plant subspecies Acquisition and generation of the data is financially supported in part by CREST/JST. CONFIDENCE standard compound; INTERNAL_ID 173 Astragalin (Astragaline) a flavonoid with anti-inflammatory, antioxidant, anticancer, bacteriostatic activity. Astragalin inhibits cancer cells proliferation and migration, induces apoptosis. Astragalin is orally active and provides nerve and heart protection, and resistance against and osteoporosis[1]. Astragalin (Astragaline) a flavonoid with anti-inflammatory, antioxidant, anticancer, bacteriostatic activity. Astragalin inhibits cancer cells proliferation and migration, induces apoptosis. Astragalin is orally active and provides nerve and heart protection, and resistance against and osteoporosis[1].

procyanidin B2

C30H26O12 (578.1424)

Annotation level-1 Acquisition and generation of the data is financially supported in part by CREST/JST. Procyanidin B2 is a natural flavonoid, with anti-cancer, antioxidant activities. Procyanidin B2 is a natural flavonoid, with anti-cancer, antioxidant activities.

Humulone

C21H30O5 (362.2093)

An optically active cyclic ketone consisting of 3,5,6-trihydroxycyclohexa-2,4-dien-1-one bearing two 3-methylbut-2-en-1-yl substituents at positions 4 and 6 as well as a 3-methylbutanoyl group at the 2-position. Humulone is a natural product found in Humulus lupulus with data available. Humulone (α-Lupulic acid), a prenylated phloroglucinol derivative, is a potent cyclooxygenase-2 (COX-2) inhibitor. Humulone acts as a positive modulator of GABAA receptor at low micromolar concentrations. Humulone is an inhibitor of bone resorption. Humulone possesses antioxidant, anti-angiogenic and apoptosis-inducing properties[1][2][3]. Humulone (α-Lupulic acid), a prenylated phloroglucinol derivative, is a potent cyclooxygenase-2 (COX-2) inhibitor. Humulone acts as a positive modulator of GABAA receptor at low micromolar concentrations. Humulone is an inhibitor of bone resorption. Humulone possesses antioxidant, anti-angiogenic and apoptosis-inducing properties[1][2][3].

Desmethylxanthohumol

C20H20O5 (340.1311)

Desmethylxanthohumol is a member of the class of chalcones that is trans-chalcone substituted by hydroxy groups at positions 4, 2, 4, and 6 and a 3-methylbut-2-en-1-yl group at position 3. It has a role as a plant metabolite. It is a member of chalcones and a 2-acyl-4-prenylphloroglucinol. It is functionally related to a trans-chalcone. It is a conjugate acid of a desmethylxanthohumol(1-). Desmethylxanthohumol is a natural product found in Helichrysum dregeanum, Humulus lupulus, and other organisms with data available. A member of the class of chalcones that is trans-chalcone substituted by hydroxy groups at positions 4, 2, 4, and 6 and a 3-methylbut-2-en-1-yl group at position 3. Desmethylxanthohumol is found in alcoholic beverages. Desmethylxanthohumol is a constituent of Humulus lupulus (hops) D006133 - Growth Substances > D043924 - Angiogenesis Modulating Agents D000970 - Antineoplastic Agents > D020533 - Angiogenesis Inhibitors D006133 - Growth Substances > D006131 - Growth Inhibitors

alpha-Cadinol

C15H26O (222.1984)

alpha-Cadinol is found in cloves. alpha-Cadinol is a constituent of Juniperus communis (juniper)

3-Methyl-2-butenal

C5H8O (84.0575)

3-Methyl-2-butenal, also known as senecialdehyde or 3,3-dimethylacrolein, belongs to the class of organic compounds known as enals. These are alpha,beta-unsaturated aldehydes of the general formula RC=C-CH=O in which the aldehydic C=O function is conjugated to a C=C triple bond at the alpha,beta position. 3-methyl-2-butenal has been detected, but not quantified, in several different foods, such as common oregano, beechnuts, oval-leaf huckleberries, tea leaf willows, and red rice. This could make 3-methyl-2-butenal a potential biomarker for the consumption of these foods. 3-Methyl-2-butenal is a derivative of acrolein that is an alpha, beta-unsaturated carbonyl metabolite. It can be formed endogenously during lipid peroxidation or after oxidative stress, and is considered to play an important role in human carcinogenesis. The endogenously formed acroleins are a constant source of DNA damage, can lead to mutation, and can also induce tumours in humans (PMID:8319634). 3-Methyl-2-butenal, which is an unsaturated aldehyde bearing substitution at the alkene terminus, is a poor inactivator of the enzymes protein tyrosine phosphatases (PTPs). The inactivation of PTPs can yield profound biological consequences arising from the disruption of cellular signalling pathways (PMID:17655273). Present in blackberry, grape brandy, cocoa, currants, baked potato, tea, costmary and white bread. Flavouring ingredient

alpha-Copaene

C15H24 (204.1878)

alpha-Copaene, also known as aglaiene, belongs to the class of organic compounds known as sesquiterpenoids. These are terpenes with three consecutive isoprene units. alpha-Copaene is possibly neutral. alpha-Copaene is a spice and woody tasting compound that can be found in several food items such as lime, mandarin orange (clementine, tangerine), safflower, and summer savoury, which makes alpha-copaene a potential biomarker for the consumption of these food products. alpha-Copaene can be found in feces and saliva. Alpha-copaene, also known as copaene, is a member of the class of compounds known as sesquiterpenoids. Sesquiterpenoids are terpenes with three consecutive isoprene units. Alpha-copaene is a spice and woody tasting compound and can be found in a number of food items such as lime, mandarin orange (clementine, tangerine), safflower, and summer savory, which makes alpha-copaene a potential biomarker for the consumption of these food products. Alpha-copaene can be found primarily in feces and saliva. 8-Isopropyl-1,3-dimethyltricyclo(4.4.0.02,7)dec-3-ene is a natural product found in Pinus sylvestris var. hamata, Asarum gusk, and other organisms with data available.

1-Nonanol

C9H20O (144.1514)

1-Nonanol is found in citrus. 1-Nonanol is widespread in nature. 1-Nonanol occurs in oils of orange, citronella and lemon. Also found in cheese, prickly pears and bread. 1-Nonanol is a straight chain fatty alcohol with nine carbon atoms and the molecular formula CH3(CH2)8OH. It is a colorless to slightly yellow liquid with a citrus odor similar to citronella oil Widespread in nature. Occurs in oils of orange, citronella and lemonand is also found in cheese, prickly pears and bread. Flavouring agent

Isopentanol

C5H12O (88.0888)

Isopentanol, also known as isoamyl alcohol or 3-methylbutanol, belongs to the class of organic compounds known as primary alcohols. Primary alcohols are compounds comprising the primary alcohol functional group, with the general structure RCOH (R=alkyl, aryl). Thus, isopentanol is considered to be a fatty alcohol lipid molecule. Isopentanol is a very hydrophobic molecule, practically insoluble in water, and relatively neutral. Isopentanol exists in all eukaryotes, ranging from yeast to humans. Isopentanol is an alcoholic, banana, and burnt tasting compound. Isopentanol is found, on average, in the highest concentration within milk (cow). Isopentanol has also been detected, but not quantified, in several different foods, such as chinese cinnamons, grapefruits, walnuts, wild leeks, and spearmints. This could make isopentanol a potential biomarker for the consumption of these foods. Isopentanol is one of several isomers of amyl alcohol. Isopentanol is the major higher chain alcohol in alcoholic beverages and is present in cider, mead, beer, wine, and spirits to varying degrees, being obtained by the fermentation of starches. Isopentanol, with regard to humans, has been found to be associated with the diseases such as ulcerative colitis; isopentanol has also been linked to the inborn metabolic disorder celiac disease. Isopentanol is a metabolite found in Escherichia (PMID:18676713). Isopentyl alcohol is one of several isomers of amyl alcohol. It is a by-product of gut microbial fermentation (PMID: 17452087). It can be produced by 3-methylbutanal reductase (EC 1.1.1.265) from 3 methylbutanal. Isopentyl alcohol is the major higher chain alcohol in alcoholic beverages and is present in cider, mead, beer, wine, and spirits to varying degrees, being obtained by the fermentation of starches. Isopentanol has been shown to induce expression of CYP3A and CYP2E1 in human liver (PMID: 7574728). Isopentyl alcohol can also be found in many foods, some of which are chinese cabbage, white cabbage, elliotts blueberry, and pasta. It can be used as a flavouring agent.

alpha-Selinene

C15H24 (204.1878)

Occurs in celery oil and hop (Humulus lupulus) oil. alpha-Selinene is found in many foods, some of which are ginger, lovage, sweet bay, and allspice. alpha-Selinene is found in alcoholic beverages. alpha-Selinene occurs in celery oil and hop (Humulus lupulus) oi

beta-Cadinene

C15H24 (204.1878)

beta-Cadinene is found in common oregano. beta-Cadinene is a constituent of Pinus caribaea. Mixed cadinene isomers, with b-cadinene usually predominating, occur in several essential oils, especially ylang-ylang, citronella and cade oil from Juniper species Cadinene isomers are used as a flavouring agent and/or flavour modifier.

Hexanal

C6H12O (100.0888)

Hexanal is an alkyl aldehyde found in human biofluids. Human milk samples collected from women contains hexanal. Among mediators of oxidative stress, highly reactive secondary aldehydic lipid peroxidation products can initiate the processes of spontaneous mutagenesis and carcinogenesis and can also act as a growth-regulating factors and signaling molecules. In specimens obtained from adult patients with brain astrocytomas, lower levels of n-hexanal are associated with poorer patient prognosis. Hexanal has also been identified as a uremic toxin according to the European Uremic Toxin Working Group (PMID:22626821). Hexanal is a volatile compound that has been associated with the development of undesirable flavours. The content of hexanal, which is a major breakdown product of linoleic acid (LA, n - 6 PUFA) oxidation, has been used to follow the course of lipid oxidation and off-flavour development in foods, and have been proposed as one potential marker of milk quality. A "cardboard-like" off-flavour is frequently associated with dehydrated milk products. This effect is highly correlated with the headspace concentration of hexanal. (Food Chemistry. Volume 107, Issue 1, 1 March 2008, Pages 558-569, PMID:17934948, 17487452). Constituent of many foodstuffs. A production of aerobic enzymatic transformations of plant constits. It is used in fruit flavours and in perfumery D000890 - Anti-Infective Agents > D000935 - Antifungal Agents D010575 - Pesticides > D007306 - Insecticides D016573 - Agrochemicals

(+)-1(10),4-Cadinadiene

C15H24 (204.1878)

Constituent of the essential oils of ylang-ylang, citronella, cubebs, and sweetflag. (+)-1(10),4-Cadinadiene is found in many foods, some of which are common pea, asparagus, sweet potato, and dill. (+)-1(10),4-Cadinadiene is found in allspice. (+)-1(10),4-Cadinadiene is a constituent of the essential oils of ylang-ylang, citronella, cubebs, and sweetflag

phlorisobutyrophenone

C10H12O4 (196.0736)

Phlorisobutyrophenone, also known as 2-methyl-1-(2,4,6-trihydroxyphenyl)-1-propanone or 1-isobutanoyl-2,4,6-trihydroxybenzene, is a member of the class of compounds known as alkyl-phenylketones. Alkyl-phenylketones are aromatic compounds containing a ketone substituted by one alkyl group, and a phenyl group. Phlorisobutyrophenone is slightly soluble (in water) and a very weakly acidic compound (based on its pKa). Phlorisobutyrophenone can be found in a number of food items such as chickpea, common cabbage, angelica, and swamp cabbage, which makes phlorisobutyrophenone a potential biomarker for the consumption of these food products.

beta-Caryophyllene

C15H24 (204.1878)

beta-Caryophyllene, also known as caryophyllene or (−)-β-caryophyllene, is a natural bicyclic sesquiterpene that is a constituent of many essential oils including that of Syzygium aromaticum (cloves), Cannabis sativa, rosemary, and hops. It is usually found as a mixture with isocaryophyllene (the cis double bond isomer) and α-humulene (obsolete name: α-caryophyllene), a ring-opened isomer. beta-Caryophyllene is notable for having both a cyclobutane ring and a trans-double bond in a nine-membered ring, both rarities in nature (Wikipedia). beta-Caryophyllene is a sweet and dry tasting compound that can be found in a number of food items such as allspice, fig, pot marjoram, and roman camomile, which makes beta-caryophyllene a potential biomarker for the consumption of these food products. beta-Caryophyllene can be found in feces and saliva. (-)-Caryophyllene. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=87-44-5 (retrieved 2024-08-07) (CAS RN: 87-44-5). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). β-Caryophyllene is a CB2 receptor agonist. β-Caryophyllene is a CB2 receptor agonist.

alpha-Cubebene

C15H24 (204.1878)

alpha-Cubebene is found in cloves. alpha-Cubebene is a constituent of oil of cubeb pepper (Piper cubeba).

beta-Cubebene

C15H24 (204.1878)

Beta-cubebene, also known as (-)-B-cubebene, is a member of the class of compounds known as sesquiterpenoids. Sesquiterpenoids are terpenes with three consecutive isoprene units. Beta-cubebene is a citrus and fruity tasting compound and can be found in a number of food items such as sweet basil, roman camomile, pot marjoram, and sweet bay, which makes beta-cubebene a potential biomarker for the consumption of these food products. Beta-cubebene can be found primarily in saliva. Piper cubeba, cubeb or tailed pepper is a plant in genus Piper, cultivated for its fruit and essential oil. It is mostly grown in Java and Sumatra, hence sometimes called Java pepper. The fruits are gathered before they are ripe, and carefully dried. Commercial cubebs consist of the dried berries, similar in appearance to black pepper, but with stalks attached – the "tails" in "tailed pepper". The dried pericarp is wrinkled, and its color ranges from grayish brown to black. The seed is hard, white and oily. The odor of cubebs is described as agreeable and aromatic and the taste as pungent, acrid, slightly bitter and persistent. It has been described as tasting like allspice, or like a cross between allspice and black pepper . beta-Cubebene belongs to the class of organic compounds known as sesquiterpenoids. These are terpenes with three consecutive isoprene units.

alpha-eudesmol

C15H26O (222.1984)

A eudesmane sesquiterpenoid in which the eudesmane skeleton carries a hydroxy substituent at C-11 and has a double bond between C-3 and C-4.

Germacrene

C15H24 (204.1878)

Germacrene, also known as (e,e)-germacra-1(10),4,7(11)-triene, is a member of the class of compounds known as germacrane sesquiterpenoids. Germacrane sesquiterpenoids are sesquiterpenoids having the germacrane skeleton, with a structure characterized by a cyclodecane ring substituted with an isopropyl and two methyl groups. Thus, germacrene is considered to be an isoprenoid lipid molecule. Germacrene can be found in turmeric, which makes germacrene a potential biomarker for the consumption of this food product. Germacrenes are a class of volatile organic hydrocarbons, specifically, sesquiterpenes. Germacrenes are typically produced in a number of plant species for their antimicrobial and insecticidal properties, though they also play a role as insect pheromones. Two prominent molecules are germacrene A and germacrene D .

beta-Selinene

C15H24 (204.1878)

Constituent of celery oiland is) also from Cyperus rotundus (nutgrass) and Humulus lupulus (hops). beta-Selinene is found in many foods, some of which are safflower, star anise, chinese cinnamon, and allspice. beta-Selinene is found in alcoholic beverages. beta-Selinene is a constituent of celery oil. Also from Cyperus rotundus (nutgrass) and Humulus lupulus (hops)

trans-Ocimene

C10H16 (136.1252)

trans-Ocimene is found in allspice. trans-Ocimene is a constituent of the pheromones of Anastrepha suspensa, Euploea tulliolus koxinga, and Labidus species (CCD). Ocimene refers to several isomeric hydrocarbons. The ocimenes are monoterpenes found within a variety of plants and fruits. alpha-Ocimene and the two beta-ocimenes differ in the position of the isolated double bond: it is terminal in the alpha-isomer. alpha-Ocimene is 3,7-dimethyl-1,3,7-octatriene. beta-Ocimene is 3,7-dimethyl-1,3,6-octatriene. beta-Ocimene exists in two stereoisomeric forms, cis and trans, with respect to the central double bond. The ocimenes are often found naturally as mixtures of the various forms. The mixture (as well as the pure compounds) is an oil with a pleasant odour and it is used in perfumery. Constituent of the pheromones of Anastrepha suspensa, Euploea tulliolus koxinga and Labidus subspecies [CCD]

alpha-Terpineol

C10H18O (154.1358)

alpha-Terpineol (CAS: 98-55-5) is a naturally occurring monoterpene alcohol that has been isolated from a variety of sources such as cajuput oil, pine oil, and petitgrain oil. There are three isomers of terpineol, alpha-, beta-, and gamma-terpineol, with the last two differing only by the location of the double bond. Terpineol is usually a mixture of these isomers with alpha-terpineol as the major constituent. Terpineol has a pleasant odour similar to lilac and is a common ingredient in perfumes, cosmetics, and flavours. alpha-Terpineol is occasionally found as a volatile component in urine. It is a water-soluble component of Melaleuca alternifolia Cheel, the tea tree oil (TTO). alpha-Terpineol is a likely mediator of the in vitro and in vivo activity of the TTO as an agent that could control C. albicans vaginal infections. Purified alpha-terpineol can suppress pro-inflammatory mediator production by activated human monocytes. alpha-Terpineol is able to impair the growth of human M14 melanoma cells and appear to be more effective on their resistant variants, which express high levels of P-glycoprotein in the plasma membrane, overcoming resistance to caspase-dependent apoptosis exerted by P-glycoprotein-positive tumour cells (PMID:5556886, 17083732, 11131302, 15009716). Terpineol is a naturally occurring monoterpene alcohol that has been isolated from a variety of sources such as cajuput oil, pine oil, and petitgrain oil. There are three isomers, alpha-, beta-, and gamma-terpineol, the last two differing only by the location of the double bond. Terpineol is usually a mixture of these isomers with alpha-terpineol as the major constituent. (R)-alpha-Terpineol is found in many foods, some of which are mentha (mint), sweet marjoram, lovage, and cardamom. α-Terpineol is isolated from Eucalyptus globulus Labill, exhibits strong antimicrobial activity against periodontopathic and cariogenic bacteria[1]. α-Terpineol possesses antifungal activity against T. mentagrophytes, and the activity might lead to irreversible cellular disruption[2]. α-Terpineol is isolated from Eucalyptus globulus Labill, exhibits strong antimicrobial activity against periodontopathic and cariogenic bacteria[1]. α-Terpineol possesses antifungal activity against T. mentagrophytes, and the activity might lead to irreversible cellular disruption[2].

Lupulone

C26H38O4 (414.277)

Lupulone is found in alcoholic beverages. Lupulone is a constituent of hops

Germacrene D

C15H24 (204.1878)

Germacrene d, also known as germacrene d, (s-(e,e))-isomer, is a member of the class of compounds known as germacrane sesquiterpenoids. Germacrane sesquiterpenoids are sesquiterpenoids having the germacrane skeleton, with a structure characterized by a cyclodecane ring substituted with an isopropyl and two methyl groups. Germacrene d can be found in a number of food items such as peppermint, roman camomile, hyssop, and common walnut, which makes germacrene d a potential biomarker for the consumption of these food products.

alpha-Cadinene

C15H24 (204.1878)

Constituent of Humulus lupulus (hops). alpha-Cadinene is found in many foods, some of which are dill, alcoholic beverages, hyssop, and sweet bay. alpha-Cadinene is found in alcoholic beverages. alpha-Cadinene is a constituent of Humulus lupulus (hops).

alpha-Bergamotene

C15H24 (204.1878)

Constituent of oils of carrot (Daucus carota), bergamot (Citrus bergamia), also lime (Citrus aurantifolia), citron (Citrus medica) and cottonseed oil (Gossypium hirsutum). alpha-Bergamotene is found in many foods, some of which are fats and oils, sweet basil, sweet orange, and lemon. alpha-Bergamotene is found in carrot. alpha-Bergamotene is a constituent of oils of carrot (Daucus carota), bergamot (Citrus bergamia), also lime (Citrus aurantifolia), citron (Citrus medica) and cottonseed oil (Gossypium hirsutum).

Uncineol

C15H26O (222.1984)

Ethylmethylacetic acid

C5H10O2 (102.0681)

Ethylmethylacetic acid, also known as alpha-methyl butyric acid or a-methyl butyrate, belongs to the class of organic compounds known as methyl-branched fatty acids. These are fatty acids with an acyl chain that has a methyl branch. Usually, they are saturated and contain only one or more methyl group. However, branches other than methyl may be present. Ethylmethylacetic acid is a very hydrophobic molecule, practically insoluble in water, and relatively neutral. Ethylmethylacetic acid is a carboxylic acid found in low amounts in normal humans (PMID 3372640)

Gurjunene-alpha

C15H24 (204.1878)

Alpha-Gurjunene or (-)-Alpha-Gurjunene, belongs to the class of organic compounds known as 5,10-cycloaromadendrane sesquiterpenoids. These are aromadendrane sesquiterpenoids that arise from the C5-C10 cyclization of the aromadendrane skeleton. It is formally classified as a polycyclic hydrocarbon although it is biochemically a sesquiterpenoid as it synthesized via isoprene units. Sesquiterpenes are terpenes that contain 15 carbon atoms and are comprised of three isoprene units. The biosynthesis of sesquiterpenes is known to occur mainly through the mevalonic acid pathway (MVA), in the cytosol. However, recent studies have found evidence of pathway crosstalk with the methyl-erythritol-phosphate (MEP) pathway in the cytosol. Farnesyl diphosphate (FPP) is a key intermediate in the biosynthesis of cyclic sesquiterpenes. FPP undergoes several cyclization reactions to yield a diverse number of cyclic arrangements. Alpha-Gurjunene is a neutral, hydrophobic molecule that is insoluble in water. It exists as a colorless clear Liquid and has a woody, balsamic odor. It is used as a perfuming agent. Alpha-gurjunene is found in many plants, essential oils and foods including allspice, bay leaf, carrot seeds, eucalyptus, guava, parsley, black papper, sage and tea tree oil.

.delta.-Selinene

C15H24 (204.1878)

alpha-Guaiene

C15H24 (204.1878)

Constituent of guaiac wood oil (Bulnesia sarmienti). alpha-Guaiene is found in many foods, some of which are herbs and spices, sweet basil, burdock, and pepper (spice). alpha-Guaiene is found in burdock. alpha-Guaiene is a constituent of guaiac wood oil (Bulnesia sarmienti)

(+)-Ledene

C15H24 (204.1878)

(+)-Ledene belongs to the class of organic compounds known as 5,10-cycloaromadendrane sesquiterpenoids. These are aromadendrane sesquiterpenoids that arise from the C5-C10 cyclization of the aromadendrane skeleton.

alpha-Bulnesene

C15H24 (204.1878)

Constituent of guaiac wood oil (Bulnesia sarmienti). alpha-Bulnesene is found in many foods, some of which are pepper (spice), cottonseed, sweet basil, and herbs and spices. alpha-Bulnesene is found in cottonseed. alpha-Bulnesene is a constituent of guaiac wood oil (Bulnesia sarmienti).

Bicyclogermacrene

C15H24 (204.1878)

Constituent of the peel oil of Citrus junos (yuzu). Bicyclogermacrene is found in many foods, some of which are common oregano, lemon balm, hyssop, and orange mint. Bicyclogermacrene is found in citrus. Bicyclogermacrene is a constituent of the peel oil of Citrus junos (yuzu).

2',4-Dihydroxy-4',6'-dimethoxy-3'-prenylchalcone

C22H24O5 (368.1624)

2,4-Dihydroxy-4,6-dimethoxy-3-prenylchalcone is found in alcoholic beverages. 2,4-Dihydroxy-4,6-dimethoxy-3-prenylchalcone is isolated from Humulus lupulus (hops). Isolated from Humulus lupulus (hops). 2,4-Dihydroxy-4,6-dimethoxy-3-prenylchalcone is found in alcoholic beverages.

gamma-Selinene

C15H24 (204.1878)

Constituent of essential oil of hops (Humulus lupulus). gamma-Selinene is found in many foods, some of which are ginger, alcoholic beverages, wild celery, and lime. gamma-Selinene is found in alcoholic beverages. gamma-Selinene is a constituent of essential oil of hops (Humulus lupulus).

Quercetin 3-galactoside

C21H20O12 (464.0955)

Quercetin 3-O-beta-D-galactopyranoside is a quercetin O-glycoside that is quercetin with a beta-D-galactosyl residue attached at position 3. Isolated from Artemisia capillaris, it exhibits hepatoprotective activity. It has a role as a hepatoprotective agent and a plant metabolite. It is a tetrahydroxyflavone, a monosaccharide derivative, a beta-D-galactoside and a quercetin O-glycoside. Hyperoside is a natural product found in Lotus ucrainicus, Visnea mocanera, and other organisms with data available. See also: Bilberry (part of); Menyanthes trifoliata leaf (part of); Crataegus monogyna flowering top (part of). Quercetin 3-galactoside is found in alcoholic beverages. Quercetin 3-galactoside occurs widely in plants, e.g. in apple peel and Hypericum perforatum (St Johns wort).Hyperoside is the 3-O-galactoside of quercetin. It is a medicinally active compound that can be isolated from Drosera rotundifolia, from the Stachys plant, from Prunella vulgaris, from Rumex acetosella and from St Johns wort. (Wikipedia A quercetin O-glycoside that is quercetin with a beta-D-galactosyl residue attached at position 3. Isolated from Artemisia capillaris, it exhibits hepatoprotective activity. Occurs widely in plants, e.g. in apple peel and Hypericum perforatum (St Johns wort) Acquisition and generation of the data is financially supported in part by CREST/JST. Hyperoside is a NF-κB inhibitor, found from Hypericum monogynum. Hyperoside shows anti-tumor, antifungal, anti-inflammatory, anti-viral, and anti-oxidative activities, and can induce apoptosis[1][2]. Hyperoside is a NF-κB inhibitor, found from Hypericum monogynum. Hyperoside shows anti-tumor, antifungal, anti-inflammatory, anti-viral, and anti-oxidative activities, and can induce apoptosis[1][2].

cis-Citral

C10H16O (152.1201)

Neral, also known as cis-citral or citral b, is a member of the class of compounds known as acyclic monoterpenoids. Acyclic monoterpenoids are monoterpenes that do not contain a cycle. Thus, neral is considered to be an isoprenoid lipid molecule. Neral is practically insoluble (in water) and an extremely weak basic (essentially neutral) compound (based on its pKa). Neral is a sweet, citral, and lemon tasting compound and can be found in a number of food items such as oval-leaf huckleberry, lime, onion-family vegetables, and biscuit, which makes neral a potential biomarker for the consumption of these food products. Neral may refer to: An isomer of Citral Neral, India, a town in Raigad district in the Indian state of Maharashtra Neral railway station A Romulan from Star Trek . cis-Citral, also known as neural or citral B, is the Z-isomer of the terpenoid citral. Citral is found in carrot.

Pinene

C10H16 (136.1252)

Pinene (is a bicyclic monoterpene chemical compound. There are two structural isomers of pinene found in nature: alpha-pinene and beta-pinene. As the name suggests, both forms are important constituents of pine resin; they are also found in the resins of many other conifers, as well as in non-coniferous plants. Both isomers are used by many insects in their chemical communication system.

Epimuurolene

C15H24 (204.1878)

Gamma-cadinene, also known as D-G-cadinene or gamma-cadinene, (+)-isomer, is a member of the class of compounds known as sesquiterpenoids. Sesquiterpenoids are terpenes with three consecutive isoprene units. Gamma-cadinene is a wood tasting compound and can be found in a number of food items such as hyssop, lemon balm, sweet orange, and common sage, which makes gamma-cadinene a potential biomarker for the consumption of these food products. Gamma-cadinene can be found primarily in saliva. Chemically, the cadinenes are bicyclic sesquiterpenes. The term cadinene has sometimes also been used in a broad sense to refer to any sesquiterpene with the so-called cadalane (4-isopropyl-1,6-dimethyldecahydronaphthalene) carbon skeleton. Because of the large number of known double-bond and stereochemical isomers, this class of compounds has been subdivided into four subclasses based on the relative stereochemistry at the isopropyl group and the two bridgehead carbon atoms. The name cadinene is now properly used only for the first subclass below, which includes the compounds originally isolated from cade oil. Only one enantiomer of each subclass is depicted, with the understanding that the other enantiomer bears the same subclass name .

β-Pinene

C10H16 (136.1252)

An isomer of pinene with an exocyclic double bond. It is a component of essential oils from many plants. Widely distributed in plants, usually associated with a-Pinene JPV84-W but in smaller amounts. Found in lime peel oil, ginger, nutmeg, mace, bitter fennel, rosemary and sage. Flavour ingredient β-Pinene ((-)-β-Pinene), a major component of turpentine, inhibit infectious bronchitis virus (IBV) with an IC50 of 1.32 mM. β-Pinene presents antimicrobial activity[1][2]. β-Pinene ((-)-β-Pinene), a major component of turpentine, inhibit infectious bronchitis virus (IBV) with an IC50 of 1.32 mM. β-Pinene presents antimicrobial activity[1][2].

Maltose

C12H22O11 (342.1162)

A glycosylglucose consisting of two D-glucopyranose units connected by an alpha-(1->4)-linkage. D000074385 - Food Ingredients > D005503 - Food Additives D010592 - Pharmaceutic Aids > D005421 - Flavoring Agents A maltose that has beta-configuration at the reducing end anomeric centre. relative retention time with respect to 9-anthracene Carboxylic Acid is 0.054 relative retention time with respect to 9-anthracene Carboxylic Acid is 0.050 D-(+)-Cellobiose is an endogenous metabolite. D-(+)-Cellobiose is an endogenous metabolite. Maltose is a disaccharide formed from two units of glucose joined with an α(1→4) bond, a reducing sugar. Maltose monohydrate can be used as a energy source for bacteria. Maltose is a disaccharide formed from two units of glucose joined with an α(1→4) bond, a reducing sugar. Maltose monohydrate can be used as a energy source for bacteria.

alpha-Selinene

C15H24 (204.1878)

An isomer of selinene where the double bond in the octahydronaphthalene ring system is endocyclic (2R,4aR,8aR)-configuration..

Cedrelanol

C15H26O (222.1984)

A cadinane sesquiterpenoid that is cadin-4-ene carrying a hydroxy substituent at position 10.

alpha-Muurolene

C15H24 (204.1878)

(+)-alpha-muurolene is a member of the class of compounds known as sesquiterpenoids. Sesquiterpenoids are terpenes with three consecutive isoprene units (+)-alpha-muurolene can be found primarily in saliva. Within the cell, (+)-alpha-muurolene is primarily located in the membrane (predicted from logP).

alpha-Cadinene

C15H24 (204.1878)

A cadinene sesquiterpene that consists of 1-(propan-2-yl)-1,2,4a,5,6,8a-hexahydronaphthalene having two methyl substituents at positions 1 and 4 (the 1S,4aS,8aS-configuration). A member of the cadinene family of sesquiterpenes having a 4,7-dimethyl-1-(propan-2-yl)-1,2,4a,5,6,8a-hexahydronaphthalene skeleton with 1S,4aR,8aS-stereochemistry. It is isolated from the essential oils of several plant species.

gamma-Muurolene

C15H24 (204.1878)

Flavokawain C

C17H16O5 (300.0998)

2,4-Dihydroxy-4,6-dimethoxychalcone is found in beverages. 2,4-Dihydroxy-4,6-dimethoxychalcone is found in kava (Piper methysticum). FDA advises against use of kava in food due to potential risk of severe liver damage (2002 Flavokawain C is a member of chalcones. 2,4-Dihydroxy-4,6-dimethoxychalcone is a natural product found in Argyrochosma dealbata, Piper methysticum, and other organisms with data available. Flavokawain C is a natural chalcone found in Kava root. Flavokawain C exerts cytotoxicity against human cancer cell lines, with an IC50 of 12.75 μM for HCT 116 cells[1]. Flavokawain C is a natural chalcone found in Kava root. Flavokawain C exerts cytotoxicity against human cancer cell lines, with an IC50 of 12.75 μM for HCT 116 cells[1].

Spathulenol

C15H24O (220.1827)

Spathulenol is a tricyclic sesquiterpenoid that is 4-methylidenedecahydro-1H-cyclopropa[e]azulene carrying three methyl substituents at positions 1, 1 and 7 as well as a hydroxy substituent at position 7. It has a role as a volatile oil component, a plant metabolite, an anaesthetic and a vasodilator agent. It is a sesquiterpenoid, a carbotricyclic compound, a tertiary alcohol and an olefinic compound. Spathulenol is a natural product found in Xylopia aromatica, Xylopia emarginata, and other organisms with data available. See also: Chamomile (part of). A tricyclic sesquiterpenoid that is 4-methylidenedecahydro-1H-cyclopropa[e]azulene carrying three methyl substituents at positions 1, 1 and 7 as well as a hydroxy substituent at position 7. Spathulenol is found in alcoholic beverages. Spathulenol is a constituent of Salvia sclarea (clary sage).

Procyanidin B3

C30H26O12 (578.1424)

Procyanidin B3 is a proanthocyanidin consisting of two molecules of (+)-catechin joined by a bond between positions 4 and 8 in alpha-configuration. It can be found in red wine, in barley, in beer, in peach or in Jatropha macrantha, the Huanarpo Macho. It has a role as a metabolite, an antioxidant, an anti-inflammatory agent and an EC 2.3.1.48 (histone acetyltransferase) inhibitor. It is a hydroxyflavan, a proanthocyanidin, a biflavonoid and a polyphenol. It is functionally related to a (+)-catechin. Procyanidin B3 is a natural product found in Quercus dentata, Quercus miyagii, and other organisms with data available. Present in red wine. Occurs in Fragaria subspecies Procyanidin B3 is found in many foods, some of which are quince, strawberry, bilberry, and japanese persimmon. Procyanidin B3 is found in alcoholic beverages. Procyanidin B3 is present in red wine. Procyanidin B3 occurs in Fragaria species. Procyanidin B3 is a natural product, acts as a specific HAT inhibitor, binds to the other site of p300 instead of the active site, selectively inhibits p300-mediated androgen receptor acetylation. Procyanidin B3 has no effect on HDAC or HMT (histone methyltransferase)[1]. Procyanidin B3 is a natural product, acts as a specific HAT inhibitor, binds to the other site of p300 instead of the active site, selectively inhibits p300-mediated androgen receptor acetylation. Procyanidin B3 has no effect on HDAC or HMT (histone methyltransferase)[1].

Xanthohumol D

C21H22O6 (370.1416)

Xanthohumol D is a member of the class of chalcones that is trans-chalcone substituted by hydroxy groups at positions 4, 2 and 4, a methoxy group at position 6 and a 2-hydroxy-3-methylbut-3-en-1-yl group at position 3. It has been isolated as a racemate from Humulus lupulus and has been shown to exhibit inhibitory activity against NO production. It has a role as a metabolite and an EC 1.14.13.39 (nitric oxide synthase) inhibitor. It is a member of chalcones, a polyphenol, an aromatic ether and a secondary alcohol. A member of the class of chalcones that is trans-chalcone substituted by hydroxy groups at positions 4, 2 and 4, a methoxy group at position 6 and a 2-hydroxy-3-methylbut-3-en-1-yl group at position 3. It has been isolated as a racemate from Humulus lupulus and has been shown to exhibit inhibitory activity against NO production. Xanthohumol D is found in alcoholic beverages. Xanthohumol D is isolated from Humulus lupulus (hops Isolated from Humulus lupulus (hops). Xanthohumol D is found in alcoholic beverages.

Nonanal

C9H18O (142.1358)

Nonanal, also known as nonyl aldehyde or pelargonaldehyde, belongs to the class of organic compounds known as medium-chain aldehydes. These are an aldehyde with a chain length containing between 6 and 12 carbon atoms. Thus, nonanal is considered to be a fatty aldehyde lipid molecule. Nonanal acts synergistically with carbon dioxide in that regard. Nonanal is a very hydrophobic molecule, practically insoluble in water, and relatively neutral. Nonanal exists in all eukaryotes, ranging from yeast to humans. Nonanal is an aldehydic, citrus, and fat tasting compound. nonanal is found, on average, in the highest concentration in a few different foods, such as corns, tea, and gingers and in a lower concentration in sweet oranges, carrots, and limes. nonanal has also been detected, but not quantified, in several different foods, such as olives, cereals and cereal products, chinese cinnamons, common grapes, and oats. This could make nonanal a potential biomarker for the consumption of these foods. Nonanal has been identified as a compound that attracts Culex mosquitoes. Nonanal is a potentially toxic compound. Nonanal has been found to be associated with several diseases such as pervasive developmental disorder not otherwise specified, autism, crohns disease, and ulcerative colitis; also nonanal has been linked to the inborn metabolic disorders including celiac disease. Nonanal, also called nonanaldehyde, pelargonaldehyde or Aldehyde C-9, is an alkyl aldehyde. Although it occurs in several natural oils, it is produced commercially by hydroformylation of 1-octene. A colourless, oily liquid, nonanal is a component of perfumes. Nonanal is a clear brown liquid characterized by a rose-orange odor. Insoluble in water. Found in at least 20 essential oils, including rose and citrus oils and several species of pine oil. Nonanal is a saturated fatty aldehyde formally arising from reduction of the carboxy group of nonanoic acid. Metabolite observed in cancer metabolism. It has a role as a human metabolite and a plant metabolite. It is a saturated fatty aldehyde, a n-alkanal and a medium-chain fatty aldehyde. It is functionally related to a nonanoic acid. Nonanal is a natural product found in Teucrium montanum, Eupatorium cannabinum, and other organisms with data available. Nonanal is a uremic toxin. Uremic toxins can be subdivided into three major groups based upon their chemical and physical characteristics: 1) small, water-soluble, non-protein-bound compounds, such as urea; 2) small, lipid-soluble and/or protein-bound compounds, such as the phenols and 3) larger so-called middle-molecules, such as beta2-microglobulin. Chronic exposure of uremic toxins can lead to a number of conditions including renal damage, chronic kidney disease and cardiovascular disease.Nonanal belongs to the family of Medium-chain Aldehydes. These are An aldehyde with a chain length containing between 6 and 12 carbon atoms. Found in various plant sources including fresh fruits, citrus peels, cassava (Manihot esculenta), rice (Oryza sativa). Flavouring ingredient A saturated fatty aldehyde formally arising from reduction of the carboxy group of nonanoic acid. Metabolite observed in cancer metabolism. Nonanal is a saturated fatty aldehyde with antidiarrhoeal activity[1]. Nonanal is a saturated fatty aldehyde with antidiarrhoeal activity[1].

Quercetin 4'-glucoside

C21H20O12 (464.0955)

Quercetin 4-O-beta-D-glucopyranoside is a quercetin O-glucoside that is quercetin with a beta-D-glucosyl residue attached at position 4. It has a role as a plant metabolite, an antioxidant and an antineoplastic agent. It is a beta-D-glucoside, a monosaccharide derivative, a quercetin O-glucoside, a tetrahydroxyflavone and a member of flavonols. It is functionally related to a beta-D-glucose. It is a conjugate acid of a quercetin 4-O-beta-D-glucopyranoside(1-). Spiraeoside is a natural product found in Geranium robertianum, Gerbera jamesonii, and other organisms with data available. See also: Crataegus monogyna flowering top (part of). Spiraeoside is the 4-O-glucoside of quercetin. Quercetin 4-glucoside is found in many foods, some of which are garden onion, sweet cherry, shallot, and garden onion (variety). Quercetin 4-glucoside is found in garden onion. Spiraeoside is the 4-O-glucoside of quercetin. (Wikipedia).

Hulupinic acid

C15H20O4 (264.1362)

Hulupinic acid is an enol and an enone. Hulupinic acid is a natural product found in Humulus lupulus with data available. Hulupinic acid is found in alcoholic beverages. Hulupinic acid is a constituent of hops Constituent of hops. Hulupinic acid is found in alcoholic beverages.

2-Tridecanone

C13H26O (198.1984)

2-tridecanone is a white crystalline solid. (NTP, 1992) Tridecan-2-one is a methyl ketone that is tridecane in which the methylene hydrogens at position 2 are replaced by an oxo group. It has a role as a plant metabolite and a flavouring agent. It derives from a hydride of a tridecane. 2-Tridecanone is a natural product found in Hedychium spicatum, Azadirachta indica, and other organisms with data available. 2-Tridecanone is found in citrus. 2-Tridecanone is isolated from plant oils, e.g. palm oil, coconut oil. Also found in American cranberry, rabbiteye, blueberry, raspberry, grapefruit, onion, ginger and cheeses. 2-Tridecanone is used as a flavouring essence. Isolated from plant oils, e.g. palm oil, coconut oiland is also found in American cranberry, rabbiteye, blueberry, raspberry, grapefruit, onion, ginger and cheeses. It is used as a flavouring essence. A methyl ketone that is tridecane in which the methylene hydrogens at position 2 are replaced by an oxo group. 2-Tridecanone, a nonalkaloid insecticide, is isolated from the wild tomato Lycopersicon hirsutum f. glabratum. 2-Tridecanone is a volatile organic compound[1][2]. 2-Tridecanone, a nonalkaloid insecticide, is isolated from the wild tomato Lycopersicon hirsutum f. glabratum. 2-Tridecanone is a volatile organic compound[1][2].

Methyl caprylate

C9H18O2 (158.1307)

Methyl octanoate appears as a colorless liquid. Insoluble in water and about the same density as water. Used to make other chemicals. Methyl octanoate is a fatty acid methyl ester resulting from the formal condensation of the carboxy group of octanoic acid with the hydroxy group of methanol. It has a role as a metabolite. It is a fatty acid methyl ester and an octanoate ester. Methyl octanoate is a natural product found in Astragalus mongholicus, Achillea millefolium, and other organisms with data available. Methyl octanoate is a metabolite found in or produced by Saccharomyces cerevisiae. Methyl caprylate is found in chinese cinnamon. Methyl caprylate is a flavouring agent. Methyl caprylate is present in many fruits, e.g. apple, apricot, grape, blackberry, cherimoya etc Methyl caprylate is a flavouring agent. Present in many fruits, e.g. apple, apricot, grape, blackberry, cherimoya etc. It is also found in tea, chinese cinnamon and pepper (spice). A fatty acid methyl ester resulting from the formal condensation of the carboxy group of octanoic acid with the hydroxy group of methanol. Methyl octanoate, a volatile compound, is an aroma component persimmon wine[1]. Methyl octanoate, a volatile compound, is an aroma component persimmon wine[1].

3-(Methylthio)propanal

C4H8OS (104.0296)

3-(Methylthio)propanal, also known as 3-methylsulfanylpropanal or 4-thiapentanal, belongs to the class of organic compounds known as alpha-hydrogen aldehydes. These are aldehydes with the general formula HC(H)(R)C(=O)H, where R is an organyl group. 3-(Methylthio)propanal is a beef, cooked potato, and creamy tasting compound. 3-(Methylthio)propanal has been detected, but not quantified, in several different foods, such as anises, sparkleberries, oats, passion fruits, and hard wheats. 3-(Methylthio)propanal is a flavouring ingredient. It is found in many foods, some of which are cucumber, jujube, mugwort, and chicory leaves. D006730 - Hormones, Hormone Substitutes, and Hormone Antagonists > D006727 - Hormone Antagonists > D011448 - Prostaglandin Antagonists

gamma-Muurolene

C15H24 (204.1878)

gamma-Muurolene is found in carrot. gamma-Muurolene is a constituent of Pinus sylvestris (Scotch pine).

(E)-Calamene

C15H22 (202.1721)

Calamene is a metabolite of plant Turnera diffusa. Turnera diffusa (Damiana, Mexican holly, Old Womans Broom) is a small shrub of the family Tuneraceae. T. diffusa is native to both Central and South America and now commercially cultivated in Bolivia and Mexico. The leaf includes volatile oils (1,8-cineole, p-cymene, alpha- and beta-pinene, thymol, alpha-copaene, and calamene); luteolin; tannins, flavonoids (arbutin, acacetin, apigenin and pinocembrin), beta-sitosterol, damianin, and the cyanogenic glycoside tetraphyllin B. (www.globinmed.com) (e)-calamene is also known as calamenene or 1,6-dimethyl-4-isopropyltetralin. (e)-calamene can be found in a number of food items such as guava, lovage, summer savory, and rosemary, which makes (e)-calamene a potential biomarker for the consumption of these food products (e)-calamene can be found primarily in urine.

delta-Amorphene

C15H24 (204.1878)

1(10),4-Cadinadiene is a cadinene (FDB009046) of the delta-serie [FooDB]. A cadinene (FDB009046) of the delta-serie [FooDB]

beta-Farnesene

C15H24 (204.1878)

A mixture with 1,3,6,10-Farnesatetraene JXF60-O has been isolated from many plant sources and is used as a food flavourant (woodgreen flavour). beta-Farnesene is found in sweet basil. (E)-beta-Farnesene is found in anise. (E)-beta-Farnesene is a constituent of hop, camomile and other essential oils (E)-β-Farnesene (trans-β-Farnesene) is a volatile sesquiterpene hydrocarbon which can be found in Phlomis aurea Decne essential oil. (E)-β-Farnesene can be used as a feeding stimulant for the sand fly Lutzomyia longipalpis[1][2]. (E)-β-Farnesene (trans-β-Farnesene) is a volatile sesquiterpene hydrocarbon which can be found in Phlomis aurea Decne essential oil. (E)-β-Farnesene can be used as a feeding stimulant for the sand fly Lutzomyia longipalpis[1][2].

Germacrene B

C15H24 (204.1878)

Constituent of the peel oil of yuzu Citrus junos. Germacrene B is found in many foods, some of which are pepper (spice), lime, citrus, and common oregano. Germacrene B is found in citrus. Germacrene B is a constituent of the peel oil of yuzu Citrus junos.

cis-Ocimene

C10H16 (136.1252)

Ocimene refers to several isomeric hydrocarbons. The ocimenes are monoterpenes found within a variety of plants and fruits. alpha-Ocimene and the two beta-ocimenes differ in the position of the isolated double bond: it is terminal in the alpha isomer. alpha-Ocimene is 3,7-dimethyl-1,3,7-octatriene. beta-Ocimene is 3,7-dimethyl-1,3,6-octatriene. beta-Ocimene exists in two stereoisomeric forms, cis and trans, with respect to the central double bond. The ocimenes are often found naturally as mixtures of the various forms. The mixture (as well as the pure compounds) is an oil with a pleasant odor. It is used in perfumery. cis-beta-Ocimene is found in many foods, some of which are cornmint, sweet orange, sweet basil, and common sage. cis-Ocimene is found in allspice. Ocimene refers to several isomeric hydrocarbons. The ocimenes are monoterpenes found within a variety of plants and fruits. alpha-Ocimene and the two beta-ocimenes differ in the position of the isolated double bond: it is terminal in the alpha isomer. alpha-Ocimene is 3,7-dimethyl-1,3,7-octatriene. beta-Ocimene is 3,7-dimethyl-1,3,6-octatriene. beta-Ocimene exists in two stereoisomeric forms, cis and trans, with respect to the central double bond. The ocimenes are often found naturally as mixtures of the various forms. The mixture (as well as the pure compounds) is an oil with a pleasant odor. It is used in perfumery. (Wikipedia

(+)-alpha-Muurolene

C15H24 (204.1878)

(+)-alpha-Muurolene is isolated from various plant oils including Pinus mugo (dwarf mountain pine). Isolated from various plant oils including Pinus mugo (dwarf mountain pine)

1-Epi-alpha-gurjunene

C15H24 (204.1878)

1-Epi-alpha-gurjunene is a constituent of Tolu balsam (Myroxylon balsamum var. balsamum). 1-Epi-alpha-gurjunene is a food flavouring. Constituent of Tolu balsam (Myroxylon balsamum variety balsamum). Food flavouring

2-Methyl-1-[2,4,6-trihydroxy-3-(3-methyl-2-butenyl)phenyl]-1-propanone

C15H20O4 (264.1362)

2-Methyl-1-[2,4,6-trihydroxy-3-(3-methyl-2-butenyl)phenyl]-1-propanone is found in alcoholic beverages. 2-Methyl-1-[2,4,6-trihydroxy-3-(3-methyl-2-butenyl)phenyl]-1-propanone is a constituent of Helichrysum species Also found in hops. Constituent of Helichrysum subspecies Also found in hops

4,4'-Dihydroxy-2',6'-dimethoxychalcone

C17H16O5 (300.0998)

4,4-Dihydroxy-2,6-dimethoxychalcone is found in alcoholic beverages. 4,4-Dihydroxy-2,6-dimethoxychalcone is isolated from Humulus lupulus (hops). Isolated from Humulus lupulus (hops). 4,4-Dihydroxy-2,6-dimethoxychalcone is found in alcoholic beverages.

Methyl decanoate

C11H22O2 (186.162)

Methyl decanoate, also known as metholene 2095 or methyl caprate, belongs to the class of organic compounds known as fatty acid methyl esters. Fatty acid methyl esters are compounds containing a fatty acid that is esterified with a methyl group. They have the general structure RC(=O)OR, where R=fatty aliphatic tail or organyl group and R=methyl group. Methyl decanoate is a very hydrophobic molecule, practically insoluble in water, and relatively neutral. Constituent of many plants.

Methyl geranate

C11H18O2 (182.1307)

Methyl_geranate belongs to the family of Acyclic Monoterpenes. These are monoterpenes (compounds made of two consecutive isoprene units) that do not contain a cycle.

Humulene epoxide I

C2H6 (30.0469)

Humulene epoxide I is found in alcoholic beverages. Humulene epoxide I is a constituent of hops and wild ginger (Zingiber zerumbet).

Humulenol II

C15H24O (220.1827)

Humulenol II is found in herbs and spices. Humulenol II is a constituent of Zingiber zerumbet (wild ginger). Constituent of Zingiber zerumbet (wild ginger). Humulenol II is found in herbs and spices.

4-Deoxycohumulone

C20H28O4 (332.1987)

4-Deoxycohumulone is found in alcoholic beverages. 4-Deoxycohumulone is a bitter principle from hops (Humulus lupulus). Bitter principle from hops (Humulus lupulus). 4-Deoxycohumulone is found in alcoholic beverages.

Cadalene

C15H18 (198.1408)

Cadalene is a member of the class of compounds known as sesquiterpenoids. Sesquiterpenoids are terpenes with three consecutive isoprene units. Thus, cadalene is considered to be an isoprenoid lipid molecule. Cadalene can be found in a number of food items such as cloves, sugar apple, rosemary, and fig, which makes cadalene a potential biomarker for the consumption of these food products. Cadalene can be found primarily in saliva and urine. Cadalene exists in all eukaryotes, ranging from yeast to humans. Cadalene or cadalin (4-isopropyl-1,6-dimethylnaphthalene) is a polycyclic aromatic hydrocarbon with a chemical formula C15H18 and a cadinane skeleton. It is derived from generic sesquiterpenes, and ubiquitous in essential oils of many higher plants . Cadalene (4-isopropyl-1,6-dimethylnaphthalene) is a polycyclic aromatic hydrocarbon with a chemical formula C15H18 and a cadinane skeleton. It is derived from generic sesquiterpenes, and ubiquitous in essential oils of many higher plants. Cadalene, together with retene, simonellite and ip-iHMN, is a biomarker of higher plants, which makes it useful for paleobotanic analysis of rock sediments. The ratio of retene to cadalene in sediments can reveal the ratio of the genus Pinaceae in the biosphere. (Wikipedia)

Xanthohumol E

C25H26O5 (406.178)

Xanthohumol E is found in alcoholic beverages. Xanthohumol E is a constituent of Humulus lupulus (hops) Constituent of Humulus lupulus (hops). Xanthohumol E is found in alcoholic beverages.